Barry Smith Biocode Commons Ontology Hackathon members John Deck John Wieczorek Ramona Walls Robert Guralnick This is the editor's version of the ontology. Use with caution. For the live version of the ontology, use http://purl.obolibrary.org/obo/bco.owl. The Biological Collections Ontology was originally created at the Biocode Commons Hackathon at GSC14. Older versions can be viewed at http://code.google.com/p/biocode-commons/source/browse/#svn%2Ftrunk%2Fontologies%2Fbiocollections. Some of the classes in this ontology may be replaced by existing or newly requested terms from OBI or other ontologies. The Biological Collections Ontology taxonomic inventory metadata preferred name BCO preferred label dwc_bco mapping Relates an entity in the ontology to the name of the variable that is used to represent it in the code that generates the BFO OWL file from the lispy specification. Really of interest to developers only BFO OWL specification label Relates an entity in the ontology to the term that is used to represent it in the the CLIF specification of BFO2 Person:Alan Ruttenberg Really of interest to developers only BFO CLIF specification label editor preferred label editor preferred label editor preferred term editor preferred term editor preferred term~editor preferred label The concise, meaningful, and human-friendly name for a class or property preferred by the ontology developers. (US-English) PERSON:Daniel Schober GROUP:OBI:<http://purl.obolibrary.org/obo/obi> editor preferred label editor preferred label editor preferred term editor preferred term editor preferred term~editor preferred label example A phrase describing how a term should be used and/or a citation to a work which uses it. May also include other kinds of examples that facilitate immediate understanding, such as widely know prototypes or instances of a class, or cases where a relation is said to hold. PERSON:Daniel Schober GROUP:OBI:<http://purl.obolibrary.org/obo/obi> example of usage in branch An annotation property indicating which module the terms belong to. This is currently experimental and not implemented yet. GROUP:OBI OBI_0000277 in branch has curation status PERSON:Alan Ruttenberg PERSON:Bill Bug PERSON:Melanie Courtot OBI_0000281 has curation status definition definition textual definition The official OBI definition, explaining the meaning of a class or property. Shall be Aristotelian, formalized and normalized. Can be augmented with colloquial definitions. The official definition, explaining the meaning of a class or property. Shall be Aristotelian, formalized and normalized. Can be augmented with colloquial definitions. 2012-04-05: Barry Smith The official OBI definition, explaining the meaning of a class or property: 'Shall be Aristotelian, formalized and normalized. Can be augmented with colloquial definitions' is terrible. Can you fix to something like: A statement of necessary and sufficient conditions explaining the meaning of an expression referring to a class or property. Alan Ruttenberg Your proposed definition is a reasonable candidate, except that it is very common that necessary and sufficient conditions are not given. Mostly they are necessary, occasionally they are necessary and sufficient or just sufficient. Often they use terms that are not themselves defined and so they effectively can't be evaluated by those criteria. On the specifics of the proposed definition: We don't have definitions of 'meaning' or 'expression' or 'property'. For 'reference' in the intended sense I think we use the term 'denotation'. For 'expression', I think we you mean symbol, or identifier. For 'meaning' it differs for class and property. For class we want documentation that let's the intended reader determine whether an entity is instance of the class, or not. For property we want documentation that let's the intended reader determine, given a pair of potential relata, whether the assertion that the relation holds is true. The 'intended reader' part suggests that we also specify who, we expect, would be able to understand the definition, and also generalizes over human and computer reader to include textual and logical definition. Personally, I am more comfortable weakening definition to documentation, with instructions as to what is desirable. We also have the outstanding issue of how to aim different definitions to different audiences. A clinical audience reading chebi wants a different sort of definition documentation/definition from a chemistry trained audience, and similarly there is a need for a definition that is adequate for an ontologist to work with. PERSON:Daniel Schober GROUP:OBI:<http://purl.obolibrary.org/obo/obi> definition definition textual definition editor note An administrative note intended for its editor. It may not be included in the publication version of the ontology, so it should contain nothing necessary for end users to understand the ontology. PERSON:Daniel Schober GROUP:OBI:<http://purl.obfoundry.org/obo/obi> editor note editor note term editor Name of editor entering the term in the file. The term editor is a point of contact for information regarding the term. The term editor may be, but is not always, the author of the definition, which may have been worked upon by several people 20110707, MC: label update to term editor and definition modified accordingly. See https://github.com/information-artifact-ontology/IAO/issues/115. PERSON:Daniel Schober GROUP:OBI:<http://purl.obolibrary.org/obo/obi> term editor alternative term An alternative name for a class or property which means the same thing as the preferred name (semantically equivalent) PERSON:Daniel Schober GROUP:OBI:<http://purl.obolibrary.org/obo/obi> alternative term definition source formal citation, e.g. identifier in external database to indicate / attribute source(s) for the definition. Free text indicate / attribute source(s) for the definition. EXAMPLE: Author Name, URI, MeSH Term C04, PUBMED ID, Wiki uri on 31.01.2007 PERSON:Daniel Schober Discussion on obo-discuss mailing-list, see http://bit.ly/hgm99w GROUP:OBI:<http://purl.obolibrary.org/obo/obi> definition source has obsolescence reason Relates an annotation property to an obsolescence reason. The values of obsolescence reasons come from a list of predefined terms, instances of the class obsolescence reason specification. PERSON:Alan Ruttenberg PERSON:Melanie Courtot has obsolescence reason curator note An administrative note of use for a curator but of no use for a user PERSON:Alan Ruttenberg curator note term tracker item the URI for an OBI Terms ticket at sourceforge, such as https://sourceforge.net/p/obi/obi-terms/772/ An IRI or similar locator for a request or discussion of an ontology term. Person: Jie Zheng, Chris Stoeckert, Alan Ruttenberg Person: Jie Zheng, Chris Stoeckert, Alan Ruttenberg The 'tracker item' can associate a tracker with a specific ontology term. term tracker item The name of the person, project, or organization that motivated inclusion of an ontology term by requesting its addition. Person: Jie Zheng, Chris Stoeckert, Alan Ruttenberg Person: Jie Zheng, Chris Stoeckert, Alan Ruttenberg The 'term requester' can credit the person, organization or project who request the ontology term. ontology term requester is denotator type relates an class defined in an ontology, to the type of it's denotator In OWL 2 add AnnotationPropertyRange('is denotator type' 'denotator type') Alan Ruttenberg is denotator type imported from For external terms/classes, the ontology from which the term was imported PERSON:Alan Ruttenberg PERSON:Melanie Courtot GROUP:OBI:<http://purl.obolibrary.org/obo/obi> imported from expand expression to ObjectProperty: RO_0002104 Label: has plasma membrane part Annotations: IAO_0000424 "http://purl.obolibrary.org/obo/BFO_0000051 some (http://purl.org/obo/owl/GO#GO_0005886 and http://purl.obolibrary.org/obo/BFO_0000051 some ?Y)" A macro expansion tag applied to an object property (or possibly a data property) which can be used by a macro-expansion engine to generate more complex expressions from simpler ones Chris Mungall expand expression to expand assertion to ObjectProperty: RO??? Label: spatially disjoint from Annotations: expand_assertion_to "DisjointClasses: (http://purl.obolibrary.org/obo/BFO_0000051 some ?X) (http://purl.obolibrary.org/obo/BFO_0000051 some ?Y)" A macro expansion tag applied to an annotation property which can be expanded into a more detailed axiom. Chris Mungall expand assertion to first order logic expression PERSON:Alan Ruttenberg first order logic expression antisymmetric property part_of antisymmetric property xsd:true use boolean value xsd:true to indicate that the property is an antisymmetric property Alan Ruttenberg antisymmetric property OBO foundry unique label An alternative name for a class or property which is unique across the OBO Foundry. The intended usage of that property is as follow: OBO foundry unique labels are automatically generated based on regular expressions provided by each ontology, so that SO could specify unique label = 'sequence ' + [label], etc. , MA could specify 'mouse + [label]' etc. Upon importing terms, ontology developers can choose to use the 'OBO foundry unique label' for an imported term or not. The same applies to tools . PERSON:Alan Ruttenberg PERSON:Bjoern Peters PERSON:Chris Mungall PERSON:Melanie Courtot GROUP:OBO Foundry <http://obofoundry.org/> OBO foundry unique label Ontology: <http://purl.obolibrary.org/obo/ro/idrange/> Annotations: 'has ID prefix': "http://purl.obolibrary.org/obo/RO_" 'has ID digit count' : 7, rdfs:label "RO id policy" 'has ID policy for': "RO" Relates an ontology used to record id policy to the number of digits in the URI. The URI is: the 'has ID prefix" annotation property value concatenated with an integer in the id range (left padded with "0"s to make this many digits) Person:Alan Ruttenberg has ID digit count Datatype: idrange:1 Annotations: 'has ID range allocated to': "Chris Mungall" EquivalentTo: xsd:integer[> 2151 , <= 2300] Relates a datatype that encodes a range of integers to the name of the person or organization who can use those ids constructed in that range to define new terms Person:Alan Ruttenberg has ID range allocated to Ontology: <http://purl.obolibrary.org/obo/ro/idrange/> Annotations: 'has ID prefix': "http://purl.obolibrary.org/obo/RO_" 'has ID digit count' : 7, rdfs:label "RO id policy" 'has ID policy for': "RO" Relating an ontology used to record id policy to the ontology namespace whose policy it manages Person:Alan Ruttenberg has ID policy for Ontology: <http://purl.obolibrary.org/obo/ro/idrange/> Annotations: 'has ID prefix': "http://purl.obolibrary.org/obo/RO_" 'has ID digit count' : 7, rdfs:label "RO id policy" 'has ID policy for': "RO" Relates an ontology used to record id policy to a prefix concatenated with an integer in the id range (left padded with "0"s to make this many digits) to construct an ID for a term being created. Person:Alan Ruttenberg has ID prefix elucidation person:Alan Ruttenberg Person:Barry Smith Primitive terms in a highest-level ontology such as BFO are terms which are so basic to our understanding of reality that there is no way of defining them in a non-circular fashion. For these, therefore, we can provide only elucidations, supplemented by examples and by axioms elucidation has associated axiom(nl) Person:Alan Ruttenberg Person:Alan Ruttenberg An axiom associated with a term expressed using natural language has associated axiom(nl) has associated axiom(fol) Person:Alan Ruttenberg Person:Alan Ruttenberg An axiom expressed in first order logic using CLIF syntax has associated axiom(fol) is allocated id range Add as annotation triples in the granting ontology Relates an ontology IRI to an (inclusive) range of IRIs in an OBO name space. The range is give as, e.g. "IAO_0020000-IAO_0020999" PERSON:Alan Ruttenberg is allocated id range A annotation relationship between two terms in an ontology that may refer to the same (natural) type but where more evidence is required before terms are merged. David Osumi-Sutherland #40 VFB 2018-09-21T16:43:39Z Edges asserting this should be annotated with to record evidence supporting the assertion and its provenance. may be identical to Used when the class or object is scheduled for obsoletion/deprecation on or after a particular date. Chris Mungall, Jie Zheng https://github.com/geneontology/go-ontology/issues/15532 https://github.com/information-artifact-ontology/ontology-metadata/issues/32 GO ontology scheduled for obsoletion on or after has axiom id Person:Alan Ruttenberg Person:Alan Ruttenberg A URI that is intended to be unique label for an axiom used for tracking change to the ontology. For an axiom expressed in different languages, each expression is given the same URI has axiom label term replaced by Add as annotation triples in the granting ontology Use on obsolete terms, relating the term to another term that can be used as a substitute Person:Alan Ruttenberg Person:Alan Ruttenberg term replaced by ISA alternative term An alternative term used by the ISA tools project (http://isa-tools.org). Requested by Alejandra Gonzalez-Beltran https://sourceforge.net/tracker/?func=detail&aid=3603413&group_id=177891&atid=886178 Person: Alejandra Gonzalez-Beltran Person: Philippe Rocca-Serra ISA tools project (http://isa-tools.org) ISA alternative term IEDB alternative term An alternative term used by the IEDB. PERSON:Randi Vita, Jason Greenbaum, Bjoern Peters IEDB IEDB alternative term An assertion that holds between an OWL Object Property and a temporal interpretation that elucidates how OWL Class Axioms that use this property are to be interpreted in a temporal context. temporal interpretation https://github.com/oborel/obo-relations/wiki/ROAndTime Examples of a Contributor include a person, an organisation, or a service. Typically, the name of a Contributor should be used to indicate the entity. An entity responsible for making contributions to the content of the resource. Contributor Contributor Coverage will typically include spatial location (a place name or geographic coordinates), temporal period (a period label, date, or date range) or jurisdiction (such as a named administrative entity). Recommended best practice is to select a value from a controlled vocabulary (for example, the Thesaurus of Geographic Names [TGN]) and that, where appropriate, named places or time periods be used in preference to numeric identifiers such as sets of coordinates or date ranges. The extent or scope of the content of the resource. Coverage Coverage Examples of a Creator include a person, an organisation, or a service. Typically, the name of a Creator should be used to indicate the entity. An entity primarily responsible for making the content of the resource. Creator Creator Typically, Date will be associated with the creation or availability of the resource. Recommended best practice for encoding the date value is defined in a profile of ISO 8601 [W3CDTF] and follows the YYYY-MM-DD format. A date associated with an event in the life cycle of the resource. Date Date Description may include but is not limited to: an abstract, table of contents, reference to a graphical representation of content or a free-text account of the content. An account of the content of the resource. Description Description Typically, Format may include the media-type or dimensions of the resource. Format may be used to determine the software, hardware or other equipment needed to display or operate the resource. Examples of dimensions include size and duration. Recommended best practice is to select a value from a controlled vocabulary (for example, the list of Internet Media Types [MIME] defining computer media formats). The physical or digital manifestation of the resource. Format Format Recommended best practice is to identify the resource by means of a string or number conforming to a formal identification system. Example formal identification systems include the Uniform Resource Identifier (URI) (including the Uniform Resource Locator (URL)), the Digital Object Identifier (DOI) and the International Standard Book Number (ISBN). An unambiguous reference to the resource within a given context. Resource Identifier Resource Identifier Recommended best practice is to use RFC 3066 [RFC3066], which, in conjunction with ISO 639 [ISO639], defines two- and three-letter primary language tags with optional subtags. Examples include "en" or "eng" for English, "akk" for Akkadian, and "en-GB" for English used in the United Kingdom. A language of the intellectual content of the resource. Language Language Examples of a Publisher include a person, an organisation, or a service. Typically, the name of a Publisher should be used to indicate the entity. An entity responsible for making the resource available Publisher Publisher Recommended best practice is to reference the resource by means of a string or number conforming to a formal identification system. A reference to a related resource. Relation Relation Typically, a Rights element will contain a rights management statement for the resource, or reference a service providing such information. Rights information often encompasses Intellectual Property Rights (IPR), Copyright, and various Property Rights. If the Rights element is absent, no assumptions can be made about the status of these and other rights with respect to the resource. Information about rights held in and over the resource. Rights Management Rights Management The present resource may be derived from the Source resource in whole or in part. Recommended best practice is to reference the resource by means of a string or number conforming to a formal identification system. A reference to a resource from which the present resource is derived. Source Source Typically, a Subject will be expressed as keywords, key phrases or classification codes that describe a topic of the resource. Recommended best practice is to select a value from a controlled vocabulary or formal classification scheme. The topic of the content of the resource. Subject and Keywords Subject and Keywords Typically, a Title will be a name by which the resource is formally known. A name given to the resource. Title Title Type includes terms describing general categories, functions, genres, or aggregation levels for content. Recommended best practice is to select a value from a controlled vocabulary (for example, the DCMI Type Vocabulary [DCMITYPE]). To describe the physical or digital manifestation of the resource, use the Format element. The nature or genre of the content of the resource. Resource Type Resource Type Mark Miller 2018-05-11T13:47:29Z dwc_terms status has_alternative_id has_exact_synonym has_obo_namespace has_related_synonym in_subset The relationship between an independent continuant and a role. Slightly more specific than the parent class bearer of. This property was originally created in OBI, but in OBI it was deprecated and replaced by BFO:0000087. However, BFO:0000087 was replaced by 'has role at some time', which is not yet part of a stable release. Once the BFO role has been tested and released, it may replace 'has role' in both BCO and OBI. There are currently two versions of 'has role', the old one from BFO (which is used in OBI's definition of specimen) and the RO version. For consistency with OBI, we have used the BFO relation in BCO, but this should be resolved at a higher level. obsolete has role true derives from by planned process true This property used an old version of the has input relation, so it has been deprecated. is derived into by planned process true This relation is used specifically to link a taxonomic association to a taxon and is used with the of organism relation. to taxon This relation specifically links an identification association to an organismal entity and is used together with the to taxon relation. of organism A shortcut relation to an organsimal entity to a taxon or taxa. member of taxon is part of my brain is part of my body (continuant parthood, two material entities) my stomach cavity is part of my stomach (continuant parthood, immaterial entity is part of material entity) this day is part of this year (occurrent parthood) a core relation that holds between a part and its whole Everything is part of itself. Any part of any part of a thing is itself part of that thing. Two distinct things cannot be part of each other. Occurrents are not subject to change and so parthood between occurrents holds for all the times that the part exists. Many continuants are subject to change, so parthood between continuants will only hold at certain times, but this is difficult to specify in OWL. See https://code.google.com/p/obo-relations/wiki/ROAndTime Parthood requires the part and the whole to have compatible classes: only an occurrent can be part of an occurrent; only a process can be part of a process; only a continuant can be part of a continuant; only an independent continuant can be part of an independent continuant; only an immaterial entity can be part of an immaterial entity; only a specifically dependent continuant can be part of a specifically dependent continuant; only a generically dependent continuant can be part of a generically dependent continuant. (This list is not exhaustive.) A continuant cannot be part of an occurrent: use 'participates in'. An occurrent cannot be part of a continuant: use 'has participant'. A material entity cannot be part of an immaterial entity: use 'has location'. A specifically dependent continuant cannot be part of an independent continuant: use 'inheres in'. An independent continuant cannot be part of a specifically dependent continuant: use 'bearer of'. part_of part of http://www.obofoundry.org/ro/#OBO_REL:part_of has part my body has part my brain (continuant parthood, two material entities) my stomach has part my stomach cavity (continuant parthood, material entity has part immaterial entity) this year has part this day (occurrent parthood) a core relation that holds between a whole and its part Everything has itself as a part. Any part of any part of a thing is itself part of that thing. Two distinct things cannot have each other as a part. Occurrents are not subject to change and so parthood between occurrents holds for all the times that the part exists. Many continuants are subject to change, so parthood between continuants will only hold at certain times, but this is difficult to specify in OWL. See https://code.google.com/p/obo-relations/wiki/ROAndTime Parthood requires the part and the whole to have compatible classes: only an occurrent have an occurrent as part; only a process can have a process as part; only a continuant can have a continuant as part; only an independent continuant can have an independent continuant as part; only a specifically dependent continuant can have a specifically dependent continuant as part; only a generically dependent continuant can have a generically dependent continuant as part. (This list is not exhaustive.) A continuant cannot have an occurrent as part: use 'participates in'. An occurrent cannot have a continuant as part: use 'has participant'. An immaterial entity cannot have a material entity as part: use 'location of'. An independent continuant cannot have a specifically dependent continuant as part: use 'bearer of'. A specifically dependent continuant cannot have an independent continuant as part: use 'inheres in'. has_part has part realized in this disease is realized in this disease course this fragility is realized in this shattering this investigator role is realized in this investigation is realized by realized_in [copied from inverse property 'realizes'] to say that b realizes c at t is to assert that there is some material entity d & b is a process which has participant d at t & c is a disposition or role of which d is bearer_of at t& the type instantiated by b is correlated with the type instantiated by c. (axiom label in BFO2 Reference: [059-003]) Paraphrase of elucidation: a relation between a realizable entity and a process, where there is some material entity that is bearer of the realizable entity and participates in the process, and the realizable entity comes to be realized in the course of the process realized in realizes this disease course realizes this disease this investigation realizes this investigator role this shattering realizes this fragility to say that b realizes c at t is to assert that there is some material entity d & b is a process which has participant d at t & c is a disposition or role of which d is bearer_of at t& the type instantiated by b is correlated with the type instantiated by c. (axiom label in BFO2 Reference: [059-003]) Paraphrase of elucidation: a relation between a process and a realizable entity, where there is some material entity that is bearer of the realizable entity and participates in the process, and the realizable entity comes to be realized in the course of the process realizes occurs in b occurs_in c =def b is a process and c is a material entity or immaterial entity& there exists a spatiotemporal region r and b occupies_spatiotemporal_region r.& forall(t) if b exists_at t then c exists_at t & there exist spatial regions s and s’ where & b spatially_projects_onto s at t& c is occupies_spatial_region s’ at t& s is a proper_continuant_part_of s’ at t occurs_in unfolds in unfolds_in Paraphrase of definition: a relation between a process and an independent continuant, in which the process takes place entirely within the independent continuant occurs in site of [copied from inverse property 'occurs in'] b occurs_in c =def b is a process and c is a material entity or immaterial entity& there exists a spatiotemporal region r and b occupies_spatiotemporal_region r.& forall(t) if b exists_at t then c exists_at t & there exist spatial regions s and s’ where & b spatially_projects_onto s at t& c is occupies_spatial_region s’ at t& s is a proper_continuant_part_of s’ at t Paraphrase of definition: a relation between an independent continuant and a process, in which the process takes place entirely within the independent continuant contains process This document is about information artifacts and their representations is_about is a (currently) primitive relation that relates an information artifact to an entity. 7/6/2009 Alan Ruttenberg. Following discussion with Jonathan Rees, and introduction of "mentions" relation. Weaken the is_about relationship to be primitive. We will try to build it back up by elaborating the various subproperties that are more precisely defined. Some currently missing phenomena that should be considered "about" are predications - "The only person who knows the answer is sitting beside me" , Allegory, Satire, and other literary forms that can be topical without explicitly mentioning the topic. person:Alan Ruttenberg Smith, Ceusters, Ruttenberg, 2000 years of philosophy is about A person's name denotes the person. A variable name in a computer program denotes some piece of memory. Lexically equivalent strings can denote different things, for instance "Alan" can denote different people. In each case of use, there is a case of the denotation relation obtaining, between "Alan" and the person that is being named. denotes is a primitive, instance-level, relation obtaining between an information content entity and some portion of reality. Denotation is what happens when someone creates an information content entity E in order to specifically refer to something. The only relation between E and the thing is that E can be used to 'pick out' the thing. This relation connects those two together. Freedictionary.com sense 3: To signify directly; refer to specifically 2009-11-10 Alan Ruttenberg. Old definition said the following to emphasize the generic nature of this relation. We no longer have 'specifically denotes', which would have been primitive, so make this relation primitive. g denotes r =def r is a portion of reality there is some c that is a concretization of g every c that is a concretization of g specifically denotes r person:Alan Ruttenberg Conversations with Barry Smith, Werner Ceusters, Bjoern Peters, Michel Dumontier, Melanie Courtot, James Malone, Bill Hogan denotes inverse of the relation 'denotes' Person: Jie Zheng, Chris Stoeckert, Mike Conlon denoted by is_specified_input_of some Autologous EBV(Epstein-Barr virus)-transformed B-LCL (B lymphocyte cell line) is_input_for instance of Chromum Release Assay described at https://wiki.cbil.upenn.edu/obiwiki/index.php/Chromium_Release_assay A relation between a planned process and a continuant participating in that process that is not created during the process. The presence of the continuant during the process is explicitly specified in the plan specification which the process realizes the concretization of. Alan Ruttenberg PERSON:Bjoern Peters is_specified_input_of is_specified_input_of has_specified_output has_specified_output A relation between a planned process and a continuant participating in that process. The presence of the continuant at the end of the process is explicitly specified in the objective specification which the process realizes the concretization of. PERSON: Alan Ruttenberg PERSON: Bjoern Peters PERSON: Larry Hunter PERSON: Melanie Courtot has_specified_output is_specified_output_of is_specified_output_of A relation between a planned process and a continuant participating in that process. The presence of the continuant at the end of the process is explicitly specified in the objective specification which the process realizes the concretization of. Alan Ruttenberg PERSON:Bjoern Peters is_specified_output_of achieves_planned_objective A cell sorting process achieves the objective specification 'material separation objective' This relation obtains between a planned process and a objective specification when the criteria specified in the objective specification are met at the end of the planned process. BP, AR, PPPB branch PPPB branch derived modified according to email thread from 1/23/09 in accordince with DT and PPPB branch achieves_planned_objective has grain the relation of the cells in the finger of the skin to the finger, in which an indeterminate number of grains are parts of the whole by virtue of being grains in a collective that is part of the whole, and in which removing one granular part does not nec- essarily damage or diminish the whole. Ontological Whether there is a fixed, or nearly fixed number of parts - e.g. fingers of the hand, chambers of the heart, or wheels of a car - such that there can be a notion of a single one being missing, or whether, by contrast, the number of parts is indeterminate - e.g., cells in the skin of the hand, red cells in blood, or rubber molecules in the tread of the tire of the wheel of the car. Discussion in Karslruhe with, among others, Alan Rector, Stefan Schulz, Marijke Keet, Melanie Courtot, and Alan Ruttenberg. Definition take from the definition of granular parthood in the cited paper. Needs work to put into standard form PERSON: Alan Ruttenberg PAPER: Granularity, scale and collectivity: When size does and does not matter, Alan Rector, Jeremy Rogers, Thomas Bittner, Journal of Biomedical Informatics 39 (2006) 333-349 has grain objective_achieved_by This relation obtains between an objective specification and a planned process when the criteria specified in the objective specification are met at the end of the planned process. OBI OBI objective_achieved_by has value specification A relation between an information content entity and a value specification that specifies its value. PERSON: James A. Overton OBI has value specification inheres in this fragility inheres in this vase this red color inheres in this apple a relation between a specifically dependent continuant (the dependent) and an independent continuant (the bearer), in which the dependent specifically depends on the bearer for its existence A dependent inheres in its bearer at all times for which the dependent exists. inheres_in inheres in bearer of this apple is bearer of this red color this vase is bearer of this fragility a relation between an independent continuant (the bearer) and a specifically dependent continuant (the dependent), in which the dependent specifically depends on the bearer for its existence A bearer can have many dependents, and its dependents can exist for different periods of time, but none of its dependents can exist when the bearer does not exist. bearer_of is bearer of bearer of participates in this blood clot participates in this blood coagulation this input material (or this output material) participates in this process this investigator participates in this investigation a relation between a continuant and a process, in which the continuant is somehow involved in the process participates_in participates in has participant this blood coagulation has participant this blood clot this investigation has participant this investigator this process has participant this input material (or this output material) a relation between a process and a continuant, in which the continuant is somehow involved in the process Has_participant is a primitive instance-level relation between a process, a continuant, and a time at which the continuant participates in some way in the process. The relation obtains, for example, when this particular process of oxygen exchange across this particular alveolar membrane has_participant this particular sample of hemoglobin at this particular time. has_participant http://www.obofoundry.org/ro/#OBO_REL:has_participant has participant A journal article is an information artifact that inheres in some number of printed journals. For each copy of the printed journal there is some quality that carries the journal article, such as a pattern of ink. The journal article (a generically dependent continuant) is concretized as the quality (a specifically dependent continuant), and both depend on that copy of the printed journal (an independent continuant). An investigator reads a protocol and forms a plan to carry out an assay. The plan is a realizable entity (a specifically dependent continuant) that concretizes the protocol (a generically dependent continuant), and both depend on the investigator (an independent continuant). The plan is then realized by the assay (a process). A relationship between a generically dependent continuant and a specifically dependent continuant, in which the generically dependent continuant depends on some independent continuant in virtue of the fact that the specifically dependent continuant also depends on that same independent continuant. A generically dependent continuant may be concretized as multiple specifically dependent continuants. is concretized as A journal article is an information artifact that inheres in some number of printed journals. For each copy of the printed journal there is some quality that carries the journal article, such as a pattern of ink. The quality (a specifically dependent continuant) concretizes the journal article (a generically dependent continuant), and both depend on that copy of the printed journal (an independent continuant). An investigator reads a protocol and forms a plan to carry out an assay. The plan is a realizable entity (a specifically dependent continuant) that concretizes the protocol (a generically dependent continuant), and both depend on the investigator (an independent continuant). The plan is then realized by the assay (a process). A relationship between a specifically dependent continuant and a generically dependent continuant, in which the generically dependent continuant depends on some independent continuant in virtue of the fact that the specifically dependent continuant also depends on that same independent continuant. Multiple specifically dependent continuants can concretize the same generically dependent continuant. concretizes this catalysis function is a function of this enzyme a relation between a function and an independent continuant (the bearer), in which the function specifically depends on the bearer for its existence A function inheres in its bearer at all times for which the function exists, however the function need not be realized at all the times that the function exists. function_of is function of function of this red color is a quality of this apple a relation between a quality and an independent continuant (the bearer), in which the quality specifically depends on the bearer for its existence A quality inheres in its bearer at all times for which the quality exists. is quality of quality_of quality of this investigator role is a role of this person a relation between a role and an independent continuant (the bearer), in which the role specifically depends on the bearer for its existence A role inheres in its bearer at all times for which the role exists, however the role need not be realized at all the times that the role exists. is role of role_of role of this enzyme has function this catalysis function (more colloquially: this enzyme has this catalysis function) a relation between an independent continuant (the bearer) and a function, in which the function specifically depends on the bearer for its existence A bearer can have many functions, and its functions can exist for different periods of time, but none of its functions can exist when the bearer does not exist. A function need not be realized at all the times that the function exists. has_function has function this apple has quality this red color a relation between an independent continuant (the bearer) and a quality, in which the quality specifically depends on the bearer for its existence A bearer can have many qualities, and its qualities can exist for different periods of time, but none of its qualities can exist when the bearer does not exist. has_quality has quality this person has role this investigator role (more colloquially: this person has this role of investigator) a relation between an independent continuant (the bearer) and a role, in which the role specifically depends on the bearer for its existence A bearer can have many roles, and its roles can exist for different periods of time, but none of its roles can exist when the bearer does not exist. A role need not be realized at all the times that the role exists. has_role has role a relation between an independent continuant (the bearer) and a disposition, in which the disposition specifically depends on the bearer for its existence has disposition disposition of derives from this cell derives from this parent cell (cell division) this nucleus derives from this parent nucleus (nuclear division) a relation between two distinct material entities, the new entity and the old entity, in which the new entity begins to exist when the old entity ceases to exist, and the new entity inherits the significant portion of the matter of the old entity This is a very general relation. More specific relations are preferred when applicable, such as 'directly develops from'. derives_from derives from this parent cell derives into this cell (cell division) this parent nucleus derives into this nucleus (nuclear division) a relation between two distinct material entities, the old entity and the new entity, in which the new entity begins to exist when the old entity ceases to exist, and the new entity inherits the significant portion of the matter of the old entity This is a very general relation. More specific relations are preferred when applicable, such as 'directly develops into'. To avoid making statements about a future that may not come to pass, it is often better to use the backward-looking 'derives from' rather than the forward-looking 'derives into'. derives_into derives into is location of my head is the location of my brain this cage is the location of this rat a relation between two independent continuants, the location and the target, in which the target is entirely within the location Most location relations will only hold at certain times, but this is difficult to specify in OWL. See https://code.google.com/p/obo-relations/wiki/ROAndTime location_of location of located in my brain is located in my head this rat is located in this cage a relation between two independent continuants, the target and the location, in which the target is entirely within the location Location as a relation between instances: The primitive instance-level relation c located_in r at t reflects the fact that each continuant is at any given time associated with exactly one spatial region, namely its exact location. Following we can use this relation to define a further instance-level location relation - not between a continuant and the region which it exactly occupies, but rather between one continuant and another. c is located in c1, in this sense, whenever the spatial region occupied by c is part_of the spatial region occupied by c1. Note that this relation comprehends both the relation of exact location between one continuant and another which obtains when r and r1 are identical (for example, when a portion of fluid exactly fills a cavity), as well as those sorts of inexact location relations which obtain, for example, between brain and head or between ovum and uterus Most location relations will only hold at certain times, but this is difficult to specify in OWL. See https://code.google.com/p/obo-relations/wiki/ROAndTime located_in http://www.obofoundry.org/ro/#OBO_REL:located_in located in This is redundant with the more specific 'independent and not spatial region' constraint. We leave in the redundant axiom for use with reasoners that do not use negation. This is redundant with the more specific 'independent and not spatial region' constraint. We leave in the redundant axiom for use with reasoners that do not use negation. the surface of my skin is a 2D boundary of my body a relation between a 2D immaterial entity (the boundary) and a material entity, in which the boundary delimits the material entity A 2D boundary may have holes and gaps, but it must be a single connected entity, not an aggregate of several disconnected parts. Although the boundary is two-dimensional, it exists in three-dimensional space and thus has a 3D shape. 2D_boundary_of boundary of is 2D boundary of is boundary of 2D boundary of my body has 2D boundary the surface of my skin a relation between a material entity and a 2D immaterial entity (the boundary), in which the boundary delimits the material entity A 2D boundary may have holes and gaps, but it must be a single connected entity, not an aggregate of several disconnected parts. Although the boundary is two-dimensional, it exists in three-dimensional space and thus has a 3D shape. has boundary has_2D_boundary has 2D boundary An organism that is a member of a population of organisms is member of is a mereological relation between a item and a collection. is member of member part of SIO member of has member is a mereological relation between a collection and an item. SIO has member Organizational term to help define related terms. Do not use for data annotation with Darwin Core. Organizational term to help define related terms. Do not use for data annotation with Darwin Core. Example: "Tamias minimus" valid name for "Eutamias minimus" 2008-11-19 2009-09-21 not in ABCD recommended The full name, with authorship and date information if known, of the currently valid (zoological) or accepted (botanical) taxon. Accepted Name Usage 2009-01-21 2009-01-21 not in ABCD recommended Abstract term to attribute information to a source. Organizational term to help define related terms. Do not use for data annotation. According To Example: "http://arctos.database.museum/SpecimenImages/UAMObs/Mamm/2/P7291179.JPG" 2008-11-19 2009-04-24 DataSets/DataSet/Units/Unit/MultimediaObjects recommended A list (concatenated and separated) of identifiers (publication, global unique identifier, URI) of media associated with the Occurrence. Associated Media Example: "sibling of FMNH:Mammal:1234; sibling of FMNH:Mammal:1235" 2008-11-19 2009-04-24 DataSets/DataSet/Units/Unit/Associations/UnitAssociation/AssociatedUnitSourceInstitutionCode + DataSets/DataSet/Units/Unit/Associations/UnitAssociation/AssociatedUnitSourceName + DataSets/DataSet/Units/Unit/Associations/UnitAssociation/AssociatedUnitID recommended A list (concatenated and separated) of identifiers of other Occurrence records and their associations to this Occurrence. Associated Occurrences The recommended best practice is to separate the values with a vertical bar (' | '). Examples: "sibling of MXA-232", "mother of MXA-231 | mother of MXA-232". 2014-10-23 2014-10-23 not in ABCD recommended A list (concatenated and separated) of identifiers of other Organisms and their associations to this Organism. Associated Organisms Examples: "http://www.sciencemag.org/cgi/content/abstract/322/5899/261", "Christopher J. Conroy, Jennifer L. Neuwald. 2008. Phylogeographic study of the California vole, Microtus californicus Journal of Mammalogy, 89(3):755-767." 2008-11-19 2009-04-24 DataSets/DataSet/Units/Unit/UnitReferences recommended A list (concatenated and separated) of identifiers (publication, bibliographic reference, global unique identifier, URI) of literature associated with the Occurrence. Associated References Example: "GenBank: U34853.1" 2008-11-19 2009-04-24 DataSets/DataSet/Units/Unit/Sequences/Sequence/ID-in-Database + constant recommended A list (concatenated and separated) of identifiers (publication, global unique identifier, URI) of genetic sequence information associated with the Occurrence. Associated Sequences Example: "host: Quercus alba" 2008-11-19 2009-04-24 DataSets/DataSet/Units/Unit/Gathering/Synecology/AssociatedTaxa recommended A list (concatenated and separated) of identifiers or names of taxa and their associations with the Occurrence. Associated Taxa Examples: "PreservedSpecimen", "FossilSpecimen", "LivingSpecimen", "HumanObservation", "MachineObservation" 2008-11-19 2009-12-07 DataSets/DataSet/Units/Unit/RecordBasis recommended The specific nature of the data record - a subtype of the dcterms:type. Recommended best practice is to use a controlled vocabulary such as the Darwin Core Type Vocabulary (http://rs.tdwg.org/dwc/terms/type-vocabulary/index.htm). Basis of Record 2009-04-24 2009-07-06 not in ABCD recommended The full name of the lithostratigraphic bed from which the cataloged item was collected. Bed Examples: "roosting", "foraging", "running" 2009-03-06 2009-04-24 not in ABCD recommended A description of the behavior shown by the subject at the time the Occurrence was recorded. Recommended best practice is to use a controlled vocabulary. Behavior Examples: "2008.1334", "145732a", "145732" 2008-11-19 2009-04-24 DataSets/DataSet/Units/Unit/UnitID recommended An identifier (preferably unique) for the record within the data set or collection. Catalog Number Examples: "Mammalia", "Hepaticopsida" 2008-11-19 2009-08-24 DataSets/DataSet/Units/Unit/Identifications/Identification/TaxonIdentified/HigherTaxa/HigherTaxon/HigherTaxonName with HigherTaxa/HigherTaxon/HigherTaxonRank = classis recommended The full scientific name of the class in which the taxon is classified. Class Examples: "Mammals", "Hildebrandt", "eBird" 2008-11-19 2013-10-04 DataSets/DataSet/Units/Unit/SourceID recommended The name, acronym, coden, or initialism identifying the collection or data set from which the record was derived. Collection Code Example: "urn:lsid:biocol.org:col:34818" 2008-11-19 2013-10-04 DataSets/DataSet/Units/Unit/SourceID recommended An identifier for the collection or dataset from which the record was derived. For physical specimens, the recommended best practice is to use the identifier in a collections registry such as the Biodiversity Collections Index (http://www.biodiversitycollectionsindex.org/). Collection ID Examples: "Africa", "Antarctica", "Asia", "Europe", "North America", "Oceania", "South America" 2008-11-19 2013-10-04 DataSets/DataSet/Units/Unit/Gathering/NamedAreas/NamedArea/AreaName with NamedAreas/NamedArea/AreaClass= Continent recommended The name of the continent in which the Location occurs. Recommended best practice is to use a controlled vocabulary such as the Getty Thesaurus of Geographic Names. Continent Examples: "0.00001" (normal GPS limit for decimal degrees), "0.000278" (nearest second), "0.01667" (nearest minute), "1.0" (nearest degree) 2008-11-19 2009-04-24 DataSets/DataSet/Units/Unit/Gathering/SiteCoordinateSets/SiteCoordinates/CoordinatesLatLong/ISOAccuracy or DataSets/DataSet/Units/Unit/Gathering/SiteCoordinateSets/SiteCoordinates/CoordinatesLatLong/AccuracyStatement recommended A decimal representation of the precision of the coordinates given in the decimalLatitude and decimalLongitude. Coordinate Precision Examples: "30" (reasonable lower limit of a GPS reading under good conditions if the actual precision was not recorded at the time), "71" (uncertainty for a UTM coordinate having 100 meter precision and a known spatial reference system). 2008-11-19 2009-04-24 DataSets/DataSet/Units/Unit/Gathering/SiteCoordinateSets/SiteCoordinates/CoordinatesLatLon/CoordinateErrorDistanceInMeters recommended The horizontal distance (in meters) from the given decimalLatitude and decimalLongitude describing the smallest circle containing the whole of the Location. Leave the value empty if the uncertainty is unknown, cannot be estimated, or is not applicable (because there are no coordinates). Zero is not a valid value for this term. Coordinate Uncertainty In Meters Examples: "Denmark", "Colombia", "España" 2008-11-19 2009-04-24 DataSets/DataSet/Units/Unit/Gathering/Country/Name recommended The name of the country or major administrative unit in which the Location occurs. Recommended best practice is to use a controlled vocabulary such as the Getty Thesaurus of Geographic Names. Country Examples: "AR" for Argentina, "SV" for El Salvador 2008-11-19 2009-04-24 DataSets/DataSet/Units/Unit/Gathering/Country/ISO3166Code recommended The standard code for the country in which the Location occurs. Recommended best practice is to use ISO 3166-1-alpha-2 country codes. Country Code Examples: "Missoula", "Los Lagos", "Mataró" 2008-11-19 2009-04-24 DataSets/DataSet/Units/Unit/Gathering/NamedAreas/NamedArea/AreaName with NamedAreas/NamedArea/AreaClass= County recommended The full, unabbreviated name of the next smaller administrative region than stateProvince (county, shire, department, etc.) in which the Location occurs. County Example: "Coordinates generalized from original GPS coordinates to the nearest half degree grid cell" 2008-11-19 2009-04-24 not in ABCD recommended Actions taken to make the shared data less specific or complete than in its original form. Suggests that alternative data of higher quality may be available on request. Data Generalizations Examples: "Grinnell Resurvey Mammals", "Lacey Ctenomys Recaptures" 2009-09-11 2009-09-11 DataSets/DataSet/Units/Unit/SourceID recommended The name identifying the data set from which the record was derived. Dataset Name Examples: "1963-03-08T14:07-0600" is 8 Mar 1963 2:07pm in the time zone six hours earlier than UTC, "2009-02-20T08:40Z" is 20 Feb 2009 8:40am UTC, "1809-02-12" is 12 Feb 1809, "1906-06" is Jun 1906, "1971" is just that year, "2007-03-01T13:00:00Z/2008-05-11T15:30:00Z" is the interval between 1 Mar 2007 1pm UTC and 11 May 2008 3:30pm UTC, "2007-11-13/15" is the interval between 13 Nov 2007 and 15 Nov 2007. 2008-11-19 2009-08-24 DataSets/DataSet/Units/Unit/Identifications/Identification/Date/DateText recommended The date on which the subject was identified as representing the Taxon. Recommended best practice is to use an encoding scheme, such as ISO 8601:2004(E). Date Identified Examples: "9", "28" 2008-11-19 2009-04-24 accessible from DataSets/DataSet/Units/Unit/Gathering/ISODateTimeBegin recommended The integer day of the month on which the Event occurred. Day Example: "-41.0983423" 2008-11-19 2009-07-06 DataSets/DataSet/Units/Unit/Gathering/SiteCoordinateSets/SiteCoordinates/CoordinatesLatLon/LatitudeDecimal recommended The geographic latitude (in decimal degrees, using the spatial reference system given in geodeticDatum) of the geographic center of a Location. Positive values are north of the Equator, negative values are south of it. Legal values lie between -90 and 90, inclusive. Decimal Latitude Example: "-121.1761111" 2008-11-19 2009-07-06 DataSets/DataSet/Units/Unit/Gathering/SiteCoordinateSets/SiteCoordinates/CoordinatesLatLon/LongitudeDecimal recommended The geographic longitude (in decimal degrees, using the spatial reference system given in geodeticDatum) of the geographic center of a Location. Positive values are east of the Greenwich Meridian, negative values are west of it. Legal values lie between -180 and 180, inclusive. Decimal Longitude Examples: "in collection", "missing", "voucher elsewhere", "duplicates elsewhere" 2008-11-19 2009-04-24 DataSets/DataSet/Units/Unit/SpecimenUnit/Disposition recommended The current state of a specimen with respect to the collection identified in collectionCode or collectionID. Recommended best practice is to use a controlled vocabulary. Disposition Examples: "tragusLengthInMeters=0.014; weightInGrams=120", "heightInMeters=1.5", "natureOfID=expert identification; identificationEvidence=cytochrome B sequence", "relativeHumidity=28; airTemperatureInC=22; sampleSizeInKilograms=10", "aspectHeading=277; slopeInDegrees=6", "iucnStatus=vulnerable; taxonDistribution=Neuquen, Argentina" 2008-11-19 2009-04-24 not in ABCD recommended A list (concatenated and separated) of additional measurements, facts, characteristics, or assertions about the record. Meant to provide a mechanism for structured content such as key-value pairs. Dynamic Properties Examples: "Atlantic", "Boreal", "Skullrockian" 2009-04-24 2009-07-06 not in ABCD recommended The full name of the earliest possible geochronologic age or lowest chronostratigraphic stage attributable to the stratigraphic horizon from which the cataloged item was collected. Earliest Age Or Lowest Stage Examples: "Phanerozoic", "Proterozoic" 2009-04-24 2009-07-06 not in ABCD recommended The full name of the earliest possible geochronologic eon or lowest chrono-stratigraphic eonothem or the informal name ("Precambrian") attributable to the stratigraphic horizon from which the cataloged item was collected. Earliest Eon Or Lowest Eonothem Examples: "Holocene", "Pleistocene", "Ibexian Series" 2009-04-24 2009-07-06 not in ABCD recommended The full name of the earliest possible geochronologic epoch or lowest chronostratigraphic series attributable to the stratigraphic horizon from which the cataloged item was collected. Earliest Epoch Or Lowest Series Examples: "Cenozoic", "Mesozoic" 2009-04-24 2009-07-06 not in ABCD recommended The full name of the earliest possible geochronologic era or lowest chronostratigraphic erathem attributable to the stratigraphic horizon from which the cataloged item was collected. Earliest Era Or Lowest Erathem Examples: "Neogene", "Tertiary", "Quaternary" 2009-04-24 2009-07-06 not in ABCD recommended The full name of the earliest possible geochronologic period or lowest chronostratigraphic system attributable to the stratigraphic horizon from which the cataloged item was collected. Earliest Period Or Lowest System Examples: "1" (=1 Jan), "366" (=31 Dec), "365" (=30 Dec in a leap year, 31 Dec in a non-leap year) 2008-11-19 2009-04-24 DataSets/DataSet/Units/Unit/Gathering/DateTime/DayNumberEnd recommended The latest ordinal day of the year on which the Event occurred (1 for January 1, 365 for December 31, except in a leap year, in which case it is 366). End Day Of Year Examples: "native", "introduced", "naturalised", "invasive", "managed" 2008-11-19 2009-04-24 DataSets/DataSet/Units/Unit/Gathering/EstablishmentMeans recommended The process by which the biological individual(s) represented in the Occurrence became established at the location. Recommended best practice is to use a controlled vocabulary. Establishment Means Examples: "1963-03-08T14:07-0600" is 8 Mar 1963 2:07pm in the time zone six hours earlier than UTC, "2009-02-20T08:40Z" is 20 Feb 2009 8:40am UTC, "1809-02-12" is 12 Feb 1809, "1906-06" is Jun 1906, "1971" is just that year, "2007-03-01T13:00:00Z/2008-05-11T15:30:00Z" is the interval between 1 Mar 2007 1pm UTC and 11 May 2008 3:30pm UTC, "2007-11-13/15" is the interval between 13 Nov 2007 and 15 Nov 2007. 2009-04-24 2009-07-01 DataSets/DataSet/Units/Unit/Gathering/ISODateTimeBegin recommended The date-time or interval during which an Event occurred. For occurrences, this is the date-time when the event was recorded. Not suitable for a time in a geological context. Recommended best practice is to use an encoding scheme, such as ISO 8601:2004(E). Event Date Example: "after the recent rains the river is nearly at flood stage" 2009-01-18 2009-04-24 DataSets/DataSet/Units/Unit/Gathering/Notes recommended Comments or notes about the Event. Event Remarks Examples: "14:07-0600" is 2:07pm in the time zone six hours earlier than UTC, "08:40:21Z" is 8:40:21am UTC, "13:00:00Z/15:30:00Z" is the interval between 1pm UTC and 3:30pm UTC. 2009-04-24 2009-04-24 accessible from DataSets/DataSet/Units/Unit/Gathering/ISODateTimeBegin and DataSets/DataSet/Units/Unit/Gathering/ISODateTimeEnd recommended The time or interval during which an Event occurred. Recommended best practice is to use an encoding scheme, such as ISO 8601:2004(E). Event Time Examples: "Felidae", "Monocleaceae" 2008-11-19 2009-08-24 DataSets/DataSet/Units/Unit/Identifications/Identification/TaxonIdentified/HigherTaxa/HigherTaxon/HigherTaxonName with HigherTaxa/HigherTaxon/HigherTaxonRank = familia recommended The full scientific name of the family in which the taxon is classified. Family Example: "notes available in Grinnell-Miller Library" 2008-11-19 2009-04-24 DataSets/DataSet/Units/Unit/FieldNotes recommended One of a) an indicator of the existence of, b) a reference to (publication, URI), or c) the text of notes taken in the field about the Event. Field Notes Example: "RV Sol 87-03-08" 2008-11-19 2009-04-24 DataSets/DataSet/Units/Unit/Gathering/Code recommended An identifier given to the event in the field. Often serves as a link between field notes and the Event. Field Number Example: The WKT for the standard WGS84 SRS (EPSG:4326) is "GEOGCS["GCS_WGS_1984",DATUM["D_WGS_1984",SPHEROID["WGS_1984",6378137,298.257223563]],PRIMEM["Greenwich",0],UNIT["Degree",0.0174532925199433]]" without the enclosing quotes. 2009-07-06 2009-07-06 not in ABCD recommended A Well-Known Text (WKT) representation of the Spatial Reference System (SRS) for the footprintWKT of the Location. Do not use this term to describe the SRS of the decimalLatitude and decimalLongitude, even if it is the same as for the footprintWKT - use the geodeticDatum instead. Footprint SRS Detailed explanations with graphical examples can be found in the "Guide to Best Practices for Georeferencing", Chapman and Wieczorek, eds. 2006 (http://www.gbif.org/prog/digit/Georeferencing). 2008-11-19 2009-04-24 DataSets/DataSet/Units/Unit/Gathering/FootprintSpatialFit (ABCD v2.06b) recommended The ratio of the area of the footprint (footprintWKT) to the area of the true (original, or most specific) spatial representation of the Location. Legal values are 0, greater than or equal to 1, or undefined. A value of 1 is an exact match or 100% overlap. A value of 0 should be used if the given footprint does not completely contain the original representation. The footprintSpatialFit is undefined (and should be left blank) if the original representation is a point and the given is not that same point. If both the original and the given georeference are the same point, the footprintSpatialFit is 1. Footprint Spatial Fit Example: the one-degree bounding box with opposite corners at (longitude=10, latitude=20) and (longitude=11, latitude=21) would be expressed in well-known text as POLYGON ((10 20, 11 20, 11 21, 10 21, 10 20)) 2008-11-19 2009-04-24 DataSets/DataSet/Units/Unit/Gathering/FootprintWKT (ABCD v2.06b) recommended A Well-Known Text (WKT) representation of the shape (footprint, geometry) that defines the Location. A Location may have both a point-radius representation (see decimalLatitude) and a footprint representation, and they may differ from each other. Footprint WKT Examples: "Notch Peak Fromation", "House Limestone", "Fillmore Formation" 2009-04-24 2009-07-06 not in ABCD recommended The full name of the lithostratigraphic formation from which the cataloged item was collected. Formation Examples: "Puma", "Monoclea" 2008-11-19 2009-08-24 {DataSets/DataSet/Units/Unit/Identifications/Identification/TaxonIdentified/ScientificName/NameAtomised/Bacterial/GenusOrMonomial or DataSets/DataSet/Units/Unit/Identifications/Identification/TaxonIdentified/ScientificName/NameAtomised/Botanical/GenusOrMonomial or DataSets/DataSet/Units/Unit/Identifications/Identification/TaxonIdentified/ScientificName/NameAtomised/Viral/GenusOrMonomial or DataSets/DataSet/Units/Unit/Identifications/Identification/TaxonIdentified/ScientificName/NameAtomised/Zoological/GenusOrMonomial} recommended The full scientific name of the genus in which the taxon is classified. Genus Examples: "EPSG:4326", "WGS84", "NAD27", "Campo Inchauspe", "European 1950", "Clarke 1866" 2008-11-19 2009-07-06 DataSets/DataSet/Units/Unit/Gathering/SiteCoordinateSets/SiteCoordinates/CoordinatesLatLon/SpatialDatum recommended The ellipsoid, geodetic datum, or spatial reference system (SRS) upon which the geographic coordinates given in decimalLatitude and decimalLongitude as based. Recommended best practice is use the EPSG code as a controlled vocabulary to provide an SRS, if known. Otherwise use a controlled vocabulary for the name or code of the geodetic datum, if known. Otherwise use a controlled vocabulary for the name or code of the ellipsoid, if known. If none of these is known, use the value "unknown". Geodetic Datum Examples: "Guide to Best Practices for Georeferencing" (Chapman and Wieczorek, eds. 2006), Global Biodiversity Information Facility.", "MaNIS/HerpNet/ORNIS Georeferencing Guidelines", "Georeferencing Quick Reference Guide" 2008-11-19 2009-04-24 DataSets/DataSet/Units/Unit/Gathering/SiteCoordinateSets/SiteCoordinates/CoordinateMethod recommended A description or reference to the methods used to determine the spatial footprint, coordinates, and uncertainties. Georeference Protocol Example: "assumed distance by road (Hwy. 101)" 2008-11-19 2009-04-24 DataSets/DataSet/Units/Unit/Gathering/SiteCoordinateSets/SiteCoordinates/GeoreferenceRemarks recommended Notes or comments about the spatial description determination, explaining assumptions made in addition or opposition to the those formalized in the method referred to in georeferenceProtocol. Georeference Remarks Examples: "USGS 1:24000 Florence Montana Quad; Terrametrics 2008 on Google Earth" 2008-11-19 2009-04-24 DataSets/DataSet/Units/Unit/Gathering/SiteCoordinateSets/SiteCoordinates/GeoreferenceSources recommended A list (concatenated and separated) of maps, gazetteers, or other resources used to georeference the Location, described specifically enough to allow anyone in the future to use the same resources. Georeference Sources Examples: "requires verification", "verified by collector", "verified by curator". 2008-11-19 2009-04-24 DataSets/DataSet/Units/Unit/Gathering/SiteCoordinateSets/SiteCoordinates/GeoreferenceVerificationStatus recommended A categorical description of the extent to which the georeference has been verified to represent the best possible spatial description. Recommended best practice is to use a controlled vocabulary. Georeference Verification Status Examples: "Kristina Yamamoto (MVZ); Janet Fang (MVZ)", "Brad Millen (ROM)" 2009-01-21 2009-04-24 not in ABCD recommended A list (concatenated and separated) of names of people, groups, or organizations who determined the georeference (spatial representation) for the Location. Georeferenced By Examples: "1963-03-08T14:07-0600" is 8 Mar 1963 2:07pm in the time zone six hours earlier than UTC, "2009-02-20T08:40Z" is 20 Feb 2009 8:40am UTC, "1809-02-12" is 12 Feb 1809, "1906-06" is Jun 1906, "1971" is just that year, "2007-03-01T13:00:00Z/2008-05-11T15:30:00Z" is the interval between 1 Mar 2007 1pm UTC and 11 May 2008 3:30pm UTC, "2007-11-13/15" is the interval between 13 Nov 2007 and 15 Nov 2007. 2011-10-16 2011-10-16 not in ABCD recommended The date on which the Location was georeferenced. Recommended best practice is to use an encoding scheme, such as ISO 8601:2004(E). Georeferenced Date 2009-04-24 2009-07-06 not in ABCD recommended The full name of the lithostratigraphic group from which the cataloged item was collected. Group Examples: "oak savanna", "pre-cordilleran steppe" 2008-11-19 2009-05-17 DataSets/DataSet/Units/Unit/Gathering/Biotope/Text recommended A category or description of the habitat in which the Event occurred. Habitat Example: "Animalia;Chordata;Vertebrata;Mammalia;Theria;Eutheria;Rodentia;Hystricognatha;Hystricognathi;Ctenomyidae;Ctenomyini;Ctenomys" 2008-11-19 2009-08-24 not in ABCD recommended A list (concatenated and separated) of taxa names terminating at the rank immediately superior to the taxon referenced in the taxon record. Recommended best practice is to order the list starting with the highest rank and separating the names for each rank with a semi-colon (";"). Higher Classification Example: "South America; Argentina; Patagonia; Parque Nacional Nahuel Huapi; Neuquén; Los Lagos" with accompanying values "South America" in Continent, "Argentina" in Country, "Neuquén" in StateProvince, and Los Lagos in County. 2008-11-19 2009-04-24 {DataSets/DataSet/Units/Unit/Gathering/LocalityText or DataSets/DataSet/Units/Unit/Gathering/NamedAreas/NamedArea/AreaName} recommended A list (concatenated and separated) of geographic names less specific than the information captured in the locality term. Higher Geography 2009-04-24 2009-07-06 not in ABCD recommended The full name of the highest possible geological biostratigraphic zone of the stratigraphic horizon from which the cataloged item was collected. Highest Biostratigraphic Zone Examples: 1) For the determination "Quercus aff. agrifolia var. oxyadenia", identificationQualifier would be "aff. agrifolia var. oxyadenia" with accompanying values "Quercus" in genus, "agrifolia" in specificEpithet, "oxyadenia" in infraspecificEpithet, and "var." in rank. 2) For the determination "Quercus agrifolia cf. var. oxyadenia", identificationQualifier would be "cf. var. oxyadenia " with accompanying values "Quercus" in genus, "agrifolia" in specificEpithet, "oxyadenia" in infraspecificEpithet, and "var." in rank. 2008-11-19 2009-04-24 DataSets/DataSet/Units/Unit/Identifications/Identification/TaxonIdentified/IdentificationQualifier recommended A brief phrase or a standard term ("cf.", "aff.") to express the determiner's doubts about the Identification. Identification Qualifier Example: "Aves del Noroeste Patagonico. Christie et al. 2004." 2008-11-19 2009-04-24 DataSets/DataSet/Units/Unit/Identifications/Identification/References recommended A list (concatenated and separated) of references (publication, global unique identifier, URI) used in the Identification. Identification References Example: "Distinguished between Anthus correndera and Anthus hellmayri based on the comparative lengths of the uñas." 2008-11-19 2009-04-24 DataSets/DataSet/Units/Unit/Identifications/Identification/Notes recommended Comments or notes about the Identification. Identification Remarks Examples: "0", "4" 2011-10-16 2011-10-16 not in ABCD recommended A categorical indicator of the extent to which the taxonomic identification has been verified to be correct. Recommended best practice is to use a controlled vocabulary such as that used in HISPID/ABCD. Identification Verification Status Examples: "James L. Patton", "Theodore Pappenfuss; Robert Macey" 2008-11-19 2009-08-24 DataSets/DataSet/Units/Unit/Identifications/Identification/Identifiers/IdentifiersText recommended A list (concatenated and separated) of names of people, groups, or organizations who assigned the Taxon to the subject. Identified By Examples: "1", "25" 2008-11-19 2009-04-24 DataSets/DataSet/Units/Unit/Gathering/SiteMeasurementsOrFacts/SiteMeasurementOrFact/MeasurementOrFactAtomised/LowerValue recommended The number of individuals represented present at the time of the Occurrence. Individual Count Examples: "location information not given for endangered species", "collector identities withheld", "ask about tissue samples" 2008-11-19 2009-04-24 DataSets/DataSet/Units/Unit/InformationWithheld recommended Additional information that exists, but that has not been shared in the given record. Information Withheld Examples: "concolor", "oxyadenia", "sayi" 2008-11-19 2009-08-24 {DataSets/DataSet/Units/Unit/Identifications/Identification/TaxonIdentified/ScientificName/NameAtomised/Bacterial/SubspeciesEpithet or DataSets/DataSet/Units/Unit/Identifications/Identification/TaxonIdentified/ScientificName/NameAtomised/Botanical/SecondEpithet or DataSets/DataSet/Units/Unit/Identifications/Identification/TaxonIdentified/ScientificName/NameAtomised/Zoological/SubspeciesEpithet} recommended The name of the lowest or terminal infraspecific epithet of the scientificName, excluding any rank designation. Infraspecific Epithet Examples: "MVZ", "FMNH", "AKN-CLO", "University of California Museum of Paleontology (UCMP)" 2008-11-19 2013-10-04 DataSets/DataSet/Units/Unit/SourceInstitutionID recommended The name (or acronym) in use by the institution having custody of the object(s) or information referred to in the record. Institution Code 2009-09-11 2013-10-04 DataSets/DataSet/Units/Unit/SourceInstitutionID recommended An identifier for the institution having custody of the object(s) or information referred to in the record. Institution ID Examples: "Isla Victoria", "Vancouver", "Viti Levu", "Zanzibar" 2008-11-19 2009-04-24 DataSets/DataSet/Units/Unit/Gathering/NamedAreas/NamedArea/AreaName with NamedAreas/NamedArea/AreaClass= Island recommended The name of the island on or near which the Location occurs. Recommended best practice is to use a controlled vocabulary such as the Getty Thesaurus of Geographic Names. Island Examples: "Alexander Archipelago", "Seychelles" 2008-11-19 2009-04-24 DataSets/DataSet/Units/Unit/Gathering/NamedAreas/NamedArea/AreaName with NamedAreas/NamedArea/AreaClass= Island group recommended The name of the island group in which the Location occurs. Recommended best practice is to use a controlled vocabulary such as the Getty Thesaurus of Geographic Names. Island Group Examples: "Animalia", "Plantae" 2008-11-19 2009-08-24 DataSets/DataSet/Units/Unit/Identifications/Identification/TaxonIdentified/HigherTaxa/HigherTaxon/HigherTaxonName with HigherTaxa/HigherTaxon/HigherTaxonRank = regnum recommended The full scientific name of the kingdom in which the taxon is classified. Kingdom Examples: "Atlantic", "Boreal", "Skullrockian" 2009-04-24 2009-07-06 not in ABCD recommended The full name of the latest possible geochronologic age or highest chronostratigraphic stage attributable to the stratigraphic horizon from which the cataloged item was collected. Latest AgeOr Highest Stage Examples: "Phanerozoic", "Proterozoic" 2009-04-24 2009-07-06 not in ABCD recommended The full name of the latest possible geochronologic eon or highest chrono-stratigraphic eonothem or the informal name ("Precambrian") attributable to the stratigraphic horizon from which the cataloged item was collected. Latest Eon Or Highest Eonothem Examples: "Holocene", "Pleistocene", "Ibexian Series" 2009-04-24 2009-07-06 not in ABCD recommended The full name of the latest possible geochronologic epoch or highest chronostratigraphic series attributable to the stratigraphic horizon from which the cataloged item was collected. Latest Epoch Or Highest Series Examples: "Cenozoic", "Mesozoic" 2009-04-24 2009-07-06 not in ABCD recommended The full name of the latest possible geochronologic era or highest chronostratigraphic erathem attributable to the stratigraphic horizon from which the cataloged item was collected. Latest Era Or Highest Erathem Examples: "Neogene", "Tertiary", "Quaternary" 2009-04-24 2009-07-06 not in ABCD recommended The full name of the latest possible geochronologic period or highest chronostratigraphic system attributable to the stratigraphic horizon from which the cataloged item was collected. Latest Period Or Highest System Examples: "egg", "eft", "juvenile", "adult", "2 adults 4 juveniles" 2008-11-19 2009-04-24 DataSets/DataSet/Units/Unit/MycologicalUnit/MycologicalSexualStage or DataSets/DataSet/Units/Unit/MycologicalUnit/MycologicalLiveStages/MycologicalLiveStage (Note DwC spec uses ”MycologicalLifeStage” or DataSets/DataSet/Units/Unit/ZoologicalUnit/PhasesOrStages/PhaseOrStage recommended The age class or life stage of the biological individual(s) at the time the Occurrence was recorded. Recommended best practice is to use a controlled vocabulary. Life Stage 2009-04-24 2009-07-06 DataSets/DataSet/Units/Unit/Gathering/Stratigraphy/LithostratigraphicTerms recommended The combination of all litho-stratigraphic names for the rock from which the cataloged item was collected. Lithostratigraphic Terms Example: "Bariloche, 25 km NNE via Ruta Nacional 40 (=Ruta 237)" 2008-11-19 2009-04-24 DataSets/DataSet/Units/Unit/Gathering/NamedAreas/NamedArea/AreaName recommended The specific description of the place. Less specific geographic information can be provided in other geographic terms (higherGeography, continent, country, stateProvince, county, municipality, waterBody, island, islandGroup). This term may contain information modified from the original to correct perceived errors or standardize the description. Locality Examples: "Getty Thesaurus of Geographic Names", "GADM" 2009-08-24 2009-08-24 not in ABCD recommended Information about the source of this Location information. Could be a publication (gazetteer), institution, or team of individuals. Location According To Example: "under water since 2005" 2009-01-18 2009-04-24 DataSets/DataSet/Units/Unit/Gathering/AreaDetail recommended Comments or notes about the Location. Location Remarks 2009-04-24 2009-07-06 not in ABCD recommended The full name of the lowest possible geological biostratigraphic zone of the stratigraphic horizon from which the cataloged item was collected. Lowest Biostratigraphic Zone Example: "200" 2008-11-19 2009-04-24 DataSets/DataSet/Units/Unit/Gathering/Depth/MeasurementOrFactAtomised/UpperValue recommended The greater depth of a range of depth below the local surface, in meters. Maximum Depth In Meters Example: 1.5 meter sediment core from the bottom of a lake (at depth 20m) at 300m elevation; VerbatimElevation: "300m" MinimumElevationInMeters: "300", MaximumElevationInMeters: "300", VerbatimDepth: "20m", MinimumDepthInMeters: "20", MaximumDepthInMeters: "20", minimumDistanceAboveSurfaceInMeters: "0", maximumDistanceAboveSurfaceInMeters: "-1.5" 2008-11-19 2009-04-24 DataSets/DataSet/Units/Unit/Gathering/Height/MeasurementOrFactAtomised/UpperValue recommended The greater distance in a range of distance from a reference surface in the vertical direction, in meters. Use positive values for locations above the surface, negative values for locations below. If depth measures are given, the reference surface is the location given by the depth, otherwise the reference surface is the location given by the elevation. Maximum Distance Above Surface In Meters Example: "200" 2008-11-19 2009-04-24 DataSets/DataSet/Units/Unit/Gathering/Altitude/MeasurementOrFactAtomised/UpperValue recommended The upper limit of the range of elevation (altitude, usually above sea level), in meters. Maximum Elevation In Meters Examples: "0.01", "normal distribution with variation of 2 m" 2009-01-18 2009-04-24 DataSets/DataSet/Units/Unit/MeasurementsOrFacts/MeasurementOrFact/MeasurementOrFactAtomised/Accuracy or DataSet/Units/Unit/Gathering/SiteMeasurementsOrFacts/SiteMeasurementOrFact/MeasurementOrFactAtomised/Accuracy or DataSets/DataSet/Units/Unit/Gathering/Aspect/Accuracy or DataSets/DataSet/Units/Unit/Gathering/Altitude/MeasurementOrFactAtomised/Accuracy or DataSets/DataSet/Units/Unit/Gathering/Depth/MeasurementOrFactAtomised/Accuracy or DataSets/DataSet/Units/Unit/Gathering/Biotope/MeasurementsOrFacts/MeasurementOrFactAtomised/Accuracy or DataSets/DataSet/Units/Unit/MeasurementsOrFacts/MeasurementOrFact/MeasurementOrFactAtomised/Accuracy recommended The description of the potential error associated with the measurementValue. Measurement Accuracy Examples: "Javier de la Torre", "Julie Woodruff; Eileen Lacey" 2009-01-23 2009-04-24 DataSets/DataSet/Units/Unit/MeasurementsOrFacts/MeasurementOrFact/MeasurementOrFactAtomised/MeasuredBy or DataSets/DataSet/Units/Unit/Gathering/Altitude/MeasurementOrFactAtomised/MeasuredBy or DataSets/DataSet/Units/Unit/Gathering/Depth/MeasurementOrFactAtomised/MeasuredBy or DataSets/DataSet/Units/Unit/Gathering/Height/MeasurementOrFactAtomised/MeasuredBy or DataSets/DataSet/Units/Unit/Gathering/SiteMeasurementsOrFacts/SiteMeasurementOrFact/MeasurementOrFactAtomised/MeasuredBy or DataSets/DataSet/Units/Unit/Gathering/Biotope/MeasurementsOrFacts/MeasurementOrFactAtomised/MeasuredBy recommended A list (concatenated and separated) of names of people, groups, or organizations who determined the value of the MeasurementOrFact. Measurement Determined By Examples: "1963-03-08T14:07-0600" is 8 Mar 1963 2:07pm in the time zone six hours earlier than UTC, "2009-02-20T08:40Z" is 20 Feb 2009 8:40am UTC, "1809-02-12" is 12 Feb 1809, "1906-06" is Jun 1906, "1971" is just that year, "2007-03-01T13:00:00Z/2008-05-11T15:30:00Z" is the interval between 1 Mar 2007 1pm UTC and 11 May 2008 3:30pm UTC, "2007-11-13/15" is the interval between 13 Nov 2007 and 15 Nov 2007. 2009-01-23 2009-04-24 DataSets/DataSet/Units/Unit/MeasurementsOrFacts/MeasurementOrFact/MeasurementOrFactAtomised/MeasurementDateTime or DataSets/DataSet/Units/Unit/Gathering/Altitude/MeasurementOrFactAtomised/MeasurementDateTime or DataSets/DataSet/Units/Unit/Gathering/Depth/MeasurementOrFactAtomised/MeasurementDateTime or DataSets/DataSet/Units/Unit/Gathering/Height/MeasurementOrFactAtomised/MeasurementDateTime or DataSets/DataSet/Units/Unit/Gathering/SiteMeasurementsOrFacts/SiteMeasurementOrFact/MeasurementOrFactAtomised/MeasurementDateTime or DataSets/DataSet/Units/Unit/Gathering/Biotope/MeasurementsOrFacts/MeasurementOrFactAtomised/MeasurementDateTime recommended The date on which the MeasurementOrFact was made. Recommended best practice is to use an encoding scheme, such as ISO 8601:2004(E). Measurement Determined Date Examples: "minimum convex polygon around burrow entrances" for a home range area, "barometric altimeter" for an elevation 2008-11-19 2009-04-24 /DataSets/DataSet/Units/Unit/MeasurementsOrFacts/MeasurementOrFact/MeasurementOrFactAtomised/Method or /DataSets/DataSet/Units/Unit/Gathering/Biotope/MeasurementsOrFacts/MeasurementOrFactAtomised/Method or /DataSets/DataSet/Units/Unit/Gathering/SiteMeasurementsOrFacts/SiteMeasurementOrFact/MeasurementOrFactAtomised/Method recommended A description of or reference to (publication, URI) the method or protocol used to determine the measurement, fact, characteristic, or assertion. Measurement Method Example: "tip of tail missing" 2008-11-19 2009-04-24 not in ABCD recommended Comments or notes accompanying the MeasurementOrFact. Measurement Remarks Examples: "tail length", "temperature", "trap line length", "survey area", "trap type" 2008-11-19 2009-04-24 DataSets/DataSet/Units/Unit/MeasurementsOrFacts/MeasurementOrFact/MeasurementOrFactAtomised/Parameter or DataSets/DataSet/Units/Unit/Gathering/SiteMeasurementsOrFacts/MeasurementOrFact/MeasurementOrFactAtomised/Parameter recommended The nature of the measurement, fact, characteristic, or assertion. Recommended best practice is to use a controlled vocabulary. Measurement Type Examples: "mm", "C", "km", "ha" 2008-11-19 2009-04-24 DataSets/DataSet/Units/Unit/Gathering/SiteMeasurementsOrFacts/MeasurementOrFact/MeasurementOrFactAtomised/UnitOfMeasurement or DataSets/DataSet/Units/Unit/Gathering/SiteMeasurementsOrFacts/MeasurementOrFact/MeasurementOrFactAtomised/UnitOfMeasurement recommended The units associated with the measurementValue. Recommended best practice is to use the International System of Units (SI). Measurement Unit Examples: "45", "20", "1", "14.5", "UV-light" 2008-11-19 2009-04-24 DataSets/DataSet/Units/Unit/MeasurementsOrFacts/MeasurementOrFact/MeasurementOrFactAtomised/LowerValue or DataSets/DataSet/Units/Unit/MeasurementsOrFacts/MeasurementOrFact/MeasurementOrFactAtomised/UpperValue or DataSets/DataSet/Units/Unit/Gathering/SiteMeasurementsOrFacts/SiteMeasurementOrFact/MeasurementOrFactAtomised/LowerValue or DataSets/DataSet/Units/Unit/Gathering/SiteMeasurementsOrFacts/SiteMeasurementOrFact/MeasurementOrFactAtomised/UpperValue or DataSets/DataSet/Units/Unit/Gathering/Altitude/MeasurementOrFactAtomised/LowerValue or DataSets/DataSet/Units/Unit/Gathering/Altitude/MeasurementOrFactAtomised/UpperValue or DataSets/DataSet/Units/Unit/Gathering/Depth/MeasurementOrFactAtomised/LowerValue or DataSets/DataSet/Units/Unit/Gathering/Depth/MeasurementOrFactAtomised/UpperValue or DataSets/DataSet/Units/Unit/Gathering/Biotope/MeasurementsOrFacts/MeasurementOrFactAtomised/LowerValue or DataSets/DataSet/Units/Unit/Gathering/Biotope/MeasurementsOrFacts/MeasurementOrFactAtomised/UpperValue or DataSets/DataSet/Units/Unit/Gathering/Height/MeasurementOrFactAtomised/LowerValue or DataSets/DataSet/Units/Unit/Gathering/Height/MeasurementOrFactAtomised/UpperValue recommended The value of the measurement, fact, characteristic, or assertion. Measurement Value Examples: "Lava Dam Member", "Hellnmaria Member" 2009-04-24 2009-07-06 not in ABCD recommended The full name of the lithostratigraphic member from which the cataloged item was collected. Member Example: "100" 2008-11-19 2009-04-24 DataSets/DataSet/Units/Unit/Gathering/Depth/MeasurementOrFactAtomised/LowerValue recommended The lesser depth of a range of depth below the local surface, in meters. Minimum Depth In Meters Example: 1.5 meter sediment core from the bottom of a lake (at depth 20m) at 300m elevation; VerbatimElevation: "300m" MinimumElevationInMeters: "300", MaximumElevationInMeters: "300", VerbatimDepth: "20m", MinimumDepthInMeters: "20", MaximumDepthInMeters: "20", minimumDistanceAboveSurfaceInMeters: "0", maximumDistanceAboveSurfaceInMeters: "-1.5" 2008-11-19 2009-04-24 DataSets/DataSet/Units/Unit/Gathering/Height/MeasurementOrFactAtomised/LowerValue recommended The lesser distance in a range of distance from a reference surface in the vertical direction, in meters. Use positive values for locations above the surface, negative values for locations below. If depth measures are given, the reference surface is the location given by the depth, otherwise the reference surface is the location given by the elevation. Minimum Distance Above Surface In Meters Example: "100" 2008-11-19 2009-04-24 DataSets/DataSet/Units/Unit/Gathering/Altitude/MeasurementOrFactAtomised/LowerValue recommended The lower limit of the range of elevation (altitude, usually above sea level), in meters. Minimum Elevation In Meters Examples: "1" (=January), "10" (=October) 2008-11-19 2009-04-24 accessible from DataSets/DataSet/Units/Unit/Gathering/ISODateTimeBegin recommended The ordinal month in which the Event occurred. Month Examples: "Holzminden" 2008-11-19 2009-08-24 DataSets/DataSet/Units/Unit/Gathering/NamedAreas/NamedArea/AreaName recommended The full, unabbreviated name of the next smaller administrative region than county (city, municipality, etc.) in which the Location occurs. Do not use this term for a nearby named place that does not contain the actual location. Municipality Example: "McCranie, J. R., D. B. Wake, and L. D. Wilson. 1996. The taxonomic status of Bolitoglossa schmidti, with comments on the biology of the Mesoamerican salamander Bolitoglossa dofleini (Caudata: Plethodontidae). Carib. J. Sci. 32:395-398.", "Werner Greuter 2008", "Lilljeborg 1861, Upsala Univ. Arsskrift, Math. Naturvet., pp. 4, 5" 2008-11-19 2009-09-21 not in ABCD recommended The reference to the source in which the specific taxon concept circumscription is defined or implied - traditionally signified by the Latin "sensu" or "sec." (from secundum, meaning "according to"). For taxa that result from identifications, a reference to the keys, monographs, experts and other sources should be given. Name According To Examples: "Pearson O. P., and M. I. Christie. 1985. Historia Natural, 5(37):388", "Forel, Auguste, Diagnosies provisoires de quelques espèces nouvelles de fourmis de Madagascar, récoltées par M. Grandidier., Annales de la Societe Entomologique de Belgique, Comptes-rendus des Seances 30, 1886" 2008-11-19 2009-09-21 DataSets/DataSet/Units/Unit/SpecimenUnit/NomenclaturalTypeDesignations/NomenclaturalTypeDesignation/NomenclaturalReference/TitleCitation recommended A reference for the publication in which the scientificName was originally established under the rules of the associated nomenclaturalCode. Name Published In Examples: "1915", "2008" 2011-10-16 2011-10-16 not in ABCD recommended The four-digit year in which the scientificName was published. Name Published In Year Examples: "ICBN", "ICZN", "BC", "ICNCP", "BioCode", "ICZN; ICBN" 2008-11-19 2009-09-21 DataSets/DataSet/Units/Unit/Identifications/Identification/TaxonIdentified/Code recommended The nomenclatural code (or codes in the case of an ambiregnal name) under which the scientificName is constructed. Recommended best practice is to use a controlled vocabulary. Nomenclatural Code Examples: "nom. ambig.", "nom. illeg.", "nom. subnud." 2009-01-18 2009-04-24 (DataSets/DataSet/Units/Unit/SpecimenUnit/NomenclaturalTypeDesignations/NomenclaturalTypeDesignation/NomenclaturalReference/TitleCitation) pro parte recommended The status related to the original publication of the name and its conformance to the relevant rules of nomenclature. It is based essentially on an algorithm according to the business rules of the code. It requires no taxonomic opinion. Nomenclatural Status Example: "found dead on road" 2008-11-19 2009-04-24 DataSets/DataSet/Units/Unit/Notes recommended Comments or notes about the Occurrence. Occurrence Remarks Examples: "present", "absent" 2009-09-17 2009-09-17 not in ABCD recommended A statement about the presence or absence of a Taxon at a Location. Recommended best practice is to use a controlled vocabulary. Occurrence Status Examples: "Carnivora", "Monocleales" 2008-11-19 2009-08-24 DataSets/DataSet/Units/Unit/Identifications/Identification/TaxonIdentified/HigherTaxa/HigherTaxon/HigherTaxonName with HigherTaxa/HigherTaxon/HigherTaxonRank = ordo recommended The full scientific name of the order in which the taxon is classified. Order Examples: "Huberta", "Boab Prison Tree", "J pod". 2014-10-23 2014-10-23 not in ABCD recommended A description of the kind of Organism instance. Can be used to indicate whether the Organism instance represents a discrete organism or if it represents a particular type of aggregation. Recommended best practice is to use a controlled vocabulary. Organism Name An organismQuantity must have a corresponding organismQuantityType, e.g., "27" for organismQuantity with "individuals" for organismQuantityType; "12.5" for organismQuantity with "%biomass" for organismQuantityType; "r" for organismQuantity with "BraunBlanquetScale" for organismQuantityType. 2014-11-07 2015-03-19 not in ABCD recommended A number or enumeration value for the quantity of organisms. Organism Quantity An organismQuantityType must have a corresponding organismQuantity, e.g., "27" for organismQuantity with "individuals" for organismQuantityType; "12.5" for organismQuantity with "%biomass" for organismQuantityType; "r" for organismQuantity with "BraunBlanquetScale" for organismQuantityType. 2014-11-07 2015-03-19 not in ABCD recommended The type of quantification system used for the quantity of organisms. Organism Quantity Type Example: "One of a litter of six." 2014-10-23 2014-10-23 not in ABCD recommended Comments or notes about the Organism instance. Organism Remarks This term is not intended to be used to specify a type of taxon. To describe the kind of Organism using a URI object in RDF, use rdf:type (http://www.w3.org/1999/02/22-rdf-syntax-ns#type) instead. Examples: "multicellular organism", "virus", "clone" "pack", "colony". 2014-10-23 2014-10-23 not in ABCD recommended A textual name or label assigned to an Organism instance. Organism Scope Examples: "Pinus abies", "Gasterosteus saltatrix Linnaeus 1768" 2008-11-19 2009-09-21 not in ABCD recommended The taxon name, with authorship and date information if known, as it originally appeared when first established under the rules of the associated nomenclaturalCode. The basionym (botany) or basonym (bacteriology) of the scientificName or the senior/earlier homonym for replaced names. Original Name Usage Examples: "FMNH:Mammal:1234", "NPS YELLO6778; MBG 33424" 2008-11-19 2009-04-24 DataSets/DataSet/Units/Unit/SpecimenUnit/History/PreviousUnitsText recommended A list (concatenated and separated) of previous or alternate fully qualified catalog numbers or other human-used identifiers for the same Occurrence, whether in the current or any other data set or collection. Other Catalog Numbers Examples: "NPS", "APN", "InBio" 2009-08-24 2013-10-04 not in ABCD recommended The name (or acronym) in use by the institution having ownership of the object(s) or information referred to in the record. Owner Institution Code Examples: "Rubiaceae", "Gruiformes", "Testudinae" 2009-08-24 2009-09-21 DataSets/DataSet/Units/Unit/Identifications/Identification/TaxonIdentified/HigherTaxa/HigherTaxon/HigherTaxonName recommended The full name, with authorship and date information if known, of the direct, most proximate higher-rank parent taxon (in a classification) of the most specific element of the scientificName. Parent Name Usage Examples: "Chordata" (phylum), "Bryophyta" (division) 2008-11-19 2009-08-24 DataSets/DataSet/Units/Unit/Identifications/Identification/TaxonIdentified/HigherTaxa/HigherTaxon/HigherTaxonName with HigherTaxa/HigherTaxon/HigherTaxonRank = phylum recommended The full scientific name of the phylum or division in which the taxon is classified. Phylum Detailed explanations with graphical examples can be found in the "Guide to Best Practices for Georeferencing", Chapman and Wieczorek, eds. 2006 (http://www.gbif.org/prog/digit/Georeferencing). 2008-11-19 2009-04-24 DataSets/DataSet/Units/Unit/Gathering/SiteCoordinateSets/SiteCoordinates/PointRadiusSpatialFit recommended The ratio of the area of the point-radius (decimalLatitude, decimalLongitude, coordinateUncertaintyInMeters) to the area of the true (original, or most specific) spatial representation of the Location. Legal values are 0, greater than or equal to 1, or undefined. A value of 1 is an exact match or 100% overlap. A value of 0 should be used if the given point-radius does not completely contain the original representation. The pointRadiusSpatialFit is undefined (and should be left blank) if the original representation is a point without uncertainty and the given georeference is not that same point (without uncertainty). If both the original and the given georeference are the same point, the pointRadiusSpatialFit is 1. Point Radius Spatial Fit Examples: "skin; skull; skeleton", "whole animal (ETOH); tissue (EDTA)", "fossil", "cast", "photograph", "DNA extract" 2008-11-19 2009-04-24 DataSets/DataSet/Units/Unit/SpecimenUnit/Preparations/PreparationsText recommended A list (concatenated and separated) of preparations and preservation methods for a specimen. Preparations Example: "Anthus sp., field ID by G. Iglesias; Anthus correndera, expert ID by C. Cicero 2009-02-12 based on morphology" 2008-11-19 2009-05-18 DataSets/DataSet/Units/Unit/Identifications/Identification with PreferredFlag = false recommended A list (concatenated and separated) of previous assignments of names to the Occurrence. Previous Identifications Example: "OPP 7101" 2008-11-19 2009-05-18 DataSets/DataSet/Units/Unit/CollectorsFieldNumber recommended An identifier given to the Occurrence at the time it was recorded. Often serves as a link between field notes and an Occurrence record, such as a specimen collector's number. Record Number Example: "Oliver P. Pearson; Anita K. Pearson" where the value in recordNumber "OPP 7101" corresponds to the number for the specimen in the field catalog (collector number) of Oliver P. Pearson. 2008-11-19 2009-05-18 DataSets/DataSet/Units/Unit/Gathering/GatheringAgents/GatheringAgentsText recommended A list (concatenated and separated) of names of people, groups, or organizations responsible for recording the original Occurrence. The primary collector or observer, especially one who applies a personal identifier (recordNumber), should be listed first. Recorded By Example: "Julie Woodruff" 2009-04-24 2009-04-24 not in ABCD recommended The source (person, organization, publication, reference) establishing the relationship between the two resources. Relationship According To Examples: "1963-03-08T14:07-0600" is 8 Mar 1963 2:07pm in the time zone six hours earlier than UTC, "2009-02-20T08:40Z" is 20 Feb 2009 8:40am UTC, "1809-02-12" is 12 Feb 1809, "1906-06" is Jun 1906, "1971" is just that year, "2007-03-01T13:00:00Z/2008-05-11T15:30:00Z" is the interval between 1 Mar 2007 1pm UTC and 11 May 2008 3:30pm UTC, "2007-11-13/15" is the interval between 13 Nov 2007 and 15 Nov 2007. 2009-04-24 2009-04-24 not in ABCD recommended The date-time on which the relationship between the two resources was established. Recommended best practice is to use an encoding scheme, such as ISO 8601:2004(E). Relationship Established Date Examples: "duplicate of", "mother of", "endoparasite of", "host to", "sibling of", "valid synonym of", "located within" 2008-11-19 2009-04-24 DataSets/DataSet/Units/Unit/Associations/UnitAssociation/AssociationType recommended The relationship of the resource identified by relatedResourceID to the subject (optionally identified by the resourceID). Recommended best practice is to use a controlled vocabulary. Relationship Of Resource Examples: "mother and offspring collected from the same nest", "pollinator captured in the act" 2008-11-19 2009-04-24 DataSets/DataSet/Units/Unit/Associations/UnitAssociation/Comments recommended Comments or notes about the relationship between the two resources. Relationship Remarks Examples" "non-reproductive", "pregnant", "in bloom", "fruit-bearing" 2008-11-19 2009-04-24 not in ABCD recommended The reproductive condition of the biological individual(s) represented in the Occurrence. Recommended best practice is to use a controlled vocabulary. Reproductive Condition A sampleSizeUnit must have a corresponding sampleSizeValue, e.g., "5" for sampleSizeValue with "metre" for sampleSizeUnit. Examples: "minute", "hour", "day", "metre", "square metre", "cubic metre". Recommended best practice is to use a controlled vocabulary such as the Ontology of Units of Measure http://www.wurvoc.org/vocabularies/om-1.8/ of SI units, derived units, or other non-SI units accepted for use within the SI (e.g., minute, hour, day, litre). 2014-11-07 2015-03-19 not in ABCD recommended The unit of measurement of the size (time duration, length, area, or volume) of a sample in a sampling event. Sample Size Unit A sampleSizeValue must have a corresponding sampleSizeUnit. Example: "5" for sampleSizeValue with "metre" for sampleSizeUnit. 2014-11-07 2015-03-19 not in ABCD recommended A numeric value for a measurement of the size (time duration, length, area, or volume) of a sample in a sampling event. Sample Size Value Examples: "40 trap-nights", "10 observer-hours; 10 km by foot; 30 km by car" 2009-08-24 2009-08-24 not in ABCD recommended The amount of effort expended during an Event. Sampling Effort Examples: "UV light trap", "mist net", "bottom trawl", "ad hoc observation", "point count", "Penguins from space: faecal stains reveal the location of emperor penguin colonies, http://dx.doi.org/10.1111/j.1466-8238.2009.00467.x", "Takats et al. 2001. Guidelines for Nocturnal Owl Monitoring in North America. Beaverhill Bird Observatory and Bird Studies Canada, Edmonton, Alberta. 32 pp.", "http://www.bsc-eoc.org/download/Owl.pdf" 2008-11-19 2009-04-24 DataSets/DataSet/Units/Unit/Gathering/Method recommended The name of, reference to, or description of the method or protocol used during an Event. Sampling Protocol Examples: "Coleoptera" (order), "Vespertilionidae" (family), "Manis" (genus), "Ctenomys sociabilis" (genus + specificEpithet), "Ambystoma tigrinum diaboli" (genus + specificEpithet + infraspecificEpithet), "Roptrocerus typographi (Györfi, 1952)" (genus + specificEpithet + scientificNameAuthorship), "Quercus agrifolia var. oxyadenia (Torr.) J.T. Howell" (genus + specificEpithet + taxonRank + infraspecificEpithet + scientificNameAuthorship) 2008-11-19 2009-09-21 DataSets/DataSet/Units/Unit/Identifications/Identification/TaxonIdentified/ScientificName/FullScientificNameString recommended The full scientific name, with authorship and date information if known. When forming part of an Identification, this should be the name in lowest level taxonomic rank that can be determined. This term should not contain identification qualifications, which should instead be supplied in the IdentificationQualifier term. Scientific Name Example: "(Torr.) J.T. Howell", "(Martinovský) Tzvelev", "(Györfi, 1952)" 2008-11-19 2009-04-24 {DataSets/DataSet/Units/Unit/Identifications/Identification/TaxonIdentified/ScientificName/NameAtomised/Bacterial/ParentheticalAuthorTeamAndYear + DataSets/DataSet/Units/Unit/Identifications/Identification/TaxonIdentified/ScientificName/NameAtomised/Bacterial/AuthorTeamAndYear} or {DataSets/DataSet/Units/Unit/Identifications/Identification/TaxonIdentified/ScientificName/NameAtomised/Botanical/AuthorTeamParenthesis + DataSets/DataSet/Units/Unit/Identifications/Identification/TaxonIdentified/ScientificName/NameAtomised/Botanical/AuthorTeam} or {DataSets/DataSet/Units/Unit/Identifications/Identification/TaxonIdentified/ScientificName/NameAtomised/Zoological/AuthorTeamOriginalAndYear + [= or] DataSets/DataSet/Units/Unit/Identifications/Identification/TaxonIdentified/ScientificName/NameAtomised/Zoological/AuthorTeamParenthesisAndYear} recommended The authorship information for the scientificName formatted according to the conventions of the applicable nomenclaturalCode. Scientific Name Authorship Examples: "female", "hermaphrodite", "8 males, 4 females" 2008-11-19 2009-04-24 DataSets/DataSet/Units/Unit/Sex recommended The sex of the biological individual(s) represented in the Occurrence. Recommended best practice is to use a controlled vocabulary. Sex Examples: "concolor", "gottschei" 2008-11-19 2009-04-24 {DataSets/DataSet/Units/Unit/Identifications/Identification/TaxonIdentified/ScientificName/NameAtomised/Bacterial/SpeciesEpithet or DataSets/DataSet/Units/Unit/Identifications/Identification/TaxonIdentified/ScientificName/NameAtomised/Botanical/FirstEpithet or DataSets/DataSet/Units/Unit/Identifications/Identification/TaxonIdentified/ScientificName/NameAtomised/Zoological/SpeciesEpithet} recommended The name of the first or species epithet of the scientificName. Specific Epithet Examples: "1" (=1 Jan), "366" (=31 Dec), "365" (=30 Dec in a leap year, 31 Dec in a non-leap year) 2008-11-19 2009-04-24 DataSets/DataSet/Units/Unit/Gathering/DateTime/DayNumberBegin recommended The earliest ordinal day of the year on which the Event occurred (1 for January 1, 365 for December 31, except in a leap year, in which case it is 366). Start Day Of Year Examples: "Montana", "Minas Gerais", "Córdoba" 2008-11-19 2009-04-24 DataSets/DataSet/Units/Unit/Gathering/NamedAreas/NamedArea/AreaName with NamedAreas/NamedArea/AreaClass= State or = Province (etc.) recommended The name of the next smaller administrative region than country (state, province, canton, department, region, etc.) in which the Location occurs. State Province Examples: "Strobus (Pinus)", "Puma (Puma)" "Loligo (Amerigo)", "Hieracium subgen. Pilosella" 2008-11-19 2009-08-24 DataSets/DataSet/Units/Unit/Identifications/Identification/TaxonIdentified/ScientificName/NameAtomised/Zoological/Subgenus recommended The full scientific name of the subgenus in which the taxon is classified. Values should include the genus to avoid homonym confusion. Subgenus Examples: "subspecies", "varietas", "forma", "species", "genus" 2008-11-19 2009-09-21 DataSets/DataSet/Units/Unit/Identifications/Identification/TaxonIdentified/ScientificName/NameAtomised/Botanical/Rank recommended The taxonomic rank of the most specific name in the scientificName. Recommended best practice is to use a controlled vocabulary. Taxon Rank Example: "this name is a misspelling in common use" 2008-11-19 2009-08-24 not in ABCD recommended Comments or notes about the taxon or name. Taxon Remarks Examples: "invalid", "misapplied", "homotypic synonym", "accepted" 2008-11-19 2009-04-24 not in ABCD recommended The status of the use of the scientificName as a label for a taxon. Requires taxonomic opinion to define the scope of a taxon. Rules of priority then are used to define the taxonomic status of the nomenclature contained in that scope, combined with the experts opinion. It must be linked to a specific taxonomic reference that defines the concept. Recommended best practice is to use a controlled vocabulary. Taxonomic Status Example: "holotype of Ctenomys sociabilis. Pearson O. P., and M. I. Christie. 1985. Historia Natural, 5(37):388" 2008-11-19 2009-04-24 DataSets/DataSet/Units/Unit/SpecimenUnit/NomenclaturalTypeDesignations/NomenclaturalTypeText recommended A list (concatenated and separated) of nomenclatural types (type status, typified scientific name, publication) applied to the subject. Type Status Examples: "decimal degrees", "degrees decimal minutes", "degrees minutes seconds", "UTM" 2008-11-19 2009-07-06 (partly) DataSets/DataSet/Units/Unit/Gathering/SiteCoordinateSets/SiteCoordinates/CoordinatesGrid/GridCellSystem recommended The spatial coordinate system for the verbatimLatitude and verbatimLongitude or the verbatimCoordinates of the Location. Recommended best practice is to use a controlled vocabulary. Verbatim Coordinate System Examples: "41 05 54S 121 05 34W", "17T 630000 4833400" 2008-11-19 2009-07-06 {DataSets/DataSet/Units/Unit/Gathering/SiteCoordinateSets/SiteCoordinates/CoordinatesLatLon/CoordinatesText or DataSets/DataSet/Units/Unit/Gathering/SiteCoordinateSets/SiteCoordinates/CoordinatesUTM/UTMText} recommended The verbatim original spatial coordinates of the Location. The coordinate ellipsoid, geodeticDatum, or full Spatial Reference System (SRS) for these coordinates should be stored in verbatimSRS and the coordinate system should be stored in verbatimCoordinateSystem. Verbatim Coordinates Example: "100-200 m" 2008-11-19 2009-04-24 DataSets/DataSet/Units/Unit/Gathering/Depth/MeasurementOrFactText recommended The original description of the depth below the local surface. Verbatim Depth Example: "100-200 m" 2008-11-19 2009-04-24 DataSets/DataSet/Units/Unit/Gathering/Altitude/MeasurementOrFactText recommended The original description of the elevation (altitude, usually above sea level) of the Location. Verbatim Elevation Examples: "spring 1910", "Marzo 2002", "1999-03-XX", "17IV1934" 2008-11-19 2009-04-24 DataSets/DataSet/Units/Unit/Gathering/DateTime/DateText recommended The verbatim original representation of the date and time information for an Event. Verbatim EventDate Example: "41 05 54.03S" 2008-11-19 2009-07-06 DataSets/DataSet/Units/Unit/Gathering/SiteCoordinateSets/SiteCoordinates/CoordinatesLatLon/VerbatimLatitude recommended The verbatim original latitude of the Location. The coordinate ellipsoid, geodeticDatum, or full Spatial Reference System (SRS) for these coordinates should be stored in verbatimSRS and the coordinate system should be stored in verbatimCoordinateSystem. Verbatim Latitude Example: "25 km NNE Bariloche por R. Nac. 237" 2008-11-19 2009-04-24 DataSets/DataSet/Units/Unit/Gathering/NamedAreas/NamedArea/AreaName recommended The original textual description of the place. Verbatim Locality Example: "121d 10' 34" W" 2008-11-19 2009-07-06 DataSets/DataSet/Units/Unit/Gathering/SiteCoordinateSets/SiteCoordinates/CoordinatesLatLon/VerbatimLongitude recommended The verbatim original longitude of the Location. The coordinate ellipsoid, geodeticDatum, or full Spatial Reference System (SRS) for these coordinates should be stored in verbatimSRS and the coordinate system should be stored in verbatimCoordinateSystem. Verbatim Longitude Examples: "EPSG:4326", "WGS84", "NAD27", "Campo Inchauspe", "European 1950", "Clarke 1866" 2009-07-06 2009-07-06 not in ABCD recommended The ellipsoid, geodetic datum, or spatial reference system (SRS) upon which coordinates given in verbatimLatitude and verbatimLongitude, or verbatimCoordinates are based. Recommended best practice is use the EPSG code as a controlled vocabulary to provide an SRS, if known. Otherwise use a controlled vocabulary for the name or code of the geodetic datum, if known. Otherwise use a controlled vocabulary for the name or code of the ellipsoid, if known. If none of these is known, use the value "unknown". Verbatim SRS Examples: "Agamospecies", "sub-lesus", "prole", "apomict", "nothogrex", "sp.", "subsp.", "var." 2009-07-06 2009-09-21 not in ABCD recommended The taxonomic rank of the most specific name in the scientificName as it appears in the original record. Verbatim Taxon Rank Examples: "Andean Condor", "Condor Andino", "American Eagle", "Gänsegeier" 2009-07-06 2009-07-06 not in ABCD recommended A common or vernacular name. Vernacular Name Examples: "Indian Ocean", "Baltic Sea", "Hudson River" 2008-11-19 2009-04-24 DataSets/DataSet/Units/Unit/Gathering/NamedAreas/NamedArea/AreaName with NamedAreas/NamedArea/AreaClass= Water body recommended The name of the water body in which the Location occurs. Recommended best practice is to use a controlled vocabulary such as the Getty Thesaurus of Geographic Names. Water Body Example: "2008" 2008-11-19 2009-04-24 accessible from DataSets/DataSet/Units/Unit/Gathering/ISODateTimeBegin recommended The four-digit year in which the Event occurred, according to the Common Era Calendar. Year sighting A trip camera capture of an image of a jaguar is an observation, because it is "selected" by the camera as worthy of obsevation simply by virtue of moving in front of the camera. Observing and recording the presence or absence of butterflies during a transect walk. Seeing three pelicans flying overhead on Christmas day and report them as part of the Christmas Bird Count. A process in which a person or machine sees or detects a material entity and selects it as worthy of observation, and which has as output an information content entity about the selected material entity. This class replaces class bco_0000003, which was made obsolete because of identifier format. We are having conversation with OBI developers about how this term relates to OBI:assay (). Is it equivalent, broader, narrower? What does it mean to be the input to an observation. Biocode Commons Ontology Hackathon An observing process is distinguished from a specimen collecting process in by having an information content entity as an output rather than a specimen. The information artifact may be written or recorded or just be stored in someone's head (specifically depenedent upon that person). In the context of a taxonomic inventory, an observing process may be called a sighting, which is an ad hoc reporting of, typically, a single taxon occurrence, usually motivated by rarity, individual interest in the taxon, or atypicality of circumstances. observing process a curator submitting a herbarium speciman to a museum a researcher submitting a water sample to a laboratory storage collection A planned process whereby a person submits a material sample to an organization. false Biocode Commons Ontology Hackathon submitting process An information artifact that is about a spatio-temporal region at which a process (such as collecting process, observing process, or material sampling process) occured. This term replaces the obsolete class bco_0000025, but with the correct identifier format. Biocode Commons Ontology Hackathon Darwin Core needs to describe both the site and time where some activity occurred as an information content entity (e.g., in recording data from a lab notebook),therefore, we made locality description about a spatial temporal region, rather than a site. locality description The herbarium collection at the New York Botanical Garden. the painting collection at the Louvre Museum An object aggregate that has as member part a material sample that is located in museum as a result of a process of curation. This term replaced bco_0000031, which was made obsolete because of incorrect identifier format. Biocode Commons Ontology Hackathon Intent is to document biodiversity for research and education. The class museum collection has meaning that is much broader than biological collections. It would probably be better to import this term from another, more general ontology and create a specific subclass for natural history museum collection. museum collection the insect collection at the Smithsonian Institution A museum collection that has as member part a material sample that was derived from an organism. This term replaced bco_0000032, which was made obsolete because of incorrect identifier format. Biocode Commons Ontology Hackathon organismal museum collection Associating a museum specimen with a specific taxonomic concept based on its characters. Using BLAST to identify the taxa present in an environmental (metagenomic) sample. Using DNA barcoding to identify a plant species. Using a key to identify a plant in the field. A planned process by which an organismal entity is associated with a taxon or taxa. Need to add a relation for has specified output some taxonomic association. This term replaces bco_0000042, which was made obsolete because of incorrect identifier format. Biocode Commons Ontology Hackathon taxonomic identification process A bird observed during a Christmas Bird Count A bird observed during a transect walk. A tree is forest plot that is measured for diameter at breast height (DBH). An lizard observed in the field that is not collected but whose location is recorded in a field notebook. A material entity that has a target of observation role, that is, a material entity that is the input of some observing process. This term replaces bco_0000044, which was made obsolete because of incorrect identifier format. Biocode Commons Ontology Hackathon material target of observation the role borne by a bird during a Christmas Bird Count A role that is borne by some material entity and is realized by the material entity being the input of an observing process. This term replaced bco_0000046, which was made obsolete because of incorrect identifier format. Biocode Commons Ontology Hackathon material target of observation role inventory type A planned process by which a taxonomic inventory is created. Taxonomic Inventory Metadata Workshop not sure if this should be a type of assay or a type of planned process taxonomic inventory process A planned process by which a taxonomic inventory is created. http://onlinelibrary.wiley.com/doi/10.1111/ecog.02942/full "The Flora of North America" The butterflies of Great Britain The plants of Yosemite National Park A list of names ascribed to biological entities of specified organismal scope recorded over some defined spatial and temporal scope following a described sampling protocol and sampling effort, potentially including values indicating abundance or biomass of the biological entities Taxonomic Inventory Metadata Workshop https://docs.google.com/spreadsheet/ccc?key=0AhrY0qRdO4budC1mSUNWTDlkOXBVMjcza2Y3aV84SkE#gid=0 The biological entities are almost always species and the organismal scope typically a taxon but potentially also an ecologically or functionally defined grouping (e.g. ‘water birds’ or ‘trees’) or other operational unit (e.g. genes). The list would typically contain multiple entities, but may be as short as a single entity or, if a sampling effort focused on a certain taxon yielded no results, even contain none. taxonomic inventory restricted search Pollard transect-- "walk a 1km transect at a slow&steady pace, and report on all TOI within 5m in front, and 2.5m on either side of you." A taxonomic inventory process that is restricted to plots, transects, or points, in which a person or group of people is comprehensively covering the entire area, usually with a well-described survey time or pace. The search is restricted to a defined and human-scale geospatial area (usually traversable within a time course of less than a day) within which there is an expectation of a comprehensive accounting of the taxonomic items of interest. Taxonomic Inventory Metadata Workshop restricted search taxonomic inventory process A taxonomic inventory process that is restricted to plots, transects, or points, in which a person or group of people is comprehensively covering the entire area, usually with a well-described survey time or pace. The search is restricted to a defined and human-scale geospatial area (usually traversable within a time course of less than a day) within which there is an expectation of a comprehensive accounting of the taxonomic items of interest. http://onlinelibrary.wiley.com/doi/10.1111/ecog.02942/full open search Individual Christmas Bird Count by some team. Organized field trip to a State Park. A taxonomic inventory process in which the search is restricted within a larger defined geographic area, but where effort isn't even or complete across the region, and thus not a comprehensive accounting of taxa of interest. Temporal duration is typically longer than restricted searches, lasting hours to several days. Taxonomic Inventory Metadata Workshop open search taxonomic inventory process A taxonomic inventory process in which the search is restricted within a larger defined geographic area, but where effort isn't even or complete across the region, and thus not a comprehensive accounting of taxa of interest. Temporal duration is typically longer than restricted searches, lasting hours to several days. http://onlinelibrary.wiley.com/doi/10.1111/ecog.02942/full opportunistic search Many E-Bird lists are of this nature; useful supplementary information is that observers should state whether they documented every taxon of interest they saw. A taxonomic inventory process that is a more casual reporting of occurrences of taxa of interest, still intended to be a comprehensive accounting of the taxa of interest, but with no pre-specified investment of effort nor planned trajectory for discovery, thus of often idiosyncratic length or spatial scope. Taxonomic Inventory Metadata Workshop This is more typically used to report multiple sightings, where the motivation is to record presence and abundance, rather than for individual anecdotal occurrences that are noteworthy. opportunistic search taxonomic inventory process A taxonomic inventory process that is a more casual reporting of occurrences of taxa of interest, still intended to be a comprehensive accounting of the taxa of interest, but with no pre-specified investment of effort nor planned trajectory for discovery, thus of often idiosyncratic length or spatial scope. http://onlinelibrary.wiley.com/doi/10.1111/ecog.02942/full trap or sample inventory an inventory of insects in a area using pheremone traps an inventory of the large mammals of a park based on camera traps inventories based on trawl samples A taxonomic inventory process that is typically restricted in geospatial extent that involves either the physical extraction of some evidence of the presence of the taxa of interest, such as a whole organisms, scat, fur, other material samples or information artifacts such as photographs or sound recordings Taxonomic Inventory Metadata Workshop Can be highly targeted and or baited (pheromone trap), or general (pitfall). Trap events can either be "triggered" but of long-term deployment, or rigorously temporally specified (left out overnight). trap or sample taxonomic inventory process A taxonomic inventory process that is typically restricted in geospatial extent that involves either the physical extraction of some evidence of the presence of the taxa of interest, such as a whole organisms, scat, fur, other material samples or information artifacts such as photographs or sound recordings http://onlinelibrary.wiley.com/doi/10.1111/ecog.02942/full incidental or adventitious inventory data from ecological studies in which presence of some taxa is recorded to clarify population or community parameters A taxonomic inventory process in which taxon occurrences are recorded as co-variates of another study, or by happenstance, and later compiled as a taxonomic inventory. Taxonomic Inventory Metadata Workshop adventitious taxonomic inventory process A taxonomic inventory process in which taxon occurrences are recorded as co-variates of another study, or by happenstance, and later compiled as a taxonomic inventory. http://onlinelibrary.wiley.com/doi/10.1111/ecog.02942/full compilation inventory Atlases and Checklists A taxonomic inventory process in which a list of taxa of interest is assembled from various combinations of existing taxonomic inventories, rather than generated de novo from observations or samples. Taxonomic Inventory Metadata Workshop A compiliation taxonomic inventory process is typically required to document the occurences of taxa of interest over large geospatial areas, or to derive the most comprehensive accounting of presence and absence of taxa of interest in a larger region. compilation taxonomic inventory process A taxonomic inventory process in which a list of taxa of interest is assembled from various combinations of existing taxonomic inventories, rather than generated de novo from observations or samples. http://onlinelibrary.wiley.com/doi/10.1111/ecog.02942/full The Louvre Museum The Smithsonian Institution An institution that cares for (conserves) a collection of artifacts and other objects of scientific, artistic, cultural, or historical importance. ISBN:9780759105096 A museum may make its collections available for public viewing through exhibits that may be permanent or temporary. The class museum has meaning that is much broader than biological collecitons. It may be better to import this term from another, more general ontology and create a specific subclass for natural history museum. museum a fossil housed in a natural history museum A specimen that is derived from a fossil. obsolete fossil specimen true a bacterial culture in a culture collection a tree in an arboretum an animal in a zoo germplasm A specimen that is alive. obsolete living specimen true A specimen that has been preserved. obsolete preserved specimen true obsolete darwin core class true a biologist recording an observation of an animal in a field notebook an entomologist recording the presense of butterflies while walking a transect An observing process in which the observing entity consists of one or more humans. May be able to use the has agent = has active participant relationship for defining this. May want to work with OBI to define this term in a more general sense for investigations. human observation process a camera trap recording the presence of a jaguar a sensor periodically recording the surface temperature of a leaf over several hours An observing process in which the observing entity consists of one or more machines. May want to work with OBI to define this term in a more general sense for investigations. machine observation process A data item that is the output of a taxonomic identification process and associates some organismal entity with a taxon or taxa. PPO hackathon Sep. 2016. identification assertion entity Entity Julius Caesar Verdi’s Requiem the Second World War your body mass index BFO 2 Reference: In all areas of empirical inquiry we encounter general terms of two sorts. First are general terms which refer to universals or types:animaltuberculosissurgical procedurediseaseSecond, are general terms used to refer to groups of entities which instantiate a given universal but do not correspond to the extension of any subuniversal of that universal because there is nothing intrinsic to the entities in question by virtue of which they – and only they – are counted as belonging to the given group. Examples are: animal purchased by the Emperortuberculosis diagnosed on a Wednesdaysurgical procedure performed on a patient from Stockholmperson identified as candidate for clinical trial #2056-555person who is signatory of Form 656-PPVpainting by Leonardo da VinciSuch terms, which represent what are called ‘specializations’ in [81 Entity doesn't have a closure axiom because the subclasses don't necessarily exhaust all possibilites. For example Werner Ceusters 'portions of reality' include 4 sorts, entities (as BFO construes them), universals, configurations, and relations. It is an open question as to whether entities as construed in BFO will at some point also include these other portions of reality. See, for example, 'How to track absolutely everything' at http://www.referent-tracking.com/_RTU/papers/CeustersICbookRevised.pdf An entity is anything that exists or has existed or will exist. (axiom label in BFO2 Reference: [001-001]) entity Entity doesn't have a closure axiom because the subclasses don't necessarily exhaust all possibilites. For example Werner Ceusters 'portions of reality' include 4 sorts, entities (as BFO construes them), universals, configurations, and relations. It is an open question as to whether entities as construed in BFO will at some point also include these other portions of reality. See, for example, 'How to track absolutely everything' at http://www.referent-tracking.com/_RTU/papers/CeustersICbookRevised.pdf per discussion with Barry Smith An entity is anything that exists or has existed or will exist. (axiom label in BFO2 Reference: [001-001]) continuant Continuant An entity that exists in full at any time in which it exists at all, persists through time while maintaining its identity and has no temporal parts. BFO 2 Reference: Continuant entities are entities which can be sliced to yield parts only along the spatial dimension, yielding for example the parts of your table which we call its legs, its top, its nails. ‘My desk stretches from the window to the door. It has spatial parts, and can be sliced (in space) in two. With respect to time, however, a thing is a continuant.’ [60, p. 240 Continuant doesn't have a closure axiom because the subclasses don't necessarily exhaust all possibilites. For example, in an expansion involving bringing in some of Ceuster's other portions of reality, questions are raised as to whether universals are continuants A continuant is an entity that persists, endures, or continues to exist through time while maintaining its identity. (axiom label in BFO2 Reference: [008-002]) if b is a continuant and if, for some t, c has_continuant_part b at t, then c is a continuant. (axiom label in BFO2 Reference: [126-001]) if b is a continuant and if, for some t, cis continuant_part of b at t, then c is a continuant. (axiom label in BFO2 Reference: [009-002]) if b is a material entity, then there is some temporal interval (referred to below as a one-dimensional temporal region) during which b exists. (axiom label in BFO2 Reference: [011-002]) (forall (x y) (if (and (Continuant x) (exists (t) (continuantPartOfAt y x t))) (Continuant y))) // axiom label in BFO2 CLIF: [009-002] (forall (x y) (if (and (Continuant x) (exists (t) (hasContinuantPartOfAt y x t))) (Continuant y))) // axiom label in BFO2 CLIF: [126-001] (forall (x) (if (Continuant x) (Entity x))) // axiom label in BFO2 CLIF: [008-002] (forall (x) (if (Material Entity x) (exists (t) (and (TemporalRegion t) (existsAt x t))))) // axiom label in BFO2 CLIF: [011-002] continuant Continuant doesn't have a closure axiom because the subclasses don't necessarily exhaust all possibilites. For example, in an expansion involving bringing in some of Ceuster's other portions of reality, questions are raised as to whether universals are continuants A continuant is an entity that persists, endures, or continues to exist through time while maintaining its identity. (axiom label in BFO2 Reference: [008-002]) if b is a continuant and if, for some t, c has_continuant_part b at t, then c is a continuant. (axiom label in BFO2 Reference: [126-001]) if b is a continuant and if, for some t, cis continuant_part of b at t, then c is a continuant. (axiom label in BFO2 Reference: [009-002]) if b is a material entity, then there is some temporal interval (referred to below as a one-dimensional temporal region) during which b exists. (axiom label in BFO2 Reference: [011-002]) (forall (x y) (if (and (Continuant x) (exists (t) (continuantPartOfAt y x t))) (Continuant y))) // axiom label in BFO2 CLIF: [009-002] (forall (x y) (if (and (Continuant x) (exists (t) (hasContinuantPartOfAt y x t))) (Continuant y))) // axiom label in BFO2 CLIF: [126-001] (forall (x) (if (Continuant x) (Entity x))) // axiom label in BFO2 CLIF: [008-002] (forall (x) (if (Material Entity x) (exists (t) (and (TemporalRegion t) (existsAt x t))))) // axiom label in BFO2 CLIF: [011-002] occurrent Occurrent An entity that has temporal parts and that happens, unfolds or develops through time. BFO 2 Reference: every occurrent that is not a temporal or spatiotemporal region is s-dependent on some independent continuant that is not a spatial region BFO 2 Reference: s-dependence obtains between every process and its participants in the sense that, as a matter of necessity, this process could not have existed unless these or those participants existed also. A process may have a succession of participants at different phases of its unfolding. Thus there may be different players on the field at different times during the course of a football game; but the process which is the entire game s-depends_on all of these players nonetheless. Some temporal parts of this process will s-depend_on on only some of the players. Occurrent doesn't have a closure axiom because the subclasses don't necessarily exhaust all possibilites. An example would be the sum of a process and the process boundary of another process. Simons uses different terminology for relations of occurrents to regions: Denote the spatio-temporal location of a given occurrent e by 'spn[e]' and call this region its span. We may say an occurrent is at its span, in any larger region, and covers any smaller region. Now suppose we have fixed a frame of reference so that we can speak not merely of spatio-temporal but also of spatial regions (places) and temporal regions (times). The spread of an occurrent, (relative to a frame of reference) is the space it exactly occupies, and its spell is likewise the time it exactly occupies. We write 'spr[e]' and `spl[e]' respectively for the spread and spell of e, omitting mention of the frame. An occurrent is an entity that unfolds itself in time or it is the instantaneous boundary of such an entity (for example a beginning or an ending) or it is a temporal or spatiotemporal region which such an entity occupies_temporal_region or occupies_spatiotemporal_region. (axiom label in BFO2 Reference: [077-002]) Every occurrent occupies_spatiotemporal_region some spatiotemporal region. (axiom label in BFO2 Reference: [108-001]) b is an occurrent entity iff b is an entity that has temporal parts. (axiom label in BFO2 Reference: [079-001]) (forall (x) (if (Occurrent x) (exists (r) (and (SpatioTemporalRegion r) (occupiesSpatioTemporalRegion x r))))) // axiom label in BFO2 CLIF: [108-001] (forall (x) (iff (Occurrent x) (and (Entity x) (exists (y) (temporalPartOf y x))))) // axiom label in BFO2 CLIF: [079-001] occurrent Occurrent doesn't have a closure axiom because the subclasses don't necessarily exhaust all possibilites. An example would be the sum of a process and the process boundary of another process. per discussion with Barry Smith Simons uses different terminology for relations of occurrents to regions: Denote the spatio-temporal location of a given occurrent e by 'spn[e]' and call this region its span. We may say an occurrent is at its span, in any larger region, and covers any smaller region. Now suppose we have fixed a frame of reference so that we can speak not merely of spatio-temporal but also of spatial regions (places) and temporal regions (times). The spread of an occurrent, (relative to a frame of reference) is the space it exactly occupies, and its spell is likewise the time it exactly occupies. We write 'spr[e]' and `spl[e]' respectively for the spread and spell of e, omitting mention of the frame. An occurrent is an entity that unfolds itself in time or it is the instantaneous boundary of such an entity (for example a beginning or an ending) or it is a temporal or spatiotemporal region which such an entity occupies_temporal_region or occupies_spatiotemporal_region. (axiom label in BFO2 Reference: [077-002]) Every occurrent occupies_spatiotemporal_region some spatiotemporal region. (axiom label in BFO2 Reference: [108-001]) b is an occurrent entity iff b is an entity that has temporal parts. (axiom label in BFO2 Reference: [079-001]) (forall (x) (if (Occurrent x) (exists (r) (and (SpatioTemporalRegion r) (occupiesSpatioTemporalRegion x r))))) // axiom label in BFO2 CLIF: [108-001] (forall (x) (iff (Occurrent x) (and (Entity x) (exists (y) (temporalPartOf y x))))) // axiom label in BFO2 CLIF: [079-001] ic IndependentContinuant a chair a heart a leg a molecule a spatial region an atom an orchestra. an organism the bottom right portion of a human torso the interior of your mouth A continuant that is a bearer of quality and realizable entity entities, in which other entities inhere and which itself cannot inhere in anything. b is an independent continuant = Def. b is a continuant which is such that there is no c and no t such that b s-depends_on c at t. (axiom label in BFO2 Reference: [017-002]) For any independent continuant b and any time t there is some spatial region r such that b is located_in r at t. (axiom label in BFO2 Reference: [134-001]) For every independent continuant b and time t during the region of time spanned by its life, there are entities which s-depends_on b during t. (axiom label in BFO2 Reference: [018-002]) (forall (x t) (if (IndependentContinuant x) (exists (r) (and (SpatialRegion r) (locatedInAt x r t))))) // axiom label in BFO2 CLIF: [134-001] (forall (x t) (if (and (IndependentContinuant x) (existsAt x t)) (exists (y) (and (Entity y) (specificallyDependsOnAt y x t))))) // axiom label in BFO2 CLIF: [018-002] (iff (IndependentContinuant a) (and (Continuant a) (not (exists (b t) (specificallyDependsOnAt a b t))))) // axiom label in BFO2 CLIF: [017-002] independent continuant b is an independent continuant = Def. b is a continuant which is such that there is no c and no t such that b s-depends_on c at t. (axiom label in BFO2 Reference: [017-002]) For any independent continuant b and any time t there is some spatial region r such that b is located_in r at t. (axiom label in BFO2 Reference: [134-001]) For every independent continuant b and time t during the region of time spanned by its life, there are entities which s-depends_on b during t. (axiom label in BFO2 Reference: [018-002]) (forall (x t) (if (IndependentContinuant x) (exists (r) (and (SpatialRegion r) (locatedInAt x r t))))) // axiom label in BFO2 CLIF: [134-001] (forall (x t) (if (and (IndependentContinuant x) (existsAt x t)) (exists (y) (and (Entity y) (specificallyDependsOnAt y x t))))) // axiom label in BFO2 CLIF: [018-002] (iff (IndependentContinuant a) (and (Continuant a) (not (exists (b t) (specificallyDependsOnAt a b t))))) // axiom label in BFO2 CLIF: [017-002] A continuant that is either dependent on one or other independent continuant bearers or inheres in or is borne by other entities. obsolete dependent continuant true s-region SpatialRegion BFO 2 Reference: Spatial regions do not participate in processes. Spatial region doesn't have a closure axiom because the subclasses don't exhaust all possibilites. An example would be the union of a spatial point and a spatial line that doesn't overlap the point, or two spatial lines that intersect at a single point. In both cases the resultant spatial region is neither 0-dimensional, 1-dimensional, 2-dimensional, or 3-dimensional. A spatial region is a continuant entity that is a continuant_part_of spaceR as defined relative to some frame R. (axiom label in BFO2 Reference: [035-001]) All continuant parts of spatial regions are spatial regions. (axiom label in BFO2 Reference: [036-001]) (forall (x y t) (if (and (SpatialRegion x) (continuantPartOfAt y x t)) (SpatialRegion y))) // axiom label in BFO2 CLIF: [036-001] (forall (x) (if (SpatialRegion x) (Continuant x))) // axiom label in BFO2 CLIF: [035-001] spatial region Spatial region doesn't have a closure axiom because the subclasses don't exhaust all possibilites. An example would be the union of a spatial point and a spatial line that doesn't overlap the point, or two spatial lines that intersect at a single point. In both cases the resultant spatial region is neither 0-dimensional, 1-dimensional, 2-dimensional, or 3-dimensional. per discussion with Barry Smith A spatial region is a continuant entity that is a continuant_part_of spaceR as defined relative to some frame R. (axiom label in BFO2 Reference: [035-001]) All continuant parts of spatial regions are spatial regions. (axiom label in BFO2 Reference: [036-001]) (forall (x y t) (if (and (SpatialRegion x) (continuantPartOfAt y x t)) (SpatialRegion y))) // axiom label in BFO2 CLIF: [036-001] (forall (x) (if (SpatialRegion x) (Continuant x))) // axiom label in BFO2 CLIF: [035-001] process Process a process of cell-division, \ a beating of the heart a process of meiosis a process of sleeping the course of a disease the flight of a bird the life of an organism your process of aging. An occurrent that has temporal proper parts and for some time t, p s-depends_on some material entity at t. p is a process = Def. p is an occurrent that has temporal proper parts and for some time t, p s-depends_on some material entity at t. (axiom label in BFO2 Reference: [083-003]) BFO 2 Reference: The realm of occurrents is less pervasively marked by the presence of natural units than is the case in the realm of independent continuants. Thus there is here no counterpart of ‘object’. In BFO 1.0 ‘process’ served as such a counterpart. In BFO 2.0 ‘process’ is, rather, the occurrent counterpart of ‘material entity’. Those natural – as contrasted with engineered, which here means: deliberately executed – units which do exist in the realm of occurrents are typically either parasitic on the existence of natural units on the continuant side, or they are fiat in nature. Thus we can count lives; we can count football games; we can count chemical reactions performed in experiments or in chemical manufacturing. We cannot count the processes taking place, for instance, in an episode of insect mating behavior.Even where natural units are identifiable, for example cycles in a cyclical process such as the beating of a heart or an organism’s sleep/wake cycle, the processes in question form a sequence with no discontinuities (temporal gaps) of the sort that we find for instance where billiard balls or zebrafish or planets are separated by clear spatial gaps. Lives of organisms are process units, but they too unfold in a continuous series from other, prior processes such as fertilization, and they unfold in turn in continuous series of post-life processes such as post-mortem decay. Clear examples of boundaries of processes are almost always of the fiat sort (midnight, a time of death as declared in an operating theater or on a death certificate, the initiation of a state of war) (iff (Process a) (and (Occurrent a) (exists (b) (properTemporalPartOf b a)) (exists (c t) (and (MaterialEntity c) (specificallyDependsOnAt a c t))))) // axiom label in BFO2 CLIF: [083-003] process p is a process = Def. p is an occurrent that has temporal proper parts and for some time t, p s-depends_on some material entity at t. (axiom label in BFO2 Reference: [083-003]) (iff (Process a) (and (Occurrent a) (exists (b) (properTemporalPartOf b a)) (exists (c t) (and (MaterialEntity c) (specificallyDependsOnAt a c t))))) // axiom label in BFO2 CLIF: [083-003] disposition Disposition an atom of element X has the disposition to decay to an atom of element Y certain people have a predisposition to colon cancer children are innately disposed to categorize objects in certain ways. the cell wall is disposed to filter chemicals in endocytosis and exocytosis BFO 2 Reference: Dispositions exist along a strength continuum. Weaker forms of disposition are realized in only a fraction of triggering cases. These forms occur in a significant number of cases of a similar type. b is a disposition means: b is a realizable entity & b’s bearer is some material entity & b is such that if it ceases to exist, then its bearer is physically changed, & b’s realization occurs when and because this bearer is in some special physical circumstances, & this realization occurs in virtue of the bearer’s physical make-up. (axiom label in BFO2 Reference: [062-002]) If b is a realizable entity then for all t at which b exists, b s-depends_on some material entity at t. (axiom label in BFO2 Reference: [063-002]) (forall (x t) (if (and (RealizableEntity x) (existsAt x t)) (exists (y) (and (MaterialEntity y) (specificallyDepends x y t))))) // axiom label in BFO2 CLIF: [063-002] (forall (x) (if (Disposition x) (and (RealizableEntity x) (exists (y) (and (MaterialEntity y) (bearerOfAt x y t)))))) // axiom label in BFO2 CLIF: [062-002] disposition b is a disposition means: b is a realizable entity & b’s bearer is some material entity & b is such that if it ceases to exist, then its bearer is physically changed, & b’s realization occurs when and because this bearer is in some special physical circumstances, & this realization occurs in virtue of the bearer’s physical make-up. (axiom label in BFO2 Reference: [062-002]) If b is a realizable entity then for all t at which b exists, b s-depends_on some material entity at t. (axiom label in BFO2 Reference: [063-002]) (forall (x t) (if (and (RealizableEntity x) (existsAt x t)) (exists (y) (and (MaterialEntity y) (specificallyDepends x y t))))) // axiom label in BFO2 CLIF: [063-002] (forall (x) (if (Disposition x) (and (RealizableEntity x) (exists (y) (and (MaterialEntity y) (bearerOfAt x y t)))))) // axiom label in BFO2 CLIF: [062-002] realizable RealizableEntity the disposition of this piece of metal to conduct electricity. the disposition of your blood to coagulate the function of your reproductive organs the role of being a doctor the role of this boundary to delineate where Utah and Colorado meet A specifically dependent continuant that inheres in continuant entities and are not exhibited in full at every time in which it inheres in an entity or group of entities. The exhibition or actualization of a realizable entity is a particular manifestation, functioning or process that occurs under certain circumstances. To say that b is a realizable entity is to say that b is a specifically dependent continuant that inheres in some independent continuant which is not a spatial region and is of a type instances of which are realized in processes of a correlated type. (axiom label in BFO2 Reference: [058-002]) All realizable dependent continuants have independent continuants that are not spatial regions as their bearers. (axiom label in BFO2 Reference: [060-002]) (forall (x t) (if (RealizableEntity x) (exists (y) (and (IndependentContinuant y) (not (SpatialRegion y)) (bearerOfAt y x t))))) // axiom label in BFO2 CLIF: [060-002] (forall (x) (if (RealizableEntity x) (and (SpecificallyDependentContinuant x) (exists (y) (and (IndependentContinuant y) (not (SpatialRegion y)) (inheresIn x y)))))) // axiom label in BFO2 CLIF: [058-002] realizable entity To say that b is a realizable entity is to say that b is a specifically dependent continuant that inheres in some independent continuant which is not a spatial region and is of a type instances of which are realized in processes of a correlated type. (axiom label in BFO2 Reference: [058-002]) All realizable dependent continuants have independent continuants that are not spatial regions as their bearers. (axiom label in BFO2 Reference: [060-002]) (forall (x t) (if (RealizableEntity x) (exists (y) (and (IndependentContinuant y) (not (SpatialRegion y)) (bearerOfAt y x t))))) // axiom label in BFO2 CLIF: [060-002] (forall (x) (if (RealizableEntity x) (and (SpecificallyDependentContinuant x) (exists (y) (and (IndependentContinuant y) (not (SpatialRegion y)) (inheresIn x y)))))) // axiom label in BFO2 CLIF: [058-002] quality Quality the ambient temperature of this portion of air the color of a tomato the length of the circumference of your waist the mass of this piece of gold. the shape of your nose the shape of your nostril a quality is a specifically dependent continuant that, in contrast to roles and dispositions, does not require any further process in order to be realized. (axiom label in BFO2 Reference: [055-001]) If an entity is a quality at any time that it exists, then it is a quality at every time that it exists. (axiom label in BFO2 Reference: [105-001]) (forall (x) (if (Quality x) (SpecificallyDependentContinuant x))) // axiom label in BFO2 CLIF: [055-001] (forall (x) (if (exists (t) (and (existsAt x t) (Quality x))) (forall (t_1) (if (existsAt x t_1) (Quality x))))) // axiom label in BFO2 CLIF: [105-001] quality a quality is a specifically dependent continuant that, in contrast to roles and dispositions, does not require any further process in order to be realized. (axiom label in BFO2 Reference: [055-001]) If an entity is a quality at any time that it exists, then it is a quality at every time that it exists. (axiom label in BFO2 Reference: [105-001]) (forall (x) (if (Quality x) (SpecificallyDependentContinuant x))) // axiom label in BFO2 CLIF: [055-001] (forall (x) (if (exists (t) (and (existsAt x t) (Quality x))) (forall (t_1) (if (existsAt x t_1) (Quality x))))) // axiom label in BFO2 CLIF: [105-001] sdc SpecificallyDependentContinuant Reciprocal specifically dependent continuants: the function of this key to open this lock and the mutually dependent disposition of this lock: to be opened by this key of one-sided specifically dependent continuants: the mass of this tomato of relational dependent continuants (multiple bearers): John’s love for Mary, the ownership relation between John and this statue, the relation of authority between John and his subordinates. the disposition of this fish to decay the function of this heart: to pump blood the mutual dependence of proton donors and acceptors in chemical reactions [79 the mutual dependence of the role predator and the role prey as played by two organisms in a given interaction the pink color of a medium rare piece of grilled filet mignon at its center the role of being a doctor the shape of this hole. the smell of this portion of mozzarella A continuant that inheres in or is borne by other entities. Every instance of A requires some specific instance of B which must always be the same. b is a relational specifically dependent continuant = Def. b is a specifically dependent continuant and there are n &gt; 1 independent continuants c1, … cn which are not spatial regions are such that for all 1 i &lt; j n, ci and cj share no common parts, are such that for each 1 i n, b s-depends_on ci at every time t during the course of b’s existence (axiom label in BFO2 Reference: [131-004]) b is a specifically dependent continuant = Def. b is a continuant & there is some independent continuant c which is not a spatial region and which is such that b s-depends_on c at every time t during the course of b’s existence. (axiom label in BFO2 Reference: [050-003]) Specifically dependent continuant doesn't have a closure axiom because the subclasses don't necessarily exhaust all possibilites. We're not sure what else will develop here, but for example there are questions such as what are promises, obligation, etc. (iff (RelationalSpecificallyDependentContinuant a) (and (SpecificallyDependentContinuant a) (forall (t) (exists (b c) (and (not (SpatialRegion b)) (not (SpatialRegion c)) (not (= b c)) (not (exists (d) (and (continuantPartOfAt d b t) (continuantPartOfAt d c t)))) (specificallyDependsOnAt a b t) (specificallyDependsOnAt a c t)))))) // axiom label in BFO2 CLIF: [131-004] (iff (SpecificallyDependentContinuant a) (and (Continuant a) (forall (t) (if (existsAt a t) (exists (b) (and (IndependentContinuant b) (not (SpatialRegion b)) (specificallyDependsOnAt a b t))))))) // axiom label in BFO2 CLIF: [050-003] specifically dependent continuant b is a relational specifically dependent continuant = Def. b is a specifically dependent continuant and there are n &gt; 1 independent continuants c1, … cn which are not spatial regions are such that for all 1 i &lt; j n, ci and cj share no common parts, are such that for each 1 i n, b s-depends_on ci at every time t during the course of b’s existence (axiom label in BFO2 Reference: [131-004]) b is a specifically dependent continuant = Def. b is a continuant & there is some independent continuant c which is not a spatial region and which is such that b s-depends_on c at every time t during the course of b’s existence. (axiom label in BFO2 Reference: [050-003]) Specifically dependent continuant doesn't have a closure axiom because the subclasses don't necessarily exhaust all possibilites. We're not sure what else will develop here, but for example there are questions such as what are promises, obligation, etc. per discussion with Barry Smith (iff (RelationalSpecificallyDependentContinuant a) (and (SpecificallyDependentContinuant a) (forall (t) (exists (b c) (and (not (SpatialRegion b)) (not (SpatialRegion c)) (not (= b c)) (not (exists (d) (and (continuantPartOfAt d b t) (continuantPartOfAt d c t)))) (specificallyDependsOnAt a b t) (specificallyDependsOnAt a c t)))))) // axiom label in BFO2 CLIF: [131-004] (iff (SpecificallyDependentContinuant a) (and (Continuant a) (forall (t) (if (existsAt a t) (exists (b) (and (IndependentContinuant b) (not (SpatialRegion b)) (specificallyDependsOnAt a b t))))))) // axiom label in BFO2 CLIF: [050-003] role Role John’s role of husband to Mary is dependent on Mary’s role of wife to John, and both are dependent on the object aggregate comprising John and Mary as member parts joined together through the relational quality of being married. the priest role the role of a boundary to demarcate two neighboring administrative territories the role of a building in serving as a military target the role of a stone in marking a property boundary the role of subject in a clinical trial the student role A realizable entity the manifestation of which brings about some result or end that is not essential to a continuant in virtue of the kind of thing that it is but that can be served or participated in by that kind of continuant in some kinds of natural, social or institutional contexts. BFO 2 Reference: One major family of examples of non-rigid universals involves roles, and ontologies developed for corresponding administrative purposes may consist entirely of representatives of entities of this sort. Thus ‘professor’, defined as follows,b instance_of professor at t =Def. there is some c, c instance_of professor role & c inheres_in b at t.denotes a non-rigid universal and so also do ‘nurse’, ‘student’, ‘colonel’, ‘taxpayer’, and so forth. (These terms are all, in the jargon of philosophy, phase sortals.) By using role terms in definitions, we can create a BFO conformant treatment of such entities drawing on the fact that, while an instance of professor may be simultaneously an instance of trade union member, no instance of the type professor role is also (at any time) an instance of the type trade union member role (any more than any instance of the type color is at any time an instance of the type length).If an ontology of employment positions should be defined in terms of roles following the above pattern, this enables the ontology to do justice to the fact that individuals instantiate the corresponding universals – professor, sergeant, nurse – only during certain phases in their lives. b is a role means: b is a realizable entity & b exists because there is some single bearer that is in some special physical, social, or institutional set of circumstances in which this bearer does not have to be& b is not such that, if it ceases to exist, then the physical make-up of the bearer is thereby changed. (axiom label in BFO2 Reference: [061-001]) (forall (x) (if (Role x) (RealizableEntity x))) // axiom label in BFO2 CLIF: [061-001] role b is a role means: b is a realizable entity & b exists because there is some single bearer that is in some special physical, social, or institutional set of circumstances in which this bearer does not have to be& b is not such that, if it ceases to exist, then the physical make-up of the bearer is thereby changed. (axiom label in BFO2 Reference: [061-001]) (forall (x) (if (Role x) (RealizableEntity x))) // axiom label in BFO2 CLIF: [061-001] object-aggregate ObjectAggregate a collection of cells in a blood biobank. a swarm of bees is an aggregate of members who are linked together through natural bonds a symphony orchestra an organization is an aggregate whose member parts have roles of specific types (for example in a jazz band, a chess club, a football team) defined by fiat: the aggregate of members of an organization defined through physical attachment: the aggregate of atoms in a lump of granite defined through physical containment: the aggregate of molecules of carbon dioxide in a sealed container defined via attributive delimitations such as: the patients in this hospital the aggregate of bearings in a constant velocity axle joint the aggregate of blood cells in your body the nitrogen atoms in the atmosphere the restaurants in Palo Alto your collection of Meissen ceramic plates. An entity a is an object aggregate if and only if there is a mutually exhaustive and pairwise disjoint partition of a into objects BFO 2 Reference: object aggregates may gain and lose parts while remaining numerically identical (one and the same individual) over time. This holds both for aggregates whose membership is determined naturally (the aggregate of cells in your body) and aggregates determined by fiat (a baseball team, a congressional committee). ISBN:978-3-938793-98-5pp124-158#Thomas Bittner and Barry Smith, 'A Theory of Granular Partitions', in K. Munn and B. Smith (eds.), Applied Ontology: An Introduction, Frankfurt/Lancaster: ontos, 2008, 125-158. b is an object aggregate means: b is a material entity consisting exactly of a plurality of objects as member_parts at all times at which b exists. (axiom label in BFO2 Reference: [025-004]) (forall (x) (if (ObjectAggregate x) (and (MaterialEntity x) (forall (t) (if (existsAt x t) (exists (y z) (and (Object y) (Object z) (memberPartOfAt y x t) (memberPartOfAt z x t) (not (= y z)))))) (not (exists (w t_1) (and (memberPartOfAt w x t_1) (not (Object w)))))))) // axiom label in BFO2 CLIF: [025-004] object aggregate An entity a is an object aggregate if and only if there is a mutually exhaustive and pairwise disjoint partition of a into objects An entity a is an object aggregate if and only if there is a mutually exhaustive and pairwise disjoint partition of a into objects ISBN:978-3-938793-98-5pp124-158#Thomas Bittner and Barry Smith, 'A Theory of Granular Partitions', in K. Munn and B. Smith (eds.), Applied Ontology: An Introduction, Frankfurt/Lancaster: ontos, 2008, 125-158. b is an object aggregate means: b is a material entity consisting exactly of a plurality of objects as member_parts at all times at which b exists. (axiom label in BFO2 Reference: [025-004]) (forall (x) (if (ObjectAggregate x) (and (MaterialEntity x) (forall (t) (if (existsAt x t) (exists (y z) (and (Object y) (Object z) (memberPartOfAt y x t) (memberPartOfAt z x t) (not (= y z)))))) (not (exists (w t_1) (and (memberPartOfAt w x t_1) (not (Object w)))))))) // axiom label in BFO2 CLIF: [025-004] object Object atom cell cells and organisms engineered artifacts grain of sand molecule organelle organism planet solid portions of matter star BFO 2 Reference: BFO rests on the presupposition that at multiple micro-, meso- and macroscopic scales reality exhibits certain stable, spatially separated or separable material units, combined or combinable into aggregates of various sorts (for example organisms into what are called ‘populations’). Such units play a central role in almost all domains of natural science from particle physics to cosmology. Many scientific laws govern the units in question, employing general terms (such as ‘molecule’ or ‘planet’) referring to the types and subtypes of units, and also to the types and subtypes of the processes through which such units develop and interact. The division of reality into such natural units is at the heart of biological science, as also is the fact that these units may form higher-level units (as cells form multicellular organisms) and that they may also form aggregates of units, for example as cells form portions of tissue and organs form families, herds, breeds, species, and so on. At the same time, the division of certain portions of reality into engineered units (manufactured artifacts) is the basis of modern industrial technology, which rests on the distributed mass production of engineered parts through division of labor and on their assembly into larger, compound units such as cars and laptops. The division of portions of reality into units is one starting point for the phenomenon of counting. BFO 2 Reference: Each object is such that there are entities of which we can assert unproblematically that they lie in its interior, and other entities of which we can assert unproblematically that they lie in its exterior. This may not be so for entities lying at or near the boundary between the interior and exterior. This means that two objects – for example the two cells depicted in Figure 3 – may be such that there are material entities crossing their boundaries which belong determinately to neither cell. Something similar obtains in certain cases of conjoined twins (see below). BFO 2 Reference: To say that b is causally unified means: b is a material entity which is such that its material parts are tied together in such a way that, in environments typical for entities of the type in question,if c, a continuant part of b that is in the interior of b at t, is larger than a certain threshold size (which will be determined differently from case to case, depending on factors such as porosity of external cover) and is moved in space to be at t at a location on the exterior of the spatial region that had been occupied by b at t, then either b’s other parts will be moved in coordinated fashion or b will be damaged (be affected, for example, by breakage or tearing) in the interval between t and t.causal changes in one part of b can have consequences for other parts of b without the mediation of any entity that lies on the exterior of b. Material entities with no proper material parts would satisfy these conditions trivially. Candidate examples of types of causal unity for material entities of more complex sorts are as follows (this is not intended to be an exhaustive list):CU1: Causal unity via physical coveringHere the parts in the interior of the unified entity are combined together causally through a common membrane or other physical covering\. The latter points outwards toward and may serve a protective function in relation to what lies on the exterior of the entity [13, 47 BFO 2 Reference: an object is a maximal causally unified material entity BFO 2 Reference: ‘objects’ are sometimes referred to as ‘grains’ [74 b is an object means: b is a material entity which manifests causal unity of one or other of the types CUn listed above & is of a type (a material universal) instances of which are maximal relative to this criterion of causal unity. (axiom label in BFO2 Reference: [024-001]) object b is an object means: b is a material entity which manifests causal unity of one or other of the types CUn listed above & is of a type (a material universal) instances of which are maximal relative to this criterion of causal unity. (axiom label in BFO2 Reference: [024-001]) gdc GenericallyDependentContinuant The entries in your database are patterns instantiated as quality instances in your hard drive. The database itself is an aggregate of such patterns. When you create the database you create a particular instance of the generically dependent continuant type database. Each entry in the database is an instance of the generically dependent continuant type IAO: information content entity. the pdf file on your laptop, the pdf file that is a copy thereof on my laptop the sequence of this protein molecule; the sequence that is a copy thereof in that protein molecule. A continuant that is dependent on one or other independent continuant bearers. For every instance of A requires some instance of (an independent continuant type) B but which instance of B serves can change from time to time. b is a generically dependent continuant = Def. b is a continuant that g-depends_on one or more other entities. (axiom label in BFO2 Reference: [074-001]) (iff (GenericallyDependentContinuant a) (and (Continuant a) (exists (b t) (genericallyDependsOnAt a b t)))) // axiom label in BFO2 CLIF: [074-001] generically dependent continuant b is a generically dependent continuant = Def. b is a continuant that g-depends_on one or more other entities. (axiom label in BFO2 Reference: [074-001]) (iff (GenericallyDependentContinuant a) (and (Continuant a) (exists (b t) (genericallyDependsOnAt a b t)))) // axiom label in BFO2 CLIF: [074-001] function Function the function of a hammer to drive in nails the function of a heart pacemaker to regulate the beating of a heart through electricity the function of amylase in saliva to break down starch into sugar BFO 2 Reference: In the past, we have distinguished two varieties of function, artifactual function and biological function. These are not asserted subtypes of BFO:function however, since the same function – for example: to pump, to transport – can exist both in artifacts and in biological entities. The asserted subtypes of function that would be needed in order to yield a separate monoheirarchy are not artifactual function, biological function, etc., but rather transporting function, pumping function, etc. A function is a disposition that exists in virtue of the bearer’s physical make-up and this physical make-up is something the bearer possesses because it came into being, either through evolution (in the case of natural biological entities) or through intentional design (in the case of artifacts), in order to realize processes of a certain sort. (axiom label in BFO2 Reference: [064-001]) (forall (x) (if (Function x) (Disposition x))) // axiom label in BFO2 CLIF: [064-001] function A function is a disposition that exists in virtue of the bearer’s physical make-up and this physical make-up is something the bearer possesses because it came into being, either through evolution (in the case of natural biological entities) or through intentional design (in the case of artifacts), in order to realize processes of a certain sort. (axiom label in BFO2 Reference: [064-001]) (forall (x) (if (Function x) (Disposition x))) // axiom label in BFO2 CLIF: [064-001] material MaterialEntity a flame a forest fire a human being a hurricane a photon a puff of smoke a sea wave a tornado an aggregate of human beings. an energy wave an epidemic the undetached arm of a human being An independent continuant that is spatially extended whose identity is independent of that of other entities and can be maintained through time. BFO 2 Reference: Material entities (continuants) can preserve their identity even while gaining and losing material parts. Continuants are contrasted with occurrents, which unfold themselves in successive temporal parts or phases [60 BFO 2 Reference: Object, Fiat Object Part and Object Aggregate are not intended to be exhaustive of Material Entity. Users are invited to propose new subcategories of Material Entity. BFO 2 Reference: ‘Matter’ is intended to encompass both mass and energy (we will address the ontological treatment of portions of energy in a later version of BFO). A portion of matter is anything that includes elementary particles among its proper or improper parts: quarks and leptons, including electrons, as the smallest particles thus far discovered; baryons (including protons and neutrons) at a higher level of granularity; atoms and molecules at still higher levels, forming the cells, organs, organisms and other material entities studied by biologists, the portions of rock studied by geologists, the fossils studied by paleontologists, and so on.Material entities are three-dimensional entities (entities extended in three spatial dimensions), as contrasted with the processes in which they participate, which are four-dimensional entities (entities extended also along the dimension of time).According to the FMA, material entities may have immaterial entities as parts – including the entities identified below as sites; for example the interior (or ‘lumen’) of your small intestine is a part of your body. BFO 2.0 embodies a decision to follow the FMA here. A material entity is an independent continuant that has some portion of matter as proper or improper continuant part. (axiom label in BFO2 Reference: [019-002]) Every entity which has a material entity as continuant part is a material entity. (axiom label in BFO2 Reference: [020-002]) every entity of which a material entity is continuant part is also a material entity. (axiom label in BFO2 Reference: [021-002]) (forall (x) (if (MaterialEntity x) (IndependentContinuant x))) // axiom label in BFO2 CLIF: [019-002] (forall (x) (if (and (Entity x) (exists (y t) (and (MaterialEntity y) (continuantPartOfAt x y t)))) (MaterialEntity x))) // axiom label in BFO2 CLIF: [021-002] (forall (x) (if (and (Entity x) (exists (y t) (and (MaterialEntity y) (continuantPartOfAt y x t)))) (MaterialEntity x))) // axiom label in BFO2 CLIF: [020-002] material entity A material entity is an independent continuant that has some portion of matter as proper or improper continuant part. (axiom label in BFO2 Reference: [019-002]) Every entity which has a material entity as continuant part is a material entity. (axiom label in BFO2 Reference: [020-002]) every entity of which a material entity is continuant part is also a material entity. (axiom label in BFO2 Reference: [021-002]) (forall (x) (if (MaterialEntity x) (IndependentContinuant x))) // axiom label in BFO2 CLIF: [019-002] (forall (x) (if (and (Entity x) (exists (y t) (and (MaterialEntity y) (continuantPartOfAt x y t)))) (MaterialEntity x))) // axiom label in BFO2 CLIF: [021-002] (forall (x) (if (and (Entity x) (exists (y t) (and (MaterialEntity y) (continuantPartOfAt y x t)))) (MaterialEntity x))) // axiom label in BFO2 CLIF: [020-002] immaterial ImmaterialEntity BFO 2 Reference: Immaterial entities are divided into two subgroups:boundaries and sites, which bound, or are demarcated in relation, to material entities, and which can thus change location, shape and size and as their material hosts move or change shape or size (for example: your nasal passage; the hold of a ship; the boundary of Wales (which moves with the rotation of the Earth) [38, 7, 10 immaterial entity Material anatomical entity that is a member of an individual species or is a viral or viroid particle. Melissa Haendel Common Anatomy Reference Onotology - CARO2 organism or virus Melissa Haendel 9/18/11 organism or virus or viroid peptide Amide derived from two or more amino carboxylic acid molecules (the same or different) by formation of a covalent bond from the carbonyl carbon of one to the nitrogen atom of another with formal loss of water. The term is usually applied to structures formed from alpha-amino acids, but it includes those derived from any amino carboxylic acid. X = OH, OR, NH2, NHR, etc. peptide deoxyribonucleic acid High molecular weight, linear polymers, composed of nucleotides containing deoxyribose and linked by phosphodiester bonds; DNA contain the genetic information of organisms. deoxyribonucleic acid molecular entity Any constitutionally or isotopically distinct atom, molecule, ion, ion pair, radical, radical ion, complex, conformer etc., identifiable as a separately distinguishable entity. We are assuming that every molecular entity has to be completely connected by chemical bonds. This excludes protein complexes, which are comprised of minimally two separate molecular entities. We will follow up with Chebi to ensure this is their understanding as well molecular entity nucleic acid A macromolecule made up of nucleotide units and hydrolysable into certain pyrimidine or purine bases (usually adenine, cytosine, guanine, thymine, uracil), D-ribose or 2-deoxy-D-ribose and phosphoric acid. nucleic acid ribonucleic acid High molecular weight, linear polymers, composed of nucleotides containing ribose and linked by phosphodiester bonds; RNA is central to the synthesis of proteins. ribonucleic acid macromolecule A macromolecule is a molecule of high relative molecular mass, the structure of which essentially comprises the multiple repetition of units derived, actually or conceptually, from molecules of low relative molecular mass. polymer macromolecule cell cell PMID:18089833.Cancer Res. 2007 Dec 15;67(24):12018-25. "...Epithelial cells were harvested from histologically confirmed adenocarcinomas .." A material entity of anatomical origin (part of or deriving from an organism) that has as its parts a maximally connected cell compartment surrounded by a plasma membrane. cell cell cultured cell A cell in vitro that is or has been maintained or propagated as part of a cell culture. cultured cell B cell A lymphocyte of B lineage with the phenotype CD19-positive, CD20-positive, and capable of B cell mediated immunity. B cell lymphocyte A lymphocyte is a leukocyte commonly found in the blood and lymph that has the characteristics of a large nucleus, a neutral staining cytoplasm, and prominent heterochromatin. lymphocyte experimentally modified cell in vitro A cell in vitro that has undergone physical changes as a consequence of a deliberate and specific experimental procedure. experimentally modified cell in vitro mononuclear cell A leukocyte with a single non-segmented nucleus in the mature form. mononuclear cell A feature that has been constructed by deliberate human effort. "constructed" should probably be made something like a quality and this class obsoleted or filled only by inference constructed feature construction A feature that has been constructed by deliberate human effort. MA:ma A material entity which determines an environmental system. ENVO ENVO:00002297 A material entity determines an environmental system when its removal would cause the collapse of that system. For example, a seamount determines a seamount environment, acting as its 'hub'. This class is currently being aligned to the Basic Formal Ontology. Following this alignment, its definition and the definitions of its subclasses will be revised. environmental feature A material entity which determines an environmental system. DOI:10.1186/2041-1480-4-43 NM:nm ORCID:0000-0002-4366-3088 A self-contained constructed feature used by one or more households as a home, such as a house, apartment, mobile home, houseboat or other 'substantial' structure. A dwelling typically includes nearby outbuildings, sheds etc. within the curtilage of the property, excluding any 'open fields beyond'. It has significance in relation to search and seizure, conveyancing of real property, burglary, trespass, and land use planning. See https://github.com/EnvironmentOntology/envo/issues/264 for discussion. This definition needs a lot of clean up and links to household and related classes must be made to form logical definitions for inference to work. Subclasses will be added by inference. human dwelling A self-contained constructed feature used by one or more households as a home, such as a house, apartment, mobile home, houseboat or other 'substantial' structure. A dwelling typically includes nearby outbuildings, sheds etc. within the curtilage of the property, excluding any 'open fields beyond'. It has significance in relation to search and seizure, conveyancing of real property, burglary, trespass, and land use planning. https://en.wikipedia.org/wiki/Dwelling accessed 11/25/2015 A material part of an astronomical body. envoAstro envoPolar astronomical body part molecular_function A molecular process that can be carried out by the action of a single macromolecular machine, usually via direct physical interactions with other molecular entities. Function in this sense denotes an action, or activity, that a gene product (or a complex) performs. These actions are described from two distinct but related perspectives: (1) biochemical activity, and (2) role as a component in a larger system/process. GO:molecular_function catalytic activity Catalysis of a biochemical reaction at physiological temperatures. In biologically catalyzed reactions, the reactants are known as substrates, and the catalysts are naturally occurring macromolecular substances known as enzymes. Enzymes possess specific binding sites for substrates, and are usually composed wholly or largely of protein, but RNA that has catalytic activity (ribozyme) is often also regarded as enzymatic. catalytic activity RNA-directed DNA polymerase activity Catalysis of the reaction: deoxynucleoside triphosphate + DNA(n) = diphosphate + DNA(n+1). Catalyzes RNA-template-directed extension of the 3'- end of a DNA strand by one deoxynucleotide at a time. RNA-directed DNA polymerase activity protein-containing complex A ribosome is a protein complex. A stable assembly of two or more macromolecules, i.e. proteins, nucleic acids, carbohydrates or lipids, in which at least one component is a protein and the constituent parts function together. protein complex protein-containing complex measurement unit label Examples of measurement unit labels are liters, inches, weight per volume. A measurement unit label is as a label that is part of a scalar measurement datum and denotes a unit of measure. 2009-03-16: provenance: a term measurement unit was proposed for OBI (OBI_0000176) , edited by Chris Stoeckert and Cristian Cocos, and subsequently moved to IAO where the objective for which the original term was defined was satisfied with the definition of this, different, term. 2009-03-16: review of this term done during during the OBI workshop winter 2009 and the current definition was considered acceptable for use in OBI. If there is a need to modify this definition please notify OBI. PERSON: Alan Ruttenberg PERSON: Melanie Courtot measurement unit label objective specification In the protocol of a ChIP assay the objective specification says to identify protein and DNA interaction. a directive information entity that describes an intended process endpoint. When part of a plan specification the concretization is realized in a planned process in which the bearer tries to effect the world so that the process endpoint is achieved. 2009-03-16: original definition when imported from OBI read: "objective is an non realizable information entity which can serve as that proper part of a plan towards which the realization of the plan is directed." 2014-03-31: In the example of usage ("In the protocol of a ChIP assay the objective specification says to identify protein and DNA interaction") there is a protocol which is the ChIP assay protocol. In addition to being concretized on paper, the protocol can be concretized as a realizable entity, such as a plan that inheres in a person. The objective specification is the part that says that some protein and DNA interactions are identified. This is a specification of a process endpoint: the boundary in the process before which they are not identified and after which they are. During the realization of the plan, the goal is to get to the point of having the interactions, and participants in the realization of the plan try to do that. Answers the question, why did you do this experiment? PERSON: Alan Ruttenberg PERSON: Barry Smith PERSON: Bjoern Peters PERSON: Jennifer Fostel goal specification OBI Plan and Planned Process/Roles Branch OBI_0000217 objective specification Pour the contents of flask 1 into flask 2 a directive information entity that describes an action the bearer will take Alan Ruttenberg OBI Plan and Planned Process branch action specification datum label A label is a symbol that is part of some other datum and is used to either partially define the denotation of that datum or to provide a means for identifying the datum as a member of the set of data with the same label http://www.golovchenko.org/cgi-bin/wnsearch?q=label#4n GROUP: IAO 9/22/11 BP: changed the rdfs:label for this class from 'label' to 'datum label' to convey that this class is not intended to cover all kinds of labels (stickers, radiolabels, etc.), and not even all kind of textual labels, but rather the kind of labels occuring in a datum. datum label software Software is a plan specification composed of a series of instructions that can be interpreted by or directly executed by a processing unit. see sourceforge tracker discussion at http://sourceforge.net/tracker/index.php?func=detail&aid=1958818&group_id=177891&atid=886178 PERSON: Alan Ruttenberg PERSON: Bjoern Peters PERSON: Chris Stoeckert PERSON: Melanie Courtot GROUP: OBI software information carrier In the case of a printed paperback novel the physicality of the ink and of the paper form part of the information bearer. The qualities of appearing black and having a certain pattern for the ink and appearing white for the paper form part of the information carrier in this case. A quality of an information bearer that imparts the information content 12/15/09: There is a concern that some ways that carry information may be processes rather than qualities, such as in a 'delayed wave carrier'. 2014-03-10: We are not certain that all information carriers are qualities. There was a discussion of dropping it. PERSON: Alan Ruttenberg Smith, Ceusters, Ruttenberg, 2000 years of philosophy information carrier data item Data items include counts of things, analyte concentrations, and statistical summaries. a data item is an information content entity that is intended to be a truthful statement about something (modulo, e.g., measurement precision or other systematic errors) and is constructed/acquired by a method which reliably tends to produce (approximately) truthful statements. 2/2/2009 Alan and Bjoern discussing FACS run output data. This is a data item because it is about the cell population. Each element records an event and is typically further composed a set of measurment data items that record the fluorescent intensity stimulated by one of the lasers. 2009-03-16: data item deliberatly ambiguous: we merged data set and datum to be one entity, not knowing how to define singular versus plural. So data item is more general than datum. 2009-03-16: removed datum as alternative term as datum specifically refers to singular form, and is thus not an exact synonym. 2014-03-31: See discussion at http://odontomachus.wordpress.com/2014/03/30/aboutness-objects-propositions/ JAR: datum -- well, this will be very tricky to define, but maybe some information-like stuff that might be put into a computer and that is meant, by someone, to denote and/or to be interpreted by some process... I would include lists, tables, sentences... I think I might defer to Barry, or to Brian Cantwell Smith JAR: A data item is an approximately justified approximately true approximate belief PERSON: Alan Ruttenberg PERSON: Chris Stoeckert PERSON: Jonathan Rees data data item information content entity Examples of information content entites include journal articles, data, graphical layouts, and graphs. A generically dependent continuant that is about some thing. 2014-03-10: The use of "thing" is intended to be general enough to include universals and configurations (see https://groups.google.com/d/msg/information-ontology/GBxvYZCk1oc/-L6B5fSBBTQJ). information_content_entity 'is_encoded_in' some digital_entity in obi before split (040907). information_content_entity 'is_encoded_in' some physical_document in obi before split (040907). Previous. An information content entity is a non-realizable information entity that 'is encoded in' some digital or physical entity. PERSON: Chris Stoeckert OBI_0000142 information content entity An information content entity whose concretizations indicate to their bearer how to realize them in a process. 2009-03-16: provenance: a term realizable information entity was proposed for OBI (OBI_0000337) , edited by the PlanAndPlannedProcess branch. Original definition was "is the specification of a process that can be concretized and realized by an actor" with alternative term "instruction".It has been subsequently moved to IAO where the objective for which the original term was defined was satisfied with the definitionof this, different, term. 2013-05-30 Alan Ruttenberg: What differentiates a directive information entity from an information concretization is that it can have concretizations that are either qualities or realizable entities. The concretizations that are realizable entities are created when an individual chooses to take up the direction, i.e. has the intention to (try to) realize it. 8/6/2009 Alan Ruttenberg: Changed label from "information entity about a realizable" after discussions at ICBO Werner pushed back on calling it realizable information entity as it isn't realizable. However this name isn't right either. An example would be a recipe. The realizable entity would be a plan, but the information entity isn't about the plan, it, once concretized, *is* the plan. -Alan PERSON: Alan Ruttenberg PERSON: Bjoern Peters directive information entity dot plot Dot plot of SSC-H and FSC-H. A dot plot is a report graph which is a graphical representation of data where each data point is represented by a single dot placed on coordinates corresponding to data point values in particular dimensions. person:Allyson Lister person:Chris Stoeckert OBI_0000123 group:OBI dot plot graph A diagram that presents one or more tuples of information by mapping those tuples in to a two dimensional space in a non arbitrary way. PERSON: Lawrence Hunter person:Alan Ruttenberg person:Allyson Lister OBI_0000240 group:OBI graph algorithm PMID: 18378114.Genomics. 2008 Mar 28. LINKGEN: A new algorithm to process data in genetic linkage studies. A plan specification which describes the inputs and output of mathematical functions as well as workflow of execution for achieving an predefined objective. Algorithms are realized usually by means of implementation as computer programs for execution by automata. Philippe Rocca-Serra PlanAndPlannedProcess Branch OBI_0000270 adapted from discussion on OBI list (Matthew Pocock, Christian Cocos, Alan Ruttenberg) algorithm curation status specification The curation status of the term. The allowed values come from an enumerated list of predefined terms. See the specification of these instances for more detailed definitions of each enumerated value. Better to represent curation as a process with parts and then relate labels to that process (in IAO meeting) PERSON:Bill Bug GROUP:OBI:<http://purl.obolibrary.org/obo/obi> OBI_0000266 curation status specification data format specification A data format specification is the information content borne by the document published defining the specification. Example: The ISO document specifying what encompasses an XML document; The instructions in a XSD file 2009-03-16: provenance: term imported from OBI_0000187, which had original definition "A data format specification is a plan which organizes information. Example: The ISO document specifying what encompasses an XML document; The instructions in a XSD file" PERSON: Alan Ruttenberg PlanAndPlannedProcess Branch OBI branch derived OBI_0000187 data format specification data set Intensity values in a CEL file or from multiple CEL files comprise a data set (as opposed to the CEL files themselves). A data item that is an aggregate of other data items of the same type that have something in common. Averages and distributions can be determined for data sets. 2009/10/23 Alan Ruttenberg. The intention is that this term represent collections of like data. So this isn't for, e.g. the whole contents of a cel file, which includes parameters, metadata etc. This is more like java arrays of a certain rather specific type 2014-05-05: Data sets are aggregates and thus must include two or more data items. We have chosen not to add logical axioms to make this restriction. person:Allyson Lister person:Chris Stoeckert OBI_0000042 group:OBI data set image An image is an affine projection to a two dimensional surface, of measurements of some quality of an entity or entities repeated at regular intervals across a spatial range, where the measurements are represented as color and luminosity on the projected on surface. person:Alan Ruttenberg person:Allyson person:Chris Stoeckert OBI_0000030 group:OBI image data about an ontology part is a data item about a part of an ontology, for example a term Person:Alan Ruttenberg data about an ontology part plan specification PMID: 18323827.Nat Med. 2008 Mar;14(3):226.New plan proposed to help resolve conflicting medical advice. A directive information entity with action specifications and objective specifications as parts that, when concretized, is realized in a process in which the bearer tries to achieve the objectives by taking the actions specified. 2009-03-16: provenance: a term a plan was proposed for OBI (OBI_0000344) , edited by the PlanAndPlannedProcess branch. Original definition was " a plan is a specification of a process that is realized by an actor to achieve the objective specified as part of the plan". It has been subsequently moved to IAO where the objective for which the original term was defined was satisfied with the definitionof this, different, term. 2014-03-31: A plan specification can have other parts, such as conditional specifications. Alternative previous definition: a plan is a set of instructions that specify how an objective should be achieved Alan Ruttenberg OBI Plan and Planned Process branch OBI_0000344 2/3/2009 Comment from OBI review. Action specification not well enough specified. Conditional specification not well enough specified. Question whether all plan specifications have objective specifications. Request that IAO either clarify these or change definitions not to use them plan specification measurement datum Examples of measurement data are the recoding of the weight of a mouse as {40,mass,"grams"}, the recording of an observation of the behavior of the mouse {,process,"agitated"}, the recording of the expression level of a gene as measured through the process of microarray experiment {3.4,luminosity,}. A measurement datum is an information content entity that is a recording of the output of a measurement such as produced by a device. 2/2/2009 is_specified_output of some assay? person:Chris Stoeckert OBI_0000305 group:OBI measurement datum material information bearer A page of a paperback novel with writing on it. The paper itself is a material information bearer, the pattern of ink is the information carrier. a brain a hard drive A material entity in which a concretization of an information content entity inheres. GROUP: IAO material information bearer histogram A histogram is a report graph which is a statistical description of a distribution in terms of occurrence frequencies of different event classes. PERSON:Chris Stoeckert PERSON:James Malone PERSON:Melanie Courtot GROUP:OBI histogram heatmap A heatmap is a report graph which is a graphical representation of data where the values taken by a variable(s) are shown as colors in a two-dimensional map. PERSON:Chris Stoeckert PERSON:James Malone PERSON:Melanie Courtot GROUP:OBI heatmap dendrogram Dendrograms are often used in computational biology to illustrate the clustering of genes. A dendrogram is a report graph which is a tree diagram frequently used to illustrate the arrangement of the clusters produced by a clustering algorithm. PERSON:Chris Stoeckert PERSON:James Malone PERSON:Melanie Courtot WEB: http://en.wikipedia.org/wiki/Dendrogram dendrogram scatter plot Comparison of gene expression values in two samples can be displayed in a scatter plot A scatterplot is a graph which uses Cartesian coordinates to display values for two variables for a set of data. The data is displayed as a collection of points, each having the value of one variable determining the position on the horizontal axis and the value of the other variable determining the position on the vertical axis. PERSON:Chris Stoeckert PERSON:James Malone PERSON:Melanie Courtot scattergraph WEB: http://en.wikipedia.org/wiki/Scatterplot scatter plot A photograph is created by projecting an image onto a photosensitive surface such as a chemically treated plate or film, CCD receptor, etc. PERSON:Alan Ruttenberg PERSON:Joanne Luciano PERSON:Melanie Courtot WEB: http://en.wiktionary.org/wiki/photograph photograph photographic print A photographic print is a material entity upon which a photograph generically depends. PERSON:Alan Ruttenberg PERSON:Melanie Courtot photographic print obsolescence reason specification The reason for which a term has been deprecated. The allowed values come from an enumerated list of predefined terms. See the specification of these instances for more detailed definitions of each enumerated value. The creation of this class has been inspired in part by Werner Ceusters' paper, Applying evolutionary terminology auditing to the Gene Ontology. PERSON: Alan Ruttenberg PERSON: Melanie Courtot obsolescence reason specification figure Any picture, diagram or table An information content entity consisting of a two dimensional arrangement of information content entities such that the arrangement itself is about something. PERSON: Lawrence Hunter figure diagram A molecular structure ribbon cartoon showing helices, turns and sheets and their relations to each other in space. A figure that expresses one or more propositions PERSON: Lawrence Hunter diagram document A journal article, patent application, laboratory notebook, or a book A collection of information content entities intended to be understood together as a whole PERSON: Lawrence Hunter document The Basic Formal Ontology ontology makes a distinction between Universals and defined classes, where the formal are "natural kinds" and the latter arbitrary collections of entities. A denotator type indicates how a term should be interpreted from an ontological perspective. Alan Ruttenberg Barry Smith, Werner Ceusters denotator type I have placed this under 'data about an ontology part', but this can be discussed. I think this is OK if 'part' is interpreted reflexively, as an ontology module is the whole ontology rather than part of it. ontology file This class and it's subclasses are applied to OWL ontologies. Using an rdf:type triple will result in problems with OWL-DL. I propose that dcterms:type is instead used to connect an ontology URI with a class from this hierarchy. The class hierarchy is not disjoint, so multiple assertions can be made about a single ontology. cjm 2018-05-20T20:55:03Z ontology module An ontology module that comprises only of asserted axioms local to the ontology, excludes import directives, and excludes axioms or declarations from external ontologies. cjm 2018-05-20T20:55:30Z base ontology module An ontology module that is intended to be directly edited, typically managed in source control, and typically not intended for direct consumption by end-users. source ontology module cjm 2018-05-20T20:55:47Z editors ontology module An ontology module that is intended to be the primary release product and the one consumed by the majority of tools. TODO: Add logical axioms that state that a main release ontology module is derived from (directly or indirectly) an editors module cjm 2018-05-20T20:56:13Z main release ontology module An ontology module that consists entirely of axioms that connect or bridge two distinct ontology modules. For example, the Uberon-to-ZFA bridge module. cjm 2018-05-20T20:56:23Z bridge ontology module A subset ontology module that is intended to be imported from another ontology. TODO: add axioms that indicate this is the output of a module extraction process. import file cjm 2018-05-20T20:56:47Z import ontology module An ontology module that is extracted from a main ontology module and includes only a subset of entities or axioms. ontology slim subset ontology cjm 2018-05-20T20:58:11Z subset ontology module A subset ontology that is intended as a whitelist for curators using the ontology. Such a subset will exclude classes that curators should not use for curation. cjm 2018-05-20T20:58:38Z curation subset ontology module An ontology module that is intended for usage in analysis or discovery applications. cjm 2018-05-20T20:58:49Z analysis subset ontology module A subset ontology that is largely comprised of a single layer or strata in an ontology class hierarchy. The purpose is typically for rolling up for visualization. The classes in the layer need not be disjoint. ribbon subset cjm 2018-05-20T20:59:19Z single layer subset ontology module A subset of an ontology that is intended to be excluded for some purpose. For example, a blacklist of classes. antislim cjm 2018-05-20T20:59:57Z exclusion subset ontology module An imported ontology module that is derived from an external ontology. Derivation methods include the OWLAPI SLME approach. external import cjm 2018-05-20T21:00:14Z external import ontology module A subset ontology that is crafted to either include or exclude a taxonomic grouping of species. taxon subset cjm 2018-05-20T21:14:16Z species subset ontology module An ontology module that contains axioms generated by a reasoner. The generated axioms are typically direct SubClassOf axioms, but other possibilities are available. cjm 2018-05-20T21:20:33Z reasoned ontology module An ontology module that is automatically generated, for example via a SPARQL query or via template and a CSV. TODO: Add axioms (using PROV-O?) that indicate this is the output-of some reasoning process cjm 2018-05-20T21:21:12Z generated ontology module An ontology module that is automatically generated from a template specification and fillers for slots in that template. cjm 2018-05-20T21:21:21Z template generated ontology module cjm 2018-05-20T21:28:15Z taxonomic bridge ontology module cjm 2018-05-22T04:15:54Z ontology module subsetted by expressivity A subset ontology that is designed for basic applications to continue to make certain simplifying assumptions; many of these simplifying assumptions were based on the initial version of the Gene Ontology, and have become enshrined in many popular and useful tools such as term enrichment tools. Examples of such assumptions include: traversing the ontology graph ignoring relationship types using a naive algorithm will not lead to cycles (i.e. the ontology is a DAG); every referenced term is declared in the ontology (i.e. there are no dangling clauses). An ontology is OBO Basic if and only if it has the following characteristics: DAG Unidirectional No Dangling Clauses Fully Asserted Fully Labeled No equivalence axioms Singly labeled edges No qualifier lists No disjointness axioms No owl-axioms header No imports cjm 2018-05-22T04:16:10Z obo basic subset ontology module cjm 2018-05-22T04:16:28Z ontology module subsetted by OWL profile cjm 2018-05-22T04:16:48Z EL++ ontology module Viruses GC_ID:1 ncbi_taxonomy Vira Viridae viruses Viruses Vira Viridae viruses GC_ID:1 ncbi_taxonomy Teleostomi Euteleostomi bony vertebrates NCBITaxon:40673 GC_ID:1 bony vertebrates ncbi_taxonomy Euteleostomi bony vertebrates GC_ID:1 ncbi_taxonomy biota cellular organisms biota GC_ID:1 ncbi_taxonomy Dipnotetrapodomorpha GC_ID:1 PMID:11743200 PMID:11791233 ncbi_taxonomy Boreotheria Boreoeutheria Boreotheria Bacteria eubacteria GC_ID:11 PMID:10425795 PMID:10425796 PMID:10425797 PMID:10490293 PMID:10843050 PMID:10939651 PMID:10939673 PMID:10939677 PMID:11211268 PMID:11321083 PMID:11321113 PMID:11411719 PMID:11540071 PMID:11542017 PMID:11542087 PMID:11760965 PMID:12054223 PMID:2112744 PMID:270744 PMID:8123559 PMID:8590690 PMID:9103655 PMID:9336922 eubacteria ncbi_taxonomy Monera Procaryotae Prokaryota Prokaryotae bacteria prokaryote prokaryotes Bacteria eubacteria Monera Procaryotae Prokaryota Prokaryotae bacteria prokaryote prokaryotes GC_ID:1 ncbi_taxonomy Homo/Pan/Gorilla group Homininae Homo/Pan/Gorilla group Archaea GC_ID:11 PMID:10425795 PMID:10425796 PMID:10425797 PMID:10490293 PMID:10843050 PMID:10939651 PMID:10939673 PMID:10939677 PMID:11211268 PMID:11321083 PMID:11321113 PMID:11411719 PMID:11540071 PMID:11541975 PMID:11542064 PMID:11542149 PMID:11760965 PMID:12054223 PMID:2112744 PMID:25527841 PMID:270744 PMID:8123559 PMID:8590690 PMID:9103655 PMID:9336922 ncbi_taxonomy Archaebacteria Mendosicutes Metabacteria Monera Procaryotae Prokaryota Prokaryotae archaea prokaryote prokaryotes Archaea Archaebacteria Mendosicutes Metabacteria Monera Procaryotae Prokaryota Prokaryotae archaea prokaryote prokaryotes Eukaryota eucaryotes eukaryotes GC_ID:1 PMID:23020233 eucaryotes eukaryotes ncbi_taxonomy Eucarya Eucaryotae Eukarya Eukaryotae eukaryotes Eukaryota eucaryotes eukaryotes Eucarya Eucaryotae Eukarya Eukaryotae eukaryotes Euarchontoglires GC_ID:1 PMID:11214319 PMID:12082125 PMID:12878460 PMID:15522813 ncbi_taxonomy Euarchontoglires GC_ID:1 ncbi_taxonomy Anthropoidea Simiiformes Anthropoidea GC_ID:1 ape apes ncbi_taxonomy Hominoidea ape apes Tetrapoda tetrapods GC_ID:1 tetrapods ncbi_taxonomy Tetrapoda tetrapods Amniota amniotes GC_ID:1 amniotes ncbi_taxonomy Amniota amniotes GC_ID:1 Theria ncbi_taxonomy Theria <Mammalia> Theria Opisthokonta GC_ID:1 ncbi_taxonomy Fungi/Metazoa group opisthokonts Opisthokonta Fungi/Metazoa group opisthokonts GC_ID:1 metazoans multicellular animals ncbi_taxonomy Animalia animals Metazoa metazoans multicellular animals Animalia animals Bilateria GC_ID:1 ncbi_taxonomy Bilateria GC_ID:1 deuterostomes ncbi_taxonomy Deuterostomia deuterostomes GC_ID:1 ncbi_taxonomy Haplorrhini Mammalia mammals GC_ID:1 mammals ncbi_taxonomy mammals Mammalia mammals mammals GC_ID:1 ncbi_taxonomy Eumetazoa GC_ID:1 chordates ncbi_taxonomy chordates Chordata chordates chordates Vertebrata <Metazoa> Vertebrata vertebrates GC_ID:1 Vertebrata vertebrates ncbi_taxonomy vertebrates Vertebrata <Metazoa> Vertebrata vertebrates vertebrates GC_ID:1 Gnathostomata jawed vertebrates ncbi_taxonomy Gnathostomata <vertebrate> Gnathostomata jawed vertebrates GC_ID:1 ncbi_taxonomy Sarcopterygii GC_ID:1 Craniata ncbi_taxonomy Craniata <chordata> Craniata GC_ID:1 eutherian mammals placental mammals placentals ncbi_taxonomy Placentalia placentals Eutheria eutherian mammals placental mammals placentals Placentalia placentals GC_ID:1 primate ncbi_taxonomy Primata primates Primates primate Primata primates GC_ID:1 ncbi_taxonomy Catarrhini GC_ID:1 great apes ncbi_taxonomy Pongidae Hominidae great apes Pongidae GC_ID:1 humans ncbi_taxonomy Homo humans Homo sapiens human human being man GC_ID:1 human man ncbi_taxonomy Home sapiens Homo sampiens Homo sapeins Homo sapian Homo sapians Homo sapien Homo sapience Homo sapiense Homo sapients Homo sapines Homo spaiens Homo spiens Humo sapiens Homo sapiens human man Home sapiens Homo sampiens Homo sapeins Homo sapian Homo sapians Homo sapien Homo sapience Homo sapiense Homo sapients Homo sapines Homo spaiens Homo spiens Humo sapiens planned process planned process Injecting mice with a vaccine in order to test its efficacy A processual entity that realizes a plan which is the concretization of a plan specification. 'Plan' includes a future direction sense. That can be problematic if plans are changed during their execution. There are however implicit contingencies for protocols that an agent has in his mind that can be considered part of the plan, even if the agent didn't have them in mind before. Therefore, a planned process can diverge from what the agent would have said the plan was before executing it, by adjusting to problems encountered during execution (e.g. choosing another reagent with equivalent properties, if the originally planned one has run out.) We are only considering successfully completed planned processes. A plan may be modified, and details added during execution. For a given planned process, the associated realized plan specification is the one encompassing all changes made during execution. This means that all processes in which an agent acts towards achieving some objectives is a planned process. Bjoern Peters branch derived 6/11/9: Edited at workshop. Used to include: is initiated by an agent This class merges the previously separated objective driven process and planned process, as they the separation proved hard to maintain. (1/22/09, branch call) planned process regulator role Fact sheet - Regulating the companies The role of the regulator. Ofwat is the economic regulator of the water and sewerage industry in England and Wales. http://www.ofwat.gov.uk/aptrix/ofwat/publish.nsf/Content/roleofregulator_factsheet170805 a regulatory role involved with making and/or enforcing relevant legislation and governmental orders Person:Jennifer Fostel regulator OBI regulator role regulatory role Regulatory agency, Ethics committee, Approval letter; example: Browse these EPA Regulatory Role subtopics http://www.epa.gov/ebtpages/enviregulatoryrole.html Feb 29, 2008 a role which inheres in material entities and is realized in the processes of making, enforcing or being defined by legislation or orders issued by a governmental body. GROUP: Role branch OBI, CDISC govt agents responsible for creating regulations; proxies for enforcing regulations. CDISC definition: regulatory authorities. Bodies having the power to regulate. NOTE: In the ICH GCP guideline the term includes the authorities that review submitted clinical data and those that conduct inspections. These bodies are sometimes referred to as competent regulatory role material supplier role Jackson Labs is an organization which provide mice as experimental material a role realized through the process of supplying materials such as animal subjects, reagents or other materials used in an investigation. Supplier role is a special kind of service, e.g. biobank PERSON:Jennifer Fostel material provider role supplier material supplier role classified data set A data set that is produced as the output of a class prediction data transformation and consists of a data set with assigned class labels. PERSON: James Malone PERSON: Monnie McGee data set with assigned class labels classified data set processed material Examples include gel matrices, filter paper, parafilm and buffer solutions, mass spectrometer, tissue samples Is a material entity that is created or changed during material processing. PERSON: Alan Ruttenberg processed material evaluant role When a specimen of blood is assayed for glucose concentration, the blood has the evaluant role. When measuring the mass of a mouse, the evaluant is the mouse. When measuring the time of DNA replication, the evaluant is the DNA. When measuring the intensity of light on a surface, the evaluant is the light source. a role that inheres in a material entity that is realized in an assay in which data is generated about the bearer of the evaluant role Role call - 17nov-08: JF and MC think an evaluant role is always specified input of a process. Even in the case where we have an assay taking blood as evaluant and outputting blood, the blood is not the specified output at the end of the assay (the concentration of glucose in the blood is) examples of features that could be described in an evaluant: quality.... e.g. "contains 10 pg/ml IL2", or "no glucose detected") GROUP: Role Branch OBI Feb 10, 2009. changes after discussion at OBI Consortium Workshop Feb 2-6, 2009. accepted as core term. evaluant role assay Assay the wavelength of light emitted by excited Neon atoms. Count of geese flying over a house. A planned process with the objective to produce information about the material entity that is the evaluant, by physically examining it or its proxies. 12/3/12: BP: the reference to the 'physical examination' is included to point out that a prediction is not an assay, as that does not require physical examiniation. PlanAndPlannedProcess Branch measuring scientific observation OBI branch derived study assay any method assay culture medium A growth medium or culture medium is a substance in which microorganisms or cells can grow. Wikipedia, growth medium, Feb 29, 2008 a processed material that provides the needed nourishment for microorganisms or cells grown in vitro. changed from a role to a processed material based on on Aug 22, 2011 dev call. Details see the tracker item: http://sourceforge.net/tracker/?func=detail&aid=3325270&group_id=177891&atid=886178 Modification made by JZ. Person: Jennifer Fostel, Jie Zheng OBI culture medium material processing A cell lysis, production of a cloning vector, creating a buffer. A planned process which results in physical changes in a specified input material PERSON: Bjoern Peters PERSON: Frank Gibson PERSON: Jennifer Fostel PERSON: Melanie Courtot PERSON: Philippe Rocca Serra material transformation OBI branch derived material processing specimen role liver section; a portion of a culture of cells; a nemotode or other animal once no longer a subject (generally killed); portion of blood from a patient. a role borne by a material entity that is gained during a specimen collection process and that can be realized by use of the specimen in an investigation 22Jun09. The definition includes whole organisms, and can include a human. The link between specimen role and study subject role has been removed. A specimen taken as part of a case study is not considered to be a population representative, while a specimen taken as representing a population, e.g. person taken from a cohort, blood specimen taken from an animal) would be considered a population representative and would also bear material sample role. Note: definition is in specimen creation objective which is defined as an objective to obtain and store a material entity for potential use as an input during an investigation. blood taken from animal: animal continues in study, whereas blood has role specimen. something taken from study subject, leaves the study and becomes the specimen. parasite example - when parasite in people we study people, people are subjects and parasites are specimen - when parasite extracted, they become subject in the following study specimen can later be subject. GROUP: Role Branch material sample OBI specimen role imaging assay An assay that produces a picture of an entity. PlanAndPlannedProcess Branch OBI branch derived imaging assay organization PMID: 16353909.AAPS J. 2005 Sep 22;7(2):E274-80. Review. The joint food and agriculture organization of the United Nations/World Health Organization Expert Committee on Food Additives and its role in the evaluation of the safety of veterinary drug residues in foods. An entity that can bear roles, has members, and has a set of organization rules. Members of organizations are either organizations themselves or individual people. Members can bear specific organization member roles that are determined in the organization rules. The organization rules also determine how decisions are made on behalf of the organization by the organization members. BP: The definition summarizes long email discussions on the OBI developer, roles, biomaterial and denrie branches. It leaves open if an organization is a material entity or a dependent continuant, as no consensus was reached on that. The current placement as material is therefore temporary, in order to move forward with development. Here is the entire email summary, on which the definition is based: 1) there are organization_member_roles (president, treasurer, branch editor), with individual persons as bearers 2) there are organization_roles (employer, owner, vendor, patent holder) 3) an organization has a charter / rules / bylaws, which specify what roles there are, how they should be realized, and how to modify the charter/rules/bylaws themselves. It is debatable what the organization itself is (some kind of dependent continuant or an aggregate of people). This also determines who/what the bearer of organization_roles' are. My personal favorite is still to define organization as a kind of 'legal entity', but thinking it through leads to all kinds of questions that are clearly outside the scope of OBI. Interestingly enough, it does not seem to matter much where we place organization itself, as long as we can subclass it (University, Corporation, Government Agency, Hospital), instantiate it (Affymetrix, NCBI, NIH, ISO, W3C, University of Oklahoma), and have it play roles. This leads to my proposal: We define organization through the statements 1 - 3 above, but without an 'is a' statement for now. We can leave it in its current place in the is_a hierarchy (material entity) or move it up to 'continuant'. We leave further clarifications to BFO, and close this issue for now. PERSON: Alan Ruttenberg PERSON: Bjoern Peters PERSON: Philippe Rocca-Serra PERSON: Susanna Sansone GROUP: OBI organization protocol PCR protocol, has objective specification, amplify DNA fragment of interest, and has action specification describes the amounts of experimental reagents used (e..g. buffers, dNTPS, enzyme), and the temperature and cycle time settings for running the PCR. A plan specification which has sufficient level of detail and quantitative information to communicate it between investigation agents, so that different investigation agents will reliably be able to independently reproduce the process. PlanAndPlannedProcess Branch OBI branch derived + wikipedia (http://en.wikipedia.org/wiki/Protocol_%28natural_sciences%29) study protocol protocol reverse transcriptase enzyme and has_function some GO:0003964 (RNA-directed DNA polymerase activity) person:Melanie Courtot group:OBI reverse transcriptase extract Up-regulation of inflammatory signalings by areca nut extract and role of cyclooxygenase-2 -1195G>a polymorphism reveal risk of oral cancer. Cancer Res. 2008 Oct 15;68(20):8489-98. PMID: 18922923 an extract is a material entity which results from an extraction process PERSON: Philippe Rocca-Serra extracted material GROUP: OBI Biomatrial Branch extract enzyme (protein or rna) or has_part (protein or rna) and has_function some GO:0003824 (catalytic activity) MC: known issue: enzyme doesn't classify under material entity for now as it isn't stated that anything that has_part some material entity is a material entity. If we add as equivalent classes to material entity has_part some material entity and part_of some material entity (each one in his own necessary and sufficient block) Pellet in P3 doesn't classify any more. person: Melanie Courtot GROUP:OBI enzyme assay objective the objective to determine the weight of a mouse. an objective specification to determine a specified type of information about an evaluated entity (the material entity bearing evaluant role) PPPB branch PPPB branch assay objective regulatory agency The US Environmental Protection Agency A regulatory agency is a organization that has responsibility over or for the legislation (acts and regulations) for a given sector of the government. GROUP: OBI Biomaterial Branch WEB: en.wikipedia.org/wiki/Regulator regulatory agency measure function A glucometer measures blood glucose concentration, the glucometer has a measure function. Measure function is a function that is borne by a processed material and realized in a process in which information about some entity is expressed relative to some reference. PERSON: Daniel Schober PERSON: Helen Parkinson PERSON: Melanie Courtot PERSON:Frank Gibson measure function material transformation objective The objective to create a mouse infected with LCM virus. The objective to create a defined solution of PBS. an objective specifiction that creates an specific output object from input materials. PERSON: Bjoern Peters PERSON: Frank Gibson PERSON: Jennifer Fostel PERSON: Melanie Courtot PERSON: Philippe Rocca-Serra artifact creation objective GROUP: OBI PlanAndPlannedProcess Branch material transformation objective manufacturing Manufacturing is a process with the intent to produce a processed material which will have a function for future use. A person or organization (having manufacturer role) is a participant in this process Manufacturing implies reproducibility and responsibility AR This includes a single scientist making a processed material for personal use. PERSON: Bjoern Peters PERSON: Frank Gibson PERSON: Jennifer Fostel PERSON: Melanie Courtot PERSON: Philippe Rocca-Serra GROUP: OBI PlanAndPlannedProcess Branch manufacturing manufacturing objective is the objective to manufacture a material of a certain function (device) PERSON: Bjoern Peters PERSON: Frank Gibson PERSON: Jennifer Fostel PERSON: Melanie Courtot PERSON: Philippe Rocca-Serra GROUP: OBI PlanAndPlannedProcess Branch manufacturing objective manufacturer role With respect to The Accuri C6 Flow Cytometer System, the organization Accuri bears the role manufacturer role. With respect to a transformed line of tissue culture cells derived by a specific lab, the lab whose personnel isolated the cll line bears the role manufacturer role. With respect to a specific antibody produced by an individual scientist, the scientist who purifies, characterizes and distributes the anitbody bears the role manufacturer role. Manufacturer role is a role which inheres in a person or organization and which is realized by a manufacturing process. GROUP: Role Branch OBI manufacturer role material separation objective The objective to obtain multiple aliquots of an enzyme preparation. The objective to obtain cells contained in a sample of blood. is an objective to transform a material entity into spatially separated components. PPPB branch PPPB branch material separation objective clustered data set A clustered data set is the output of a K means clustering data transformation A data set that is produced as the output of a class discovery data transformation and consists of a data set with assigned discovered class labels. PERSON: James Malone PERSON: Monnie McGee data set with assigned discovered class labels AR thinks could be a data item instead clustered data set specimen collection process specimen collection process drawing blood from a patient for analysis, collecting a piece of a plant for depositing in a herbarium, buying meat from a butcher in order to measure its protein content in an investigation A planned process with the objective of collecting a specimen. Note: definition is in specimen creation objective which is defined as an objective to obtain and store a material entity for potential use as an input during an investigation. Philly2013: A specimen collection can have as part a material entity acquisition, such as ordering from a bank. The distinction is that specimen collection necessarily involves the creation of a specimen role. However ordering cell lines cells from ATCC for use in an investigation is NOT a specimen collection, because the cell lines already have a specimen role. Philly2013: The specimen_role for the specimen is created during the specimen collection process. label changed to 'specimen collection process' on 10/27/2014, details see tracker: http://sourceforge.net/p/obi/obi-terms/716/ Bjoern Peters specimen collection 5/31/2012: This process is not necessarily an acquisition, as specimens may be collected from materials already in posession 6/9/09: used at workshop specimen collection process class prediction data transformation A class prediction data transformation (sometimes called supervised classification) is a data transformation that has objective class prediction. James Malone supervised classification data transformation PERSON: James Malone class prediction data transformation sample from organism a material obtained from an organism in order to be a representative of the whole 5/29: This is a helper class for now we need to work on this: Is taking a urine sample a material separation process? If not, we will need to specify what 'taking a sample from organism' entails. We can argue that the objective to obtain a urine sample from a patient is enough to call it a material separation process, but it could dilute what material separation was supposed to be about. sample from organism portioning objective The objective to obtain multiple aliquots of an enzyme preparation. A material separation objective aiming to separate material into multiple portions, each of which contains a similar composition of the input material. portioning objective separation into different composition objective The objective to obtain cells contained in a sample of blood. A material separation objective aiming to separate a material entity that has parts of different types, and end with at least one output that is a material with parts of fewer types (modulo impurities). We should be using has the grain relations or concentrations to distinguish the portioning and other sub-objectives separation into different composition objective specimen collection objective The objective to collect bits of excrement in the rainforest. The objective to obtain a blood sample from a patient. A objective specification to obtain a material entity for potential use as an input during an investigation. Bjoern Peters Bjoern Peters specimen collection objective support vector machine A support vector machine is a data transformation with a class prediction objective based on the construction of a separating hyperplane that maximizes the margin between two data sets of vectors in n-dimensional space. James Malone Ryan Brinkman SVM PERSON: Ryan Brinkman support vector machine decision tree induction objective A decision tree induction objective is a data transformation objective in which a tree-like graph of edges and nodes is created and from which the selection of each branch requires that some type of logical decision is made. James Malone decision tree induction objective decision tree building data transformation A decision tree building data transformation is a data transformation that has objective decision tree induction. James Malone PERSON: James Malone decision tree building data transformation GenePattern software a software that provides access to more than 100 tools for gene expression analysis, proteomics, SNP analysis and common data processing tasks. James Malone Person:Helen Parkinson WEB: http://www.broadinstitute.org/cancer/software/genepattern/ GenePattern software peak matching Peak matching is a data transformation performed on a dataset of a graph of ordered data points (e.g. a spectrum) with the objective of pattern matching local maxima above a noise threshold James Malone Ryan Brinkman PERSON: Ryan Brinkman peak matching k-nearest neighbors A k-nearest neighbors is a data transformation which achieves a class discovery or partitioning objective, in which an input data object with vector y is assigned to a class label based upon the k closest training data set points to y; where k is the largest value that class label is assigned. James Malone k-NN PERSON: James Malone k-nearest neighbors material sample role a role borne by a portion of blood taken to represent all the blood in an organism; the role borne by a population of humans with HIV enrolled in a study taken to represent patients with HIV in general. A material sample role is a specimen role borne by a material entity that is the output of a material sampling process. 7/13/09: Note that this is a relational role: between the sample taken and the 'sampled' material of which the sample is thought to be representative off. material sample role material sampling process A specimen gathering process with the objective to obtain a specimen that is representative of the input material entity sample collection sampling https://github.com/obi-ontology/obi/issues/1002 material sampling process material sample blood drawn from patient to measure his systemic glucose level. A population of humans with HIV enrolled in a study taken to represent patients with HIV in general. A material entity that has the material sample role OBI: workshop sample population sample material sample CART A CART (classification and regression trees) is a data transformation method for producing a classification or regression model with a tree-based structure. James Malone classification and regression trees BOOK: David J. Hand, Heikki Mannila and Padhraic Smyth (2001) Principles of Data Mining. CART statistical model validation Using the expression levels of 20 proteins to predict whether a cancer patient will respond to a drug. A practical goal would be to determine which subset of the 20 features should be used to produce the best predictive model. - wikipedia A data transformation which assesses how the results of a statistical analysis will generalize to an independent data set. Helen Parkinson http://en.wikipedia.org/wiki/Cross-validation_%28statistics%29 statistical model validation material maintenance objective An objective specification maintains some or all of the qualities of a material over time. PERSON: Bjoern Peters PERSON: Bjoern Peters material maintenance objective primary structure of DNA macromolecule a quality of a DNA molecule that inheres in its bearer due to the order of its DNA nucleotide residues. placeholder for SO BP et al primary structure of DNA macromolecule measurement device A ruler, a microarray scanner, a Geiger counter. A device in which a measure function inheres. GROUP:OBI Philly workshop OBI measurement device manufacturer A person or organization that has a manufacturer role manufacturer material maintenance a process with that achieves the objective to maintain some or all of the characteristics of an input material over time material maintenance primary structure of RNA molecule The primary structure of an RNA molecule that is completely defined by the set of its nucleic residue parts and the linear order induced by the peptide bonds that hold them together Person:Bjoern Peters primary structure of RNA molecule service provider role Jackson Lab provides experimental animals, EBI provides training on databases, a core facility provides access to a DNA sequencer. is a role which inheres in a person or organization and is realized in in a planned process which provides access to training, materials or execution of protocols for an organization or person PERSON:Helen Parkinson service provider role processed specimen A tissue sample that has been sliced and stained for a histology study. A blood specimen that has been centrifuged to obtain the white blood cells. A specimen that has been intentionally physically modified. Bjoern Peters Bjoern Peters A tissue sample that has been sliced and stained for a histology study. processed specimen categorical label The labels 'positive' vs. 'negative', or 'left handed', 'right handed', 'ambidexterous', or 'strongly binding', 'weakly binding' , 'not binding', or '+++', '++', '+', '-' etc. form scales of categorical labels. A label that is part of a categorical datum and that indicates the value of the data item on the categorical scale. Bjoern Peters Bjoern Peters categorical label device A voltmeter is a measurement device which is intended to perform some measure function. An autoclave is a device that sterlizes instruments or contaminated waste by applying high temperature and pressure. A material entity that is designed to perform a function in a scientific investigation, but is not a reagent. 2012-12-17 JAO: In common lab usage, there is a distinction made between devices and reagents that is difficult to model. Therefore we have chosen to specifically exclude reagents from the definition of "device", and are enumerating the types of roles that a reagent can perform. 2013-6-5 MHB: The following clarifications are outcomes of the May 2013 Philly Workshop. Reagents are distinguished from devices that also participate in scientific techniques by the fact that reagents are chemical or biological in nature and necessarily participate in some chemical interaction or reaction during the realization of their experimental role. By contrast, devices do not participate in such chemical reactions/interactions. Note that there are cases where devices use reagent components during their operation, where the reagent-device distinction is less clear. For example: (1) An HPLC machine is considered a device, but has a column that holds a stationary phase resin as an operational component. This resin qualifies as a device if it participates purely in size exclusion, but bears a reagent role that is realized in the running of a column if it interacts electrostatically or chemically with the evaluant. The container the resin is in (“the column”) considered alone is a device. So the entire column as well as the entire HPLC machine are devices that have a reagent as an operating part. (2) A pH meter is a device, but its electrode component bears a reagent role in virtue of its interacting directly with the evaluant in execution of an assay. (3) A gel running box is a device that has a metallic lead as a component that participates in a chemical reaction with the running buffer when a charge is passed through it. This metallic lead is considered to have a reagent role as a component of this device realized in the running of a gel. In the examples above, a reagent is an operational component of a device, but the device itself does not realize a reagent role (as bearing a reagent role is not transitive across the part_of relation). In this way, the asserted disjointness between a reagent and device holds, as both roles are never realized in the same bearer during execution of an assay. PERSON: Helen Parkinson instrument OBI development call 2012-12-17. device sequence data example of usage: the representation of a nucleotide sequence in FASTA format used for a sequence similarity search. A measurement datum that representing the primary structure of a macromolecule(it's sequence) sometimes associated with an indicator of confidence of that measurement. Person:Chris Stoeckert GROUP: OBI sequence data questionnaire A document with a set of printed or written questions with a choice of answers, devised for the purposes of a survey or statistical study. JT: It plays a role in collecting data that could be fleshed out more; but I'm thinking it is, in itself, an edited document. JZ: based on textual definition of edited document, it can be defined as N&S. I prefer to leave questionnaire as a document now. We can add more restrictions in the future and use that to determine it is an edited document or not. Need to clarify if this is a document or a directive information entity (or what their connection is)) PERSON: Jessica Turner Merriam-Webster questionnaire nucleic acid extract An extract that is the output of an extraction process in which nucleic acid molecules are isolated from a specimen. PERSON: Jie Zheng UPenn Group nucleic acid extract nucleic acid sequencer An device that is used to determine the order of nucleotides in nucleic acid sequences. PERSON: Erik Segerdell PERSON: Erik Segerdell nucleic acid sequencer protein sequencer An device that is used to determine the order of amino acids in protein sequences. PERSON: Erik Segerdell PERSON: Erik Segerdell protein sequencer specimen from organism A specimen that derives from an anatomical part or substance arising from an organism. Examples of tissue specimen include tissue, organ, physiological system, blood, or body location (arm). PERSON: Chris Stoeckert, Jie Zheng tissue specimen MO_954 organism_part specimen from organism DNA sequence data The part of a FASTA file that contains the letters ACTGGGAA A sequence data item that is about the primary structure of DNA OBI call; Bjoern Peters OBI call; Melanie Courtout 8/29/11 call: This is added after a request from Melanie and Yu. They should review it further. This should be a child of 'sequence data', and as of the current definition will infer there. DNA sequence data cell freezing medium A processed material that serves as a liquid vehicle for freezing cells for long term quiescent stroage, which contains chemicls needed to sustain cell viability across freeze-thaw cycles. PERSON: Matthew Brush cell freezing medium categorical value specification A value specification that is specifies one category out of a fixed number of nominal categories PERSON:Bjoern Peters categorical value specification value specification The value of 'positive' in a classification scheme of "positive or negative"; the value of '20g' on the quantitative scale of mass. An information content entity that specifies a value within a classification scheme or on a quantitative scale. This term is currently a descendant of 'information content entity', which requires that it 'is about' something. A value specification of '20g' for a measurement data item of the mass of a particular mouse 'is about' the mass of that mouse. However there are cases where a value specification is not clearly about any particular. In the future we may change 'value specification' to remove the 'is about' requirement. PERSON:Bjoern Peters value specification cytometry assay An intracellular material detection by flow cytometry assay measuring peforin inside a culture of T cells. An assay that measures properties of cells. IEDB IEDB cytometry assay collection of specimens Blood cells collected from multiple donors over the course of a study. A material entity that has two or more specimens as its parts. Details see tracker: https://sourceforge.net/p/obi/obi-terms/778/ Person: Chris Stoeckert, Jie Zheng OBIB, OBI Biobank collection of specimens histologic grade according to AJCC 7th edition G4: Undifferentiated G1:Well differentiated A categorical value specification that is a histologic grade assigned to a tumor slide specimen according to the American Joint Committee on Cancer (AJCC) 7th Edition grading system. Chris Stoeckert, Helena Ellis NCI BBRB, OBI NCI BBRB histologic grade according to AJCC 7th edition histologic grade according to the Fuhrman Nuclear Grading System A categorical value specification that is a histologic grade assigned to a tumor slide specimen according to the Fuhrman Nuclear Grading System. Chris Stoeckert, Helena Ellis Histologic Grade (Fuhrman Nuclear Grading System) NCI BBRB, OBI NCI BBRB histologic grade according to the Fuhrman Nuclear Grading System histologic grade for ovarian tumor A categorical value specification that is a histologic grade assigned to a ovarian tumor. Chris Stoeckert, Helena Ellis NCI BBRB, OBI NCI BBRB histologic grade for ovarian tumor histologic grade for ovarian tumor according to a two-tier grading system A histologic grade for ovarian tumor that is from a two-tier histological classification of tumors. Chris Stoeckert, Helena Ellis NCI BBRB, OBI NCI BBRB histologic grade for ovarian tumor according to a two-tier grading system histologic grade for ovarian tumor according to the World Health Organization A histologic grade for ovarian tumor that is from a histological classification by the World Health Organization (WHO). Chris Stoeckert, Helena Ellis NCI BBRB, OBI NCI BBRB histologic grade for ovarian tumor according to the World Health Organization pathologic primary tumor stage for colon and rectum according to AJCC 7th edition A categorical value specification that is a pathologic finding about one or more characteristics of colorectal cancer following the rules of the TNM American Joint Committee on Cancer (AJCC) version 7 classification system as they pertain to staging of the primary tumor. TNM pathologic primary tumor findings are based on clinical findings supplemented by histopathologic examination of one or more tissue specimens acquired during surgery. Chris Stoeckert, Helena Ellis pT: Pathologic spread colorectal primary tumor (AJCC 7th Edition) NCI BBRB, OBI NCI BBRB pathologic primary tumor stage for colon and rectum according to AJCC 7th edition pathologic primary tumor stage for lung according to AJCC 7th edition A categorical value specification that is a pathologic finding about one or more characteristics of lung cancer following the rules of the TNM American Joint Committee on Cancer (AJCC) version 7 classification system as they pertain to staging of the primary tumor. TNM pathologic primary tumor findings are based on clinical findings supplemented by histopathologic examination of one or more tissue specimens acquired during surgery. Chris Stoeckert, Helena Ellis pT: Pathologic spread lung primary tumor (AJCC 7th Edition) NCI BBRB, OBI NCI BBRB pathologic primary tumor stage for lung according to AJCC 7th edition pathologic primary tumor stage for kidney according to AJCC 7th edition A categorical value specification that is a pathologic finding about one or more characteristics of renal cancer following the rules of the TNM AJCC v7 classification system as they pertain to staging of the primary tumor. TNM pathologic primary tumor findings are based on clinical findings supplemented by histopathologic examination of one or more tissue specimens acquired during surgery. Chris Stoeckert, Helena Ellis pT: Pathologic spread kidney primary tumor (AJCC 7th Edition) NCI BBRB, OBI NCI BBRB pathologic primary tumor stage for kidney according to AJCC 7th edition pathologic primary tumor stage for ovary according to AJCC 7th edition A categorical value specification that is a pathologic finding about one or more characteristics of ovarian cancer following the rules of the TNM AJCC v7 classification system as they pertain to staging of the primary tumor. TNM pathologic primary tumor findings are based on clinical findings supplemented by histopathologic examination of one or more tissue specimens acquired during surgery. Chris Stoeckert, Helena Ellis pT: Pathologic spread ovarian primary tumor (AJCC 7th Edition) NCI BBRB, OBI NCI BBRB pathologic primary tumor stage for ovary according to AJCC 7th edition pathologic lymph node stage for colon and rectum according to AJCC 7th edition A categorical value specification that is a pathologic finding about one or more characteristics of colorectal cancer following the rules of the TNM AJCC v7 classification system as they pertain to staging of regional lymph nodes. Chris Stoeckert, Helena Ellis pN: Pathologic spread colon lymph nodes (AJCC 7th Edition) NCI BBRB, OBI NCI BBRB pathologic lymph node stage for colon and rectum according to AJCC 7th edition pathologic lymph node stage for lung according to AJCC 7th edition A categorical value specification that is a pathologic finding about one or more characteristics of lung cancer following the rules of the TNM AJCC v7 classification system as they pertain to staging of regional lymph nodes. Chris Stoeckert, Helena Ellis pN: Pathologic spread colon lymph nodes (AJCC 7th Edition) NCI BBRB, OBI NCI BBRB pathologic lymph node stage for lung according to AJCC 7th edition pathologic lymph node stage for kidney according to AJCC 7th edition A categorical value specification that is a pathologic finding about one or more characteristics of renal cancer following the rules of the TNM AJCC v7 classification system as they pertain to staging of regional lymph nodes. Chris Stoeckert, Helena Ellis pN: Pathologic spread kidney lymph nodes (AJCC 7th Edition) NCI BBRB, OBI NCI BBRB pathologic lymph node stage for kidney according to AJCC 7th edition pathologic lymph node stage for ovary according to AJCC 7th edition A categorical value specification that is a pathologic finding about one or more characteristics of ovarian cancer following the rules of the TNM AJCC v7 classification system as they pertain to staging of regional lymph nodes. Chris Stoeckert, Helena Ellis pN: Pathologic spread ovarian lymph nodes (AJCC 7th Edition) NCI BBRB, OBI NCI BBRB pathologic lymph node stage for ovary according to AJCC 7th edition pathologic distant metastases stage for colon according to AJCC 7th edition A categorical value specification that is a pathologic finding about one or more characteristics of colon cancer following the rules of the TNM AJCC v7 classification system as they pertain to distant metastases. TNM pathologic distant metastasis findings are based on clinical findings supplemented by histopathologic examination of one or more tissue specimens acquired during surgery. Chris Stoeckert, Helena Ellis M: colon distant metastases (AJCC 7th Edition) NCI BBRB, OBI NCI BBRB pathologic distant metastases stage for colon according to AJCC 7th edition pathologic distant metastases stage for lung according to AJCC 7th edition A categorical value specification that is a pathologic finding about one or more characteristics of lung cancer following the rules of the TNM AJCC v7 classification system as they pertain to distant metastases. TNM pathologic distant metastasis findings are based on clinical findings supplemented by histopathologic examination of one or more tissue specimens acquired during surgery. Chris Stoeckert, Helena Ellis M: lung distant metastases (AJCC 7th Edition) NCI BBRB, OBI NCI BBRB pathologic distant metastases stage for lung according to AJCC 7th edition pathologic distant metastases stage for kidney according to AJCC 7th edition A categorical value specification that is a pathologic finding about one or more characteristics of renal cancer following the rules of the TNM AJCC v7 classification system as they pertain to distant metastases. TNM pathologic distant metastasis findings are based on clinical findings supplemented by histopathologic examination of one or more tissue specimens acquired during surgery. Chris Stoeckert, Helena Ellis M: kidney distant Metastases (AJCC 7th Edition) NCI BBRB, OBI NCI BBRB pathologic distant metastases stage for kidney according to AJCC 7th edition pathologic distant metastases stage for ovary according to AJCC 7th edition A categorical value specification that is a pathologic finding about one or more characteristics of ovarian cancer following the rules of the TNM AJCC v7 classification system as they pertain to distant metastases. TNM pathologic distant metastasis findings are based on clinical findings supplemented by histopathologic examination of one or more tissue specimens acquired during surgery. Chris Stoeckert, Helena Ellis M: ovarian distant metastases (AJCC 7th Edition) NCI BBRB, OBI NCI BBRB pathologic distant metastases stage for ovary according to AJCC 7th edition clinical tumor stage group according to AJCC 7th edition A categorical value specification that is an assessment of the stage of a cancer according to the American Joint Committee on Cancer (AJCC) v7 staging systems. Chris Stoeckert, Helena Ellis Clinical tumor stage group (AJCC 7th Edition) NCI BBRB, OBI NCI BBRB clinical tumor stage group according to AJCC 7th edition International Federation of Gynecology and Obstetrics cervical cancer stage value specification A categorical value specification that is an assessment of the stage of a gynecologic cancer according to the International Federation of Gynecology and Obstetrics (FIGO) staging systems. Chris Stoeckert, Helena Ellis Clinical FIGO stage NCI BBRB, OBI NCI BBRB International Federation of Gynecology and Obstetrics cervical cancer stage value specification International Federation of Gynecology and Obstetrics ovarian cancer stage value specification A categorical value specification that is a pathologic finding about one or more characteristics of ovarian cancer following the rules of the FIGO classification system. Chris Stoeckert, Helena Ellis Pathologic Tumor Stage Grouping for ovarian cancer (FIGO) NCI BBRB, OBI NCI BBRB International Federation of Gynecology and Obstetrics ovarian cancer stage value specification performance status value specification A categorical value specification that is an assessment of a participant's performance status (general well-being and activities of daily life). Chris Stoeckert, Helena Ellis Performance Status Scale https://en.wikipedia.org/wiki/Performance_status NCI BBRB performance status value specification Eastern Cooperative Oncology Group score value specification A performance status value specification designed by the Eastern Cooperative Oncology Group to assess disease progression and its affect on the daily living abilities of the patient. Chris Stoeckert, Helena Ellis ECOG score NCI BBRB, OBI NCI BBRB Eastern Cooperative Oncology Group score value specification Karnofsky score vaue specification A performance status value specification designed for classifying patients 16 years of age or older by their functional impairment. Chris Stoeckert, Helena Ellis Karnofsky Score NCI BBRB, OBI NCI BBRB Karnofsky score vaue specification Epstein Barr virus transformed B cell PMID: 8777380. Expression of thyroid peroxidase in EBV-transformed B cell lines using adenovirus.Thyroid. 1996 Feb;6(1):23-8. A material entity which results from viral transformation process using EBV as transformation agent when applied to B-cell entity PERSON: Susanna Sansone GROUP: OBI Biomaterial Branch Epstein Barr virus transformed B cell organism animal fungus plant virus A material entity that is an individual living system, such as animal, plant, bacteria or virus, that is capable of replicating or reproducing, growth and maintenance in the right environment. An organism may be unicellular or made up, like humans, of many billions of cells divided into specialized tissues and organs. 10/21/09: This is a placeholder term, that should ideally be imported from the NCBI taxonomy, but the high level hierarchy there does not suit our needs (includes plasmids and 'other organisms') 13-02-2009: OBI doesn't take position as to when an organism starts or ends being an organism - e.g. sperm, foetus. This issue is outside the scope of OBI. GROUP: OBI Biomaterial Branch WEB: http://en.wikipedia.org/wiki/Organism organism specimen A herbarium or museum specimen. A jar of water, the microbes that were filtered from that water, the DNA extracted from those microbes, a subsample of that DNA. Biobanking of blood taken and stored in a freezer for potential future investigations stores specimen. A material entity that has the specimen role. Note: definition is in specimen creation objective which is defined as an objective to obtain and store a material entity for potential use as an input during an investigation. PERSON: James Malone PERSON: Philippe Rocca-Serra GROUP: OBI Biomaterial Branch specimen cultured cell population A cultured cell population applied in an experiment: "293 cells expressing TrkA were serum-starved for 18 hours and then neurotrophins were added for 10 min before cell harvest." (Lee, Ramee, et al. "Regulation of cell survival by secreted proneurotrophins." Science 294.5548 (2001): 1945-1948). A cultured cell population maintained in vitro: "Rat cortical neurons from 15 day embryos are grown in dissociated cell culture and maintained in vitro for 8–12 weeks" (Dichter, Marc A. "Rat cortical neurons in cell culture: culture methods, cell morphology, electrophysiology, and synapse formation." Brain Research 149.2 (1978): 279-293). A processed material comprised of a collection of cultured cells that has been continuously maintained together in culture and shares a common propagation history. 2013-6-5 MHB: This OBI class was formerly called 'cell culture', but label changed and definition updated following CLO alignment efforts in spring 2013, during which the intent of this class was clarified to refer to portions of a culture or line rather than a complete cell culture or line. PERSON:Matthew Brush cell culture sample PERSON:Matthew Brush The extent of a 'cultured cell population' is restricted only in that all cell members must share a propagation history (ie be derived through a common lineage of passages from an initial culture). In being defined in this way, this class can be used to refer to the populations that researchers actually use in the practice of science - ie are the inputs to culturing, experimentation, and sharing. The cells in such populations will be a relatively uniform population as they have experienced similar selective pressures due to their continuous co-propagation. And this population will also have a single passage number, again owing to their common passaging history. Cultured cell populations represent only a collection of cells (ie do not include media, culture dishes, etc), and include populations of cultured unicellular organisms or cultured multicellular organism cells. They can exist under active culture, stored in a quiescent state for future use, or applied experimentally. cultured cell population data transformation The application of a clustering protocol to microarray data or the application of a statistical testing method on a primary data set to determine a p-value. A planned process that produces output data from input data. Elisabetta Manduchi Helen Parkinson James Malone Melanie Courtot Philippe Rocca-Serra Richard Scheuermann Ryan Brinkman Tina Hernandez-Boussard data analysis data processing Branch editors data transformation leave one out cross validation method The authors conducted leave-one-out cross validation to estimate the strength and accuracy of the differentially expressed filtered genes. http://bioinformatics.oxfordjournals.org/cgi/content/abstract/19/3/368 is a data transformation : leave-one-out cross-validation (LOOCV) involves using a single observation from the original sample as the validation data, and the remaining observations as the training data. This is repeated such that each observation in the sample is used once as the validation data 2009-11-10. Tracker: https://sourceforge.net/tracker/?func=detail&aid=2893049&group_id=177891&atid=886178 Person:Helen Parkinson leave one out cross validation method k-means clustering A k-means clustering is a data transformation which achieves a class discovery or partitioning objective, which takes as input a collection of objects (represented as points in multidimensional space) and which partitions them into a specified number k of clusters. The algorithm attempts to find the centers of natural clusters in the data. The most common form of the algorithm starts by partitioning the input points into k initial sets, either at random or using some heuristic data. It then calculates the mean point, or centroid, of each set. It constructs a new partition by associating each point with the closest centroid. Then the centroids are recalculated for the new clusters, and the algorithm repeated by alternate applications of these two steps until convergence, which is obtained when the points no longer switch clusters (or alternatively centroids are no longer changed). Elisabetta Manduchi James Malone Philippe Rocca-Serra WEB: http://en.wikipedia.org/wiki/K-means k-means clustering hierarchical clustering A hierarchical clustering is a data transformation which achieves a class discovery objective, which takes as input data item and builds a hierarchy of clusters. The traditional representation of this hierarchy is a tree (visualized by a dendrogram), with the individual input objects at one end (leaves) and a single cluster containing every object at the other (root). James Malone WEB: http://en.wikipedia.org/wiki/Data_clustering#Hierarchical_clustering hierarchical clustering dimensionality reduction A dimensionality reduction is data partitioning which transforms each input m-dimensional vector (x_1, x_2, ..., x_m) into an output n-dimensional vector (y_1, y_2, ..., y_n), where n is smaller than m. Elisabetta Manduchi James Malone Melanie Courtot Philippe Rocca-Serra data projection PERSON: Elisabetta Manduchi PERSON: James Malone PERSON: Melanie Courtot dimensionality reduction principal components analysis dimensionality reduction A principal components analysis dimensionality reduction is a dimensionality reduction achieved by applying principal components analysis and by keeping low-order principal components and excluding higher-order ones. Elisabetta Manduchi James Malone Melanie Courtot Philippe Rocca-Serra pca data reduction PERSON: Elisabetta Manduchi PERSON: James Malone PERSON: Melanie Courtot principal components analysis dimensionality reduction data visualization Generation of a heatmap from a microarray dataset An planned process that creates images, diagrams or animations from the input data. Elisabetta Manduchi James Malone Melanie Courtot Tina Boussard data encoding as image visualization PERSON: Elisabetta Manduchi PERSON: James Malone PERSON: Melanie Courtot PERSON: Tina Boussard Possible future hierarchy might include this: information_encoding >data_encoding >>image_encoding data visualization data transformation objective normalize objective An objective specification to transformation input data into output data Modified definition in 2013 Philly OBI workshop James Malone PERSON: James Malone data transformation objective partitioning data transformation A partitioning data transformation is a data transformation that has objective partitioning. James Malone PERSON: James Malone partitioning data transformation partitioning objective A k-means clustering which has partitioning objective is a data transformation in which the input data is partitioned into k output sets. A partitioning objective is a data transformation objective where the aim is to generate a collection of disjoint non-empty subsets whose union equals a non-empty input set. Elisabetta Manduchi James Malone PERSON: Elisabetta Manduchi partitioning objective class discovery data transformation A class discovery data transformation (sometimes called unsupervised classification) is a data transformation that has objective class discovery. James Malone clustering data transformation unsupervised classification data transformation PERSON: James Malone class discovery data transformation class discovery objective A class discovery objective (sometimes called unsupervised classification) is a data transformation objective where the aim is to organize input data (typically vectors of attributes) into classes, where the number of classes and their specifications are not known a priori. Depending on usage, the class assignment can be definite or probabilistic. James Malone clustering objective discriminant analysis objective unsupervised classification objective PERSON: Elisabetta Manduchi PERSON: James Malone class discovery objective class prediction objective A class prediction objective (sometimes called supervised classification) is a data transformation objective where the aim is to create a predictor from training data through a machine learning technique. The training data consist of pairs of objects (typically vectors of attributes) and class labels for these objects. The resulting predictor can be used to attach class labels to any valid novel input object. Depending on usage, the prediction can be definite or probabilistic. A classification is learned from the training data and can then be tested on test data. James Malone classification objective supervised classification objective PERSON: Elisabetta Manduchi PERSON: James Malone class prediction objective cross validation objective A cross validation objective is a data transformation objective in which the aim is to partition a sample of data into subsets such that the analysis is initially performed on a single subset, while the other subset(s) are retained for subsequent use in confirming and validating the initial analysis. James Malone rotation estimation objective WEB: http://en.wikipedia.org/wiki/Cross_validation cross validation objective clustered data visualization A data visualization which has input of a clustered data set and produces an output of a report graph which is capable of rendering data of this type. James Malone clustered data visualization extraction nucleic acid extraction using phenol chloroform A material separation in which a desired component of an input material is separated from the remainder Current the output of material processing defined as the molecular entity, main component in the output material entity, rather than the material entity that have grain molecular entity. 'nucleic acid extract' is the output of 'nucleic acid extraction' and has grain 'nucleic acid'. However, the output of 'nucleic acid extraction' is 'nucleic acid' rather than 'nucleic acid extract'. We are aware of this issue and will work it out in the future. Person:Bjoern Peters Philippe Rocca-Serra extraction DNA sequencer ABI 377 DNA Sequencer, ABI 310 DNA Sequencer A DNA sequencer is an instrument that determines the order of deoxynucleotides in deoxyribonucleic acid sequences. Trish Whetzel MO DNA sequencer collecting specimen from organism taking a sputum sample from a cancer patient, taking the spleen from a killed mouse, collecting a urine sample from a patient a process with the objective to obtain a material entity that was part of an organism for potential future use in an investigation PERSON:Bjoern Peters IEDB collecting specimen from organism material component separation Using a cell sorter to separate a mixture of T cells into two fractions; one with surface receptor CD8 and the other lacking the receptor, or purification a material processing in which components of an input material become segregated in space Bjoern Peters IEDB material component separation maintaining cell culture When harvesting blood from a human, isolating T cells, and then limited dilution cloning of the cells, the maintaining_cell_culture step comprises all steps after the initial dilution and plating of the cells into culture, e.g. placing the culture into an incubator, changing or adding media, and splitting a cell culture a protocol application in which cells are kept alive in a defined environment outside of an organism. part of cell_culturing PlanAndPlannedProcess Branch OBI branch derived maintaining cell culture 'establishing cell culture' a process through which a new type of cell culture or cell line is created, either through the isolation and culture of one or more cells from a fresh source, or the deliberate experimental modification of an existing cell culture (e.g passaging a primary culture to become a secondary culture or line, or the immortalization or stable genetic modification of an existing culture or line). PERSON:Matthew Brush PERSON:Matthew Brush A 'cell culture' as used here referes to a new lineage of cells in culture deriving from a single biological source.. New cultures are established through the initial isolation and culturing of cells from an organismal source, or through changes in an existing cell culture or line that result in a new culture with unique characteristics. This can occur through the passaging/selection of a primary culture into a secondary culture or line, or experimental modifications of an existing cell culture or line such as an immortalization process or other stable genetic modification. This class covers establishment of cultures of either multicellular organism cells or unicellular organisms. establishing cell culture sequencing assay The use of the Sanger method of DNA sequencing to determine the order of the nucleotides in a DNA template An assay the uses chemical or biochemical means to infer the sequence of a biomaterial PlanAndPlannedProcess Branch OBI branch derived sequencing assay nucleic acid extraction Phenol / chlorophorm extraction disolvation of protein content folllowed by ethanol precipitation of the nucleic acid fraction over night in the fridge followed by centrifugation to obtain a nucleic acid pellet. a material separation to recover the nucleic acid fraction of an input material PlanAndPlannedProcess Branch OBI branch derived requested by Helen Parkinson for MO. Could be defined class nucleic acid extraction A dependent entity that inheres in a bearer by virtue of how the bearer is related to other entities PATO:0000072 trait quality PATO:0000001 quality A dependent entity that inheres in a bearer by virtue of how the bearer is related to other entities PATOC:GVG behavioral quality An organismal quality inhering in a bearer by virtue of the bearer's behavior aggregate of the responses or reactions or movements in a given situation. behavioral quality physical object quality A quality which inheres in a continuant. PATO:0001237 PATO:0001238 snap:Quality monadic quality of a continuant multiply inhering quality of a physical entity quality of a continuant quality of a single physical entity quality of an object quality of continuant monadic quality of an object monadic quality of continuant quality PATO:0001241 Relational qualities are qualities that hold between multiple entities. Normal (monadic) qualities such as the shape of a eyeball exist purely as a quality of that eyeball. A relational quality such as sensitivity to light is a quality of that eyeball (and connecting nervous system) as it relates to incoming light waves/particles. physical object quality A quality which inheres in a continuant. PATOC:GVG organismal quality A quality that inheres in an entire organism or part of an organism. organismal quality handedness A behavioral quality inhering ina bearer by virtue of the bearer's unequal distribution of fine motor skill between its left and right hands or feet. handedness left handedness Handedness where the organism preferentially uses the left hand or foot for tasks requiring the use of a single hand or foot or a dominant hand or foot. left handedness right handedness Handedness where the organism preferentially uses the right hand or foot for tasks requiring the use of a single hand or foot or a dominant hand or foot. right handedness ambidextrous handedness Handedness where the organism exhibits no overall dominance in the use of right or left hand or foot in the performance of tasks that require one hand or foot or a dominant hand or foot. ambidextrous handedness 2 Examples include: population, community, species (meaning the collection of organisms that makes up a species, not the taxonomic rank), and family. A material entity that consists of two or more organisms, viruses, or viroids. group of organism organism collection May be of the same or different species. collection of organisms A collection of organisms that has as parts every organism of given species and no organisms of any other species. At the moment there is no way to specify in an OWL axiom that the collection includes every individual of a species. This should be added, if possible. This term is neutral with respect to which organisms are included in a species. Membership will depend on the species concept and the taxonomic assertions used to define the species. These criteria must be specified by the user. species as a collection of organisms 1 2 A material entity that has as parts two or more organisms, viruses, or viroids of the same species and no members of any other species. collection of organisms of the same species single-species collection of organisms 1 An organismal entity that consists of one or more people who live in the same dwelling and also share at meals or living accommodation, and may consist of a single family or some other grouping of people. Person: Jie Zheng WEB: http://en.wikipedia.org/wiki/Household household 2 A collection of organisms of the same species that has as members only humans. human community human population collection of humans A household in which the majority of the income of its members is derived from agricultural activities. This is a more narrow definition in which the majority of income of a house comes from agricultural activities, as opposed to the broad definition in which any income comes from agricultural activities. The narrow definition was chosen to be consistent with the SDGIO (UN Sustainable Development Goals) which requested this term. agricultural household A material entity that is one or more organisms, viruses or viroids. organismal entity protein antithrombin III is a protein An amino acid chain that is produced de novo by ribosome-mediated translation of a genetically-encoded mRNA. protein region A sequence_feature with an extent greater than zero. A nucleotide region is composed of bases and a polypeptide region is composed of amino acids. primary structure of sequence macromolecule sequence region material anatomical entity Anatomical entity that has mass. material anatomical entity anatomical cluster Anatomical group that has its parts adjacent to one another. anatomical cluster length unit A unit which is a standard measure of the distance between two points. length unit mass unit A unit which is a standard measure of the amount of matter/energy of a physical object. mass unit time unit A unit which is a standard measure of the dimension in which events occur in sequence. time unit temperature unit A unit which is a standard measure of the average kinetic energy of the particles in a sample of matter. temperature unit substance unit A unit which is a standardised quantity of an element or compound with uniform composition. substance unit concentration unit A unit which represents a standard measurement of how much of a given substance there is mixed with another substance. concentration unit volume unit A unit which is a standard measure of the amount of space occupied by any substance, whether solid, liquid, or gas. volume unit frequency unit A unit which is a standard measure of the number of repetitive actions in a particular time. frequency unit volumetric flow rate unit A unit which is a standard measure of the volume of fluid which passes through a given surface per unit time . volumetric flow rate unit rate unit A unit which represents a standard measurement occurrence of a process per unit time. rate unit A museum specimen that serves as evidence for a taxonomic identification process bears an evidence role. A role that is borne by some entity as a result of the entity providing evidence to support an assertion. Will be replaced by an external ontology class. obsolete evidence role true An evidence role that persists through time. Could add relation that persistant evidence role is specifically dependent on a museum material samples. Deprecated because we do not need this term. Can use OBI:evidence role. Not clear what it means for an evidence role to persist through time. obsolete persistent evidence role true This term is now redundant and is merged with material sampling process http://purl.obolibrary.org/obo/bco_0000022. obsolete collecting process true sighting A trip camera capture of an image of a jaguar is an observation, because it is "selected" by the camera as worthy of obsevation simply by virtue of moving in front of the camera. Observing and recording the presence or absence of butterflies during a transect walk. Seeing three pelicans flying overhead on Christmas day and report them as part of the Christmas Bird Count. A process in which a person or machine sees or detects a material entity and selects it as worthy of observation, and which has as output an information content entity about the selected material entity. This class was made obsolete because of the incorrect identifier format. It has been replaced by BCO_0000003. Biocode Commons Ontology Hackathon The information artifact may written or recorded or just be stored in someone's head (specifically depenedent upon that person). In the context of a taxonomic inventory, an observing process may be called a sighting, and is an ad hoc reporting of, typically, a single taxon occurrence, usually motivated by rarity, individual interest in the taxon, or atypicality of circumstances. obsolete observing process true A process of existing in a particular spatio-temporal region. This term was originally developed at the Semantics of Biodiversity workshop in 5/2012. It is no longer needed for the BCO. obsolete being there process true a book a field notebook Biocode Commons Ontology Hackathon IAO has the term document, which is defined as "A collection of information content entities intended to be understood together as a whole" and has as examples journal article, patent application, laboratory notebook, and book. IAO also has a term for report, but it is not defined. With this term, we want to describe the physical object that corresponds to some information content entity, together with the information content contained in the document or report. This class may be less important for modeling collection data, but could be important for efforts to get hand written (specifically dependent) reports into an electronic (generically dependent) report, and monitoring that process. obsolete printed report true A field notebook. A printed report that records the outcome of some observing process. Biocode Commons Ontology Hackathon obolete printed observational report true Filtering sea water to extract only organisms smaller than a certain size. deciding which branch to collect for a herbarium specimen A process by which a person or machine decides that a particular material entity as worthy of collection or observation. Biocode Commons Ontology Hackathon The criteria for selection may be specified in a protocol or may be ad hoc. Should be replaced by OBI:selection, but first OBI needs to fix the definition. obsolete selecting process true a curator submitting a herbarium speciman to a museum a researcher submitting a water sample to a laboratory storage collection A planned process whereby a person submits a material sample to an organization. This term was made obsolete because it had the incorrect identifier format. It has been replaced by BCO_0000016. Biocode Commons Ontology Hackathon obsolete submitting process true picking leaves from a plant removing a fish from the ocean with a net removing dna from cells A process that involves removing a material entity from its original site to another site. Biocode Commons Ontology Hackathon Considered acquisition in OBI, but that is about taking possession. Physical extraction may involve taking pocession, but it may also just involve extraction of something that is already posessed (e.g. of dna from cells). obsolete physical extraction process true collecting plant parts for herbarium specimens collecting sea water samples as part of Ocean Sampling Day A planned process that includes selecting a material entity for study, physically extracting the material entity, and submitting the material entity to some institution for preservation or study. collecting event Biocode Commons Ontology Hackathon This term has been replaced by OBI:specimen collection. obsolete material sampling process true This term has been deprecated until it is determined whether or not it is needed in the BCO. Should probably be replaced by a term from OBI or IAO. obsolete data sampling process true This term has been deprecated until it is determined whether or not it is needed in the BCO. Should probably be replaced by a term from OBI or IAO. obsolete statistical sampling process true An information artifact that is about a spatio-temporal region at which a process (such as collecting process, observing process, or material sampling process) occured. This term was deprecated because it has the wrong ID format. It is replaced by BCO_0000025. Biocode Commons Ontology Hackathon Darwin Core needs to describe both the site and time where some activity occurred as an information content entity (e.g., in recording data from a lab notebook),therefore, we made locality description about a spatial temporal region, rather than a site. obsolete locality description true the role borne by a branch when it becomes a herbarium specimen A role that is borne by some material entity and is realized by the material entity being the output of a material sampling process. Biocode Commons Ontology Hackathon This term has been replaced by OBI:specimen role. obsolete material sample role true A sampling process that has as output some material sample. Do not need this class. By virtue of the existance of the material sample, we know that the sampling process was successful. obsolete successful material sampling process true A material sampling process that has as output exactly zero material samples. Do not need this class. By virtue of the absence of the material sample, we know that the sampling process was unsuccessful. obsolete unsuccessful material sampling process true At the GSC14 hackathon in 09/2012, we decided to deprecate this term. obsolete museum collection entity true A museum collections entity that derives from an organismal entity, has a persistent evidence role and 'depends on' a process of collecting. The label for this on the original diagram was 'collection object'. However, not all entities in collections will fit the defition of 'object', so 'collection entity is probably a better name. The relation 'depends on' cannot really be used here. Old BFO has 'inverse depends on', but this is not in the current BFO. See dwc_bfo2_new.owl for the original logical definition. At the GSC14 hackathon in 09/2012, we decided to deprecate this term. obsolete organismal museum collection entity true The herbarium collection at the New York Botanical Garden. the painting collection at the Louvre Museum An object aggregate that has as member part a material sample that is located in museum as a result of a process of curation. This term was made obsolete because of incorrect identifier format. It has been replaced by BCO_0000031. Biocode Commons Ontology Hackathon Intent is to document biodiversity for research and education. The class museum collection has meaning that is much broader than biological collections. It would probably be better to import this term from another, more general ontology and create a specific subclass for natural history museum collection. obsolete museum collection true the insect collection at the Smithsonian Institution A museum collection that has as member part a material sample that was derived from an organism. This term was made obsolete because of incorrect identifier format. It is replaced by BCO_0000031. Biocode Commons Ontology Hackathon obsolete organismal museum collection true Replaced by OBI organization. Request institution as synonym in OBI. obsolete institution true A material entity that derives from an organism or virus or viroid. This class is understood to mean: A material entity that is either an organism, a part of an organism, a collection of organisms, or a fossil. The relation 'organismal entity derives from organism' was in the original diagram. Subclasses of organismal entity include organism, and It is not clear if it is valid to that an organism derives from an organism (is the derives from relation reflexive?). At the GSC14 hackathon in 09/2012, we decided to deprecate this term. obsolete organismal entity true This terms was replaced by a term imported from CARO. The original diagram only had organsim, but DWC and GOs both need to include viruses and viroids. obsolete organism or virus or viroid true A herbarium or museum specimen. A jar of water, the microbes that were filtered from that water, the DNA extracted from those microbes, a subsample of that DNA. A material entity that has a material sample role. A material entity takes on the material sample role by being the output of a material samping process. That is, is selected for study, collected, and submitted to an institution for preservation or study. Biocode Commons Ontology Hackathon This term has been replaced by OBI:specimen. obsolete material sample true An information content entity (?) that is the result of some data sampling process. This term has been deprecated until it is determined whether or not it is needed in the BCO. Should probably be replaced by a term from OBI or IAO. obsolete data sample true This term has been deprecated until it is determined whether or not it is needed in the BCO. Should probably be replaced by a term from OBI or IAO. obsolete statistical sample true If sampling is a OBI planned process, that captures that it is protocal governed. obsolete protocol governed sampling activity true Associating a museum specimen with a specific taxonomic concept based on its characters. Using BLAST to identify the taxa present in an environmental (metagenomic) sample. Using DNA barcoding to identify a plant species. Using a key to identify a plant in the field. A process by which a material sample is associated with a taxon or taxa. This term was made obsolete because of incorrect identifier format. It is replaced by BCO_0000042. Biocode Commons Ontology Hackathon obsolete taxonomic identification process true This term was made obsolete because of incorrect identifier format. It should be replaced by an external ontology term. Consider term from OBI or IAO. Biocode Commons Ontology Hackathon Includes as output rubbings, casts, photographic prints, audio or video tapes. Needs a better name. Current name is the definition. obsolete process that yields a material representation of a material entity true A bird observed during a Christmas Bird Count A bird observed during a transect walk. A tree is forest plot that is measured for diameter at breast height (DBH). An lizard observed in the field that is not collected but whose location is recorded in a field notebook. A material entity that has a target of observation role, that is, a material entity that is the input of some observing process. This term was made obsolete because of incorrected identifier format. It is replaced by BCO_0000044. Biocode Commons Ontology Hackathon obsolete material target of observation true This term was made obsolete because of incorrect identifier format. It should be replaced by an external ontology term. Some instances of term could possibly be replaced by OBI:image acquisition. Maybe request another OBI term for audio recording acquisition. Biocode Commons Ontology Hackathon Includes audio recordings and photographs (which are information artifacts). Needs a better name. Current name is the definition. obsolete process that yields an information artifact that is a representation of a material entity true the role borne by a bird during a Christmas Bird Count A role that is borne by some material entity and is realized by the material entity being the input of an observing process. This term was made obsolete because of incorrect identifier format. It is replaced by BCO_0000046. Biocode Commons Ontology Hackathon obsolete material target of observation role true A set of gastropod and bivalve shells found in shell midden from an archaeological site in Alaska. A preserved specimen that is the output of an archaeological sampling process and is the remains of a part of some animal. Rob Guralnick Zooarchaeological specimens are typically collections of biological material generated as part of an archaeological collecting process that is separate from the type of processes that would yield other kinds of samples or collections of samples. This process almost always entails collecting in-situ from archaeological sites where there is evidence of past human material culture. zooarcheological specimen Preserved seeds found in a storage jar at an archeological site. A preserved specimen that is the output of an archaeological sampling process and is the remains of a part of some plant. Rob Guralnick Archaeologicalbotanical specimens are typically collections of biological material generated as part of an archaeological collecting process that is separate from the type of processes that would yield other kinds of samples or collections of samples. This process almost always entails collecting in-situ from archaeological sites where there is evidence of past human material culture. archeobotanical specimen true location of an event The site where a process occurs. In the context of Dawrin Core, this is generally where a specimen is collected, an organism is observed or a measurement is taken. event Examples: A specimen collection process. A machine observation. 2008-11-19 2014-10-23 DataSets/DataSet/Units/Unit/Gathering recommended An action that occurs at some location during some time. Event fossil specimen 2014-10-23 2014-10-23 RecordBasisEnum/FossileSpecimen recommended A preserved specimen that is a fossil. Fossil Specimen geological context Example: A lithostratigraphic layer. 2009-07-06 2014-10-23 DataSets/DataSet/Units/Unit/Gathering/Stratigraphy recommended Geological information, such as stratigraphy, that qualifies a region or place. Geological Context human observation 2014-10-23 2014-10-23 RecordBasisEnum/HumanObservation recommended An output of a human observation process. Human Observation identification Example: A subspecies determination of an organism. 2008-11-19 2014-10-23 DataSets/DataSet/Units/Unit/Identifications/Identification recommended A taxonomic determination (e.g., the assignment to a taxon). Identification living specimen 2014-10-23 2014-10-23 RecordBasisEnum/LivingSpecimen recommended A specimen that is alive. Living Specimen machine observation 2014-10-23 2014-10-23 RecordBasisEnum/MachineObservation recommended An output of a machine observation process. Machine Observation specimen Examples: A whole organism preserved in a collection. A part of an organism isolated for some purpose. A soil sample. A marine microbial sample. 2013-03-28 2014-10-23 DataSets/DataSet/Units/Unit recommended A physical results of a sampling (or subsampling) event. In biological collections, the material sample is typically collected, and either preserved or destructively processed. Material Sample This term was not deprecated from the dwc terms vocabulary, merely from the dwcterms ontology, because it is not needed here. Resources can be thought of as identifiable records or instances of classes and may include, but need not be limited to Occurrences, Organisms, MaterialSamples, Events, Locations, GeologicalContexts, Identifications, or Taxa. Examples: The weight of an organism in grams. The number of placental scars. 2009-04-24 2014-10-23 Datasets/Dataset/Units/Unit/MeasurementsOrFacts or DataSets/DataSet/Units/Unit/Gathering/SiteMeasurementsOrFacts recommended A measurement of or fact about an rdfs:Resource (http://www.w3.org/2000/01/rdf-schema#Resource). Measurement or Fact true occurrence This Darwin Core class should not be used when annotating data with BCO. It is not mapped to BCO classes because its meaning is too ambiguous. Examples: A wolf pack on the shore of Kluane Lake in 1988. A virus in a plant leaf in a the New York Botanical Garden at 15:29 on 2014-10-23. A fungus in Central Park in the summer of 1929. 2008-11-19 2014-10-23 DataSets/DataSet/Units/Unit recommended An existence of an Organism (sensu http://rs.tdwg.org/dwc/terms/Organism) at a particular place at a particular time. Occurrence organism Instances of the Organism class are intended to facilitate linking of one or more Identification instances to one or more Occurrence instances. Therefore, things that are typically assigned scientific names (such as viruses, hybrids, and lichens) and aggregates whose occurrences are typically recorded (such as packs, clones, and colonies) are included in the scope of this class. 2014-10-23 2014-10-23 not in ABCD recommended A particular organism or defined group of organisms considered to be taxonomically homogeneous. Organism preserved specimen 2014-10-23 2014-10-23 RecordBasisEnum/PreservedSpecimen recommended A specimen that has been preserved. Preserved Specimen This term was not deprecated from the dwc terms vocabulary, merely from the dwcterms ontology, because it is not needed here. Resources can be thought of as identifiable records or instances of classes and may include, but need not be limited to Occurrences, Organisms, MaterialSamples, Events, Locations, GeologicalContexts, Identifications, or Taxa. Example: An instance of an Organism is the mother of another instance of an Organism. 2008-11-19 2014-10-23 DataSets/DataSet/Units/Unit/Associations recommended A relationship of one rdfs:Resource (http://www.w3.org/2000/01/rdf-schema#Resource) to another. Resource Relationship true taxon Example: The genus Truncorotaloides as published by Brönnimann et al. in 1953 in the Journal of Paleontology Vol. 27(6) p. 817-820. 2008-11-19 2014-10-23 no simple equivalent in ABCD recommended A group of organisms (sensu http://purl.obolibrary.org/obo/OBI_0100026) considered by taxonomists to form a homogeneous unit. Taxon Obsolete Class specimen collection process X material entity A material entity B material entity C specimen collection process Y example to be eventually removed The term was used in an attempt to structure part of the ontology but in retrospect failed to do a good job Person:Alan Ruttenberg failed exploratory term Class has all its metadata, but is either not guaranteed to be in its final location in the asserted IS_A hierarchy or refers to another class that is not complete. FossilSpecimen metadata complete term created to ease viewing/sort terms for development purpose, and will not be included in a release PERSON:Alan Ruttenberg organizational term Class has undergone final review, is ready for use, and will be included in the next release. Any class lacking "ready_for_release" should be considered likely to change place in hierarchy, have its definition refined, or be obsoleted in the next release. Those classes deemed "ready_for_release" will also derived from a chain of ancestor classes that are also "ready_for_release." ready for release Class is being worked on; however, the metadata (including definition) are not complete or sufficiently clear to the branch editors. metadata incomplete Nothing done yet beyond assigning a unique class ID and proposing a preferred term. uncurated All definitions, placement in the asserted IS_A hierarchy and required minimal metadata are complete. The class is awaiting a final review by someone other than the term editor. pending final vetting Core is an instance of a grouping of terms from an ontology or ontologies. It is used by the ontology to identify main classes. PERSON: Alan Ruttenberg PERSON: Melanie Courtot core placeholder removed An editor note should explain what were the merged terms and the reason for the merge. terms merged This is to be used when the original term has been replaced by a term imported from an other ontology. An editor note should indicate what is the URI of the new term to use. term imported This is to be used when a term has been split in two or more new terms. An editor note should indicate the reason for the split and indicate the URIs of the new terms created. term split This is to be used if none of the existing instances cover the reason for obsolescence. An editor note should indicate this new reason. We expect to be able to mine these new reasons and add instances as required. other true Hard to give a definition for. Intuitively a "natural kind" rather than a collection of any old things, which a class is able to be, formally. At the meta level, universals are defined as positives, are disjoint with their siblings, have single asserted parents. Alan Ruttenberg A Formal Theory of Substances, Qualities, and Universals, http://ontology.buffalo.edu/bfo/SQU.pdf universal A defined class is a class that is defined by a set of logically necessary and sufficient conditions but is not a universal "definitions", in some readings, always are given by necessary and sufficient conditions. So one must be careful (and this is difficult sometimes) to distinguish between defined classes and universal. Alan Ruttenberg defined class A named class expression is a logical expression that is given a name. The name can be used in place of the expression. named class expressions are used in order to have more concise logical definition but their extensions may not be interesting classes on their own. In languages such as OWL, with no provisions for macros, these show up as actuall classes. Tools may with to not show them as such, and to replace uses of the macros with their expansions Alan Ruttenberg named class expression Terms with this status should eventually replaced with a term from another ontology. Alan Ruttenberg group:OBI to be replaced with external ontology term A term that is metadata complete, has been reviewed, and problems have been identified that require discussion before release. Such a term requires editor note(s) to identify the outstanding issues. Alan Ruttenberg group:OBI requires discussion Transformation-ML Transformation-ML file describing parameter transformations used in a GvHD experiment. Transformation-ML is a format standard of a digital entity that is conformant with the Transformation-ML standard.(http://wiki.ficcs.org/ficcs/Transformation-ML?action=AttachFile&do=get&target=Transformation-ML_v1.0.26.pdf) person:Jennifer Fostel web-page:http://wiki.ficcs.org/ficcs/Transformation-ML?action=AttachFile&do=get&target=Transformation-ML_v1.0.26.pdf Transformation-ML ACS d06.acs, ACS1.0 data file of well D06 of plate 2 of part 1 of a GvHD experiment. ACS is a format standard of a digital entity that is conformant with the Analytical Cytometry Standard. (http://www.isac-net.org/content/view/607/150/) person:Jennifer Fostel web-page:http://www.isac-net.org/content/view/607/150/ ACS XML RDF/XML file, OWL file, Compensation-ML file, WSDL document, SVG document XML is a format standard of a digital entity that is conformant with the W3C Extensible Markup Language Recommendation.(http://www.w3.org/XML/) person:Jennifer Fostel web-page:http://www.w3.org/XML/ XML RDF A FOAF file, a SKOS file, an OWL file. RDF is a format standard of a digital entity that is conformant with the W3C Resource Description Framework RDF/XML Syntax specification.(http://www.w3.org/RDF/) person:Jennifer Fostel web-page:http://www.w3.org/RDF/ RDF zip MagicDraw MDZIP archive, Java JAR file. zip is a format standard of a digital entity that is conformant with the PKWARE .ZIP file format specification (http://www.pkware.com/index.php?option=com_content&task=view&id=59&Itemid=103/) person:Jennifer Fostel web-page:http://www.pkware.com/index.php?option=com_content&task=view&id=59&Itemid=103/ zip tar Example.tar file. tar is a format standard of a digital entity that is conformant with the tape archive file format as standardized by POSIX.1-1998, POSIX.1-2001, or any other tar format compliant with the GNU tar specification. (http://www.gnu.org/software/tar/manual/) person:Jennifer Fostel web-page:http://www.gnu.org/software/tar/manual/ tar FCS d01.fcs, FCS3 data file of well D06 of plate 2 of part 1 of a GvHD experiment. FCS is a format standard of a digital entity that is conformant with the Flow Cytometry Data File Standard.(http://www.fcspress.com/) person:Jennifer Fostel web-page:http://www.fcspress.com/ FCS Compensation-ML compfoo.xml, Compensation-ML file describing compensation used in a GvHD experiment Compensation-ML is a format standard of a digital entity that is conformant with the Compensation-ML standard. (http://wiki.ficcs.org/ficcs/Compensation-ML?action=AttachFile&do=get&target=Compensation-ML_v1.0.24.pdf) person:Jennifer Fostel web-page:http://wiki.ficcs.org/ficcs/Compensation-ML?action=AttachFile&do=get&target=Compensation-ML_v1.0.24.pdf Compensation-ML Gating-ML foogate.xml, Gating-ML file describing gates used in a GvHD experiment. Gating-ML is a format standard of a digital entity that is conformant with the Gating-ML standard. (http://www.flowcyt.org/gating/) person:Jennifer Fostel web-page:http://www.flowcyt.org/gating/ Gating-ML OWL OBI ontology file, Basic Formal Ontology file, BIRNLex file, BioPAX file. OWL is a format standard of a digital entity that is conformant with the W3C Web Ontology Language specification.(http://www.w3.org/2004/OWL/) person:Jennifer Fostel web-page:http://www.w3.org/2004/OWL/ OWL Affymetrix Affymetrix supplied microarray An organization which supplies technology, tools and protocols for use in high throughput applications Affymetrix Thermo Philippe Rocca-Serra Thermo Waters Philippe Rocca-Serra Waters BIO-RAD Philippe Rocca-Serra BIO-RAD GenePattern hierarchical clustering James Malone GenePattern hierarchical clustering Ambion Philippe Rocca-Serra Ambion Helicos Philippe Rocca-Serra Helicos Roche Philippe Rocca-Serra Roche Illumina Philippe Rocca-Serra Illumina GenePattern PCA GenePattern PCA GenePattern module SVM GenePattern module SVM is a GenePattern software module which is used to run a support vector machine data transformation. James Malone Ryan Brinkman GenePattern module SVM GenePattern k-nearest neighbors James Malone GenePattern k-nearest neighbors GenePattern LOOCV GenePattern LOOCV GenePattern k-means clustering James Malone GenePattern k-means clustering Agilent Philippe Rocca-Serra Agilent GenePattern module KMeansClustering GenePattern module KMeansClustering is a GenePattern software module which is used to perform a k Means clustering data transformation. James Malone PERSON: James Malone GenePattern module KMeansClustering GenePattern CART James Malone GenePattern CART GenePattern module CARTXValidation GenePattern module CARTXValidation is a GenePattern software module which uses a CART decision tree induction with a leave one out cross validation data transformations. GenePattern module CARTXValidation Li-Cor Philippe Rocca-Serra Li-Cor Bruker Corporation Philippe Rocca-Serra Bruker Corporation GenePattern module KNNXValidation GenePattern module KNNXValidation is a GenePattern software module which uses a k-nearest neighbours clustering with a leave one out cross validation data transformations. James Malone PERSON: James Malone GenePattern module KNNXValidation GenePattern module PeakMatch GenePattern module PeakMatch GenePattern module KNN GenePattern module KNN is a GenePattern software module which perform a k-nearest neighbors data transformation. James Malone GenePattern module KNN GenePattern module HierarchicalClustering GenePattern module HierarchicalClustering is a GenePattern software module which is used to perform a hierarchical clustering data transformation. James Malone PERSON: James Malone GenePattern module HierarchicalClustering GenePattern SVM James Malone GenePattern SVM Applied Biosystems Philippe Rocca-Serra Applied Biosystems GenePattern module PCA GenePattern module PCA is a GenePattern software module which is used to perform a principal components analysis dimensionality reduction data transformation. James Malone PERSON: James Malone GenePattern module PCA GenePattern peak matching James Malone Ryan Brinkman GenePattern peak matching Bruker Daltonics Philippe Rocca-Serra Bruker Daltonics GenePattern HeatMapViewer data visualization The GenePattern process of generating Heat Maps from clustered data. James Malone GenePattern HeatMapViewer data visualization GenePattern HierarchicalClusteringViewer data visualization The GenePattern process of generating hierarchical clustering visualization from clustered data. James Malone GenePattern HierarchicalClusteringViewer data visualization GenePattern module HeatMapViewer A GenePattern software module which is used to generate a heatmap view of data. James Malone GenePattern module HeatMapViewer GenePattern module HierarchicalClusteringViewer A GenePattern software module which is used to generate a view of data that has been hierarchically clustered. James Malone GenePattern module HierarchicalClusteringViewer Sysmex Corporation, Kobe, Japan WEB:http://www.sysmex.com/@2009/08/06 2009/09/28 Alan Ruttenberg. Fucoidan-use-case Sysmex Corporation, Kobe, Japan U.S. Food and Drug Administration FDA U.S. Food and Drug Administration right handed right handed ambidexterous ambidexterous left handed left handed Edingburgh handedness inventory The Edinburgh Handedness Inventory is a set of questions used to assess the dominance of a person's right or left hand in everyday activities. PERSON:Alan Ruttenberg PERSON:Jessica Turner PMID:5146491#Oldfield, R.C. (1971). The assessment and analysis of handedness: The Edinburgh inventory. Neuropsychologia, 9, 97-113 WEB:http://www.cse.yorku.ca/course_archive/2006-07/W/4441/EdinburghInventory.html Edingburgh handedness inventory eBioscience A supplier of flow cytometry analyzers Karin Breuer WEB:http://www.ebioscience.com/@2011/04/11 eBioscience Cytopeia A supplier of flow cytometry analyzers Karin Breuer WEB:http://www.cytopeia.com/@2011/04/11 Cytopeia Exalpha Biological A supplier of flow cytometry analyzers Karin Breuer WEB:http://www.exalpha.com/@2011/04/11 Exalpha Biological Apogee Flow Systems A supplier of flow cytometry analyzers Karin Breuer WEB:http://www.apogeeflow.com/@2011/04/11 Apogee Flow Systems Exbio Antibodies A supplier of flow cytometry analyzers Karin Breuer WEB:http://www.exbio.cz/@2011/04/11 Exbio Antibodies Becton Dickinson (BD Biosciences) A supplier of flow cytometry analyzers Karin Breuer WEB:http://www.bdbiosciences.com/@2011/04/11 Becton Dickinson (BD Biosciences) Dako Cytomation A supplier of flow cytometry analyzers Karin Breuer WEB:http://www.dakousa.com/@2011/04/11 Dako Cytomation Millipore A supplier of flow cytometry analyzers Karin Breuer WEB:http://www.guavatechnologies.com/@2011/04/11 Millipore Antigenix A supplier of flow cytometry analyzers Karin Breuer WEB:http://www.antigenix.com/@2011/04/11 Antigenix Partec A supplier of flow cytometry analyzers Karin Breuer WEB:http://www.partec.de/@2011/04/11 Partec Beckman Coulter A supplier of flow cytometry analyzers Karin Breuer WEB:http://www.beckmancoulter.com/@2011/04/11 Beckman Coulter Advanced Instruments Inc. (AI Companies) A supplier of flow cytometry analyzers Karin Breuer WEB:http://www.aicompanies.com/@2011/04/11 Advanced Instruments Inc. (AI Companies) Miltenyi Biotec A supplier of flow cytometry analyzers Karin Breuer WEB:http://www.miltenyibiotec.com/@2011/04/11 Miltenyi Biotec AES Chemunex A supplier of flow cytometry analyzers Karin Breuer WEB:http://www.aeschemunex.com/@2011/04/11 AES Chemunex Bentley Instruments A supplier of flow cytometry analyzers Karin Breuer WEB:http://bentleyinstruments.com/@2011/04/11 Bentley Instruments Invitrogen A supplier of flow cytometry analyzers Karin Breuer WEB:http://www.invitrogen.com/@2011/04/11 Invitrogen Luminex A supplier of flow cytometry analyzers Karin Breuer WEB:http://www.luminexcorp.com/@2011/04/11 Luminex CytoBuoy A supplier of flow cytometry analyzers Karin Breuer WEB:http://www.cytobuoy.com/@2011/04/11 CytoBuoy Nimblegen An organization that focuses on manufacturing target enrichment probe pools for DNA sequencing. Person: Jie Zheng Nimblegen Pacific Biosciences An organization that supplies tools for studying the synthesis and regulation of DNA, RNA and protein. It developed a powerful technology platform called single molecule real-time (SMRT) technology which enables real-time analysis of biomolecules with single molecule resolution. Person: Jie Zheng Pacific Biosciences NanoString Technologies An organization that supplies life science tools for translational research and molecular diagnostics based on a novel digital molecular barcoding technology. The NanoString platform can provide simple, multiplexed digital profiling of single molecules. NanoString Technologies Thermo Fisher Scientific An organization that is an American multinational, biotechnology product development company, created in 2006 by the merger of Thermo Electron and Fisher Scientific. Chris Stoeckert, Helena Ellis https://en.wikipedia.org/wiki/Thermo_Fisher_Scientific NCI BBRB Thermo Fisher Scientific G1: Well differentiated A histologic grade according to AJCC 7th edition indicating that the tumor cells and the organization of the tumor tissue appear close to normal. Chris Stoeckert, Helena Ellis G1 https://www.cancer.gov/about-cancer/diagnosis-staging/prognosis/tumor-grade-fact-sheet NCI BBRB G1: Well differentiated G2: Moderately differentiated A histologic grade according to AJCC 7th edition indicating that the tumor cells are moderately differentiated and reflect an intermediate grade. Chris Stoeckert, Helena Ellis G2 https://www.cancer.gov/about-cancer/diagnosis-staging/prognosis/tumor-grade-fact-sheet NCI BBRB G2: Moderately differentiated G3: Poorly differentiated A histologic grade according to AJCC 7th edition indicating that the tumor cells are poorly differentiated and do not look like normal cells and tissue. Chris Stoeckert, Helena Ellis G3 https://www.cancer.gov/about-cancer/diagnosis-staging/prognosis/tumor-grade-fact-sheet NCI BBRB G3: Poorly differentiated G4: Undifferentiated A histologic grade according to AJCC 7th edition indicating that the tumor cells are undifferentiated and do not look like normal cells and tissue. Chris Stoeckert, Helena Ellis G4 https://www.cancer.gov/about-cancer/diagnosis-staging/prognosis/tumor-grade-fact-sheet NCI BBRB G4: Undifferentiated G1 (Fuhrman) A histologic grade according to the Fuhrman Nuclear Grading System indicating that nuclei are round, uniform, approximately 10um and that nucleoli are inconspicuous or absent. Chris Stoeckert, Helena Ellis Grade 1 NCI BBRB, OBI NCI BBRB G1 (Fuhrman) G2 (Fuhrman) A histologic grade according to the Fuhrman Nuclear Grading System indicating that nuclei are slightly irregular, approximately 15um and nucleoli are evident. Chris Stoeckert, Helena Ellis Grade 2 NCI BBRB, OBI NCI BBRB G2 (Fuhrman) G3 (Fuhrman) A histologic grade according to the Fuhrman Nuclear Grading System indicating that nuclei are very irregular, approximately 20um and nucleoli large and prominent. Chris Stoeckert, Helena Ellis Grade 3 NCI BBRB, OBI NCI BBRB G3 (Fuhrman) G4 (Fuhrman) A histologic grade according to the Fuhrman Nuclear Grading System indicating that nuclei arei bizarre and multilobulated, 20um or greater and nucleoli are prominent and chromatin clumped. Chris Stoeckert, Helena Ellis Grade 4 NCI BBRB, OBI NCI BBRB G4 (Fuhrman) Low grade ovarian tumor A histologic grade for ovarian tumor according to a two-tier grading system indicating that the tumor is low grade. Chris Stoeckert, Helena Ellis Low grade NCI BBRB, OBI NCI BBRB Low grade ovarian tumor High grade ovarian tumor A histologic grade for ovarian tumor according to a two-tier grading system indicating that the tumor is high grade. Chris Stoeckert, Helena Ellis High grade NCI BBRB, OBI NCI BBRB High grade ovarian tumor G1 (WHO) A histologic grade for ovarian tumor according to the World Health Organization indicating that the tumor is well differentiated. Chris Stoeckert, Helena Ellis G1 NCI BBRB, OBI NCI BBRB G1 (WHO) G2 (WHO) A histologic grade for ovarian tumor according to the World Health Organization indicating that the tumor is moderately differentiated. Chris Stoeckert, Helena Ellis G2 NCI BBRB, OBI NCI BBRB G2 (WHO) G3 (WHO) A histologic grade for ovarian tumor according to the World Health Organization indicating that the tumor is poorly differentiated. Chris Stoeckert, Helena Ellis G3 NCI BBRB, OBI NCI BBRB G3 (WHO) G4 (WHO) A histologic grade for ovarian tumor according to the World Health Organization indicating that the tumor is undifferentiated. Chris Stoeckert, Helena Ellis G4 NCI BBRB, OBI NCI BBRB G4 (WHO) pT0 (colon) A pathologic primary tumor stage for colon and rectum according to AJCC 7th edition indicating that there is no evidence of primary tumor. Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/colon/path_t/ NCI BBRB pT0 (colon) pTis (colon) A pathologic primary tumor stage for colon and rectum according to AJCC 7th edition indicating carcinoma in situ (intraepithelial or invasion of lamina propria). Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/colon/path_t/ NCI BBRB pTis (colon) pT1 (colon) A pathologic primary tumor stage for colon and rectum according to AJCC 7th edition indicating that the tumor invades submucosa. Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/colon/path_t/ NCI BBRB pT1 (colon) pT2 (colon) A pathologic primary tumor stage for colon and rectum according to AJCC 7th edition indicating that the tumor invades muscularis propria. Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/colon/path_t/ NCI BBRB pT2 (colon) pT3 (colon) A pathologic primary tumor stage for colon and rectum according to AJCC 7th edition indicating that the tumor invades subserosa or into non-peritionealized pericolic or perirectal tissues. Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/colon/path_t/ NCI BBRB pT3 (colon) pT4a (colon) A pathologic primary tumor stage for colon and rectum according to AJCC 7th edition indicating that the tumor perforates visceral peritoneum. Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/colon/path_t/ NCI BBRB pT4a (colon) pT4b (colon) A pathologic primary tumor stage for colon and rectum according to AJCC 7th edition indicating that the tumor directly invades other organs or structures. Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/colon/path_t/ NCI BBRB pT4b (colon) pT0 (lung) A pathologic primary tumor stage for lung according to AJCC 7th edition indicating that there is no evidence of primary tumor. Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/lung/path_t/ NCI BBRB pT0 (lung) pTis (lung) A pathologic primary tumor stage for lung according to AJCC 7th edition indicating carcinoma in situ. Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/lung/path_t/ NCI BBRB pTis (lung) pT1 (lung) A pathologic primary tumor stage for lung according to AJCC 7th edition indicating that the tumor is 3 cm or less in greatest dimension, surrounded by lung or visceral pleura without bronchoscopic evidence of invasion more proximal than the lobar bronchus (i.e., not in the main bronchus). Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/lung/path_t/ NCI BBRB pT1 (lung) pT1a (lung) A pathologic primary tumor stage for lung according to AJCC 7th edition indicating that the tumor is 2 cm or less in greatest dimension. Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/lung/path_t/ NCI BBRB pT1a (lung) pT1b (lung) A pathologic primary tumor stage for lung according to AJCC 7th edition indicating that the tumor is more than 2 cm but not more than 3 cm in greatest dimension. Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/lung/path_t/ NCI BBRB pT1b (lung) pT2 (lung) A pathologic primary tumor stage for lung according to AJCC 7th edition indicating that the tumor is more than 3 cm but not more than 7 cm or the tumor has any of the following features: involves main bronchus, 2 cm or more distal to the carina, invades visceral pleura, associated with atelectasis or obstructive pneumonitis that extends to the hilar region but does not involve the entire lung. Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/lung/path_t/ NCI BBRB pT2 (lung) pT2a (lung) A pathologic primary tumor stage for lung according to AJCC 7th edition indicating that the tumor is more than 3 cm but not more than 5 cm in greatest dimension. Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/lung/path_t/ NCI BBRB pT2a (lung) pT2b (lung) A pathologic primary tumor stage for lung according to AJCC 7th edition indicating that the tumor is more than 5 cm but not more than 7 cm in greatest dimension. Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/lung/path_t/ NCI BBRB pT2b (lung) pT3 (lung) A pathologic primary tumor stage for lung according to AJCC 7th edition indicating that the tumor is more than 7 cm or one that directly invades any of: parietal pleura, chest wall (including superior sulcus tumors), diaphragm, phrenic nerve, mediastinal pleura, parietal pericardiu or the tumor is in the main bronchus less than 2 cm distal to the carina but without involvement of the carina or there is associated atelectasis or obstructive pneumonitis of the entire lung or there is separate tumor nodule(s) in the same lobe as the primary. Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/lung/path_t/ NCI BBRB pT3 (lung) pT4 (lung) A pathologic primary tumor stage for lung according to AJCC 7th edition indicating that the tumor of any size that invades any of the following: mediastinum, heart, great vessels, trachea, recurrent laryngeal nerve, esophagus, vertebral body, carina or there is separate tumor nodule(s) in a different ipsilateral lobe to that of the primary. Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/lung/path_t/ NCI BBRB pT4 (lung) pT0 (kidney) A pathologic primary tumor stage for kidney according to AJCC 7th edition indicating that there is no evidence of primary tumor. Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/kidney_parenchyma/path_t/ NCI BBRB pT0 (kidney) pT1 (kidney) A pathologic primary tumor stage for kidney according to AJCC 7th edition indicating that the tumor is 7 cm or less in greatest dimension and limited to the kidney. Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/kidney_parenchyma/path_t/ NCI BBRB pT1 (kidney) pT1a (kidney) A pathologic primary tumor stage for kidney according to AJCC 7th edition indicating that the tumor is 4 cm or less. Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/kidney_parenchyma/path_t/ NCI BBRB pT1a (kidney) pT1b (kidney) A pathologic primary tumor stage for kidney according to AJCC 7th edition indicating that the tumor is more than 4 cm but not more than 7 cm. Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/kidney_parenchyma/path_t/ NCI BBRB pT1b (kidney) pT2 (kidney) A pathologic primary tumor stage for kidney according to AJCC 7th edition indicating that the tumor is more than 7 cm in greatest dimension and limited to the kidney. Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/kidney_parenchyma/path_t/ NCI BBRB pT2 (kidney) pT2a (kidney) A pathologic primary tumor stage for kidney according to AJCC 7th edition indicating that the tumor is more than 7 cm but not more than 10 cm. Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/kidney_parenchyma/path_t/ NCI BBRB pT2a (kidney) pT2b (kidney) A pathologic primary tumor stage for kidney according to AJCC 7th edition indicating that the tumor is more than 10 cm and limited to the kidney. Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/kidney_parenchyma/path_t/ NCI BBRB pT2b (kidney) pT3 (kidney) A pathologic primary tumor stage for kidney according to AJCC 7th edition indicating that the tumor extends into major veins or perinephric tissues but not into the ipsilateral adrenal gland and not beyond the Gerota fascia. Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/kidney_parenchyma/path_t/ NCI BBRB pT3 (kidney) pT3a (kidney) A pathologic primary tumor stage for kidney according to AJCC 7th edition indicating that the tumor grossly extends into the renal vein or its segmental (muscle containing) branches, or the tumor invades perirenal and/or renal sinus fat (peripelvic) fat but not beyond Gerota fascia. Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/kidney_parenchyma/path_t/ NCI BBRB pT3a (kidney) pT3b (kidney) A pathologic primary tumor stage for kidney according to AJCC 7th edition indicating that the tumor grossly extends into vena cava below diaphragm. Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/kidney_parenchyma/path_t/ NCI BBRB pT3b (kidney) pT3c (kidney) A pathologic primary tumor stage for kidney according to AJCC 7th edition indicating that the tumor grossly extends into vena cava above the diaphragm or Invades the wall of the vena cava. Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/kidney_parenchyma/path_t/ NCI BBRB pT3c (kidney) pT4 (kidney) A pathologic primary tumor stage for kidney according to AJCC 7th edition indicating that the tumor invades beyond Gerota fascia (including contiguous extension into the ipsilateral adrenal gland). Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/kidney_parenchyma/path_t/ NCI BBRB pT4 (kidney) pT0 (ovary) A pathologic primary tumor stage for ovary according to AJCC 7th edition indicating that there is no evidence of primary tumor. Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/ovary/path_t/ NCI BBRB pT0 (ovary) pT1 (ovary) A pathologic primary tumor stage for ovary according to AJCC 7th edition indicating that the tumor is limited to the ovaries (one or both). Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/ovary/path_t/ NCI BBRB pT1 (ovary) pT1a (ovary) A pathologic primary tumor stage for ovary according to AJCC 7th edition indicating that the tumor is limited to one ovary; capsule intact, no tumor on ovarian surface and no malignant cells in ascites or peritoneal washings. Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/ovary/path_t/ NCI BBRB pT1a (ovary) pT1b (ovary) A pathologic primary tumor stage for ovary according to AJCC 7th edition indicating that the tumor is limited to both ovaries; capsule intact, no tumor on ovarian surface and no malignant cells in ascites or peritoneal washings. Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/ovary/path_t/ NCI BBRB pT1b (ovary) pT1c (ovary) A pathologic primary tumor stage for ovary according to AJCC 7th edition indicating that the tumor is limited to one or both ovaries with capsule ruptured, tumor on ovarian surface, or malignant cells in ascites or peritoneal washings. Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/ovary/path_t/ NCI BBRB pT1c (ovary) pT2 (ovary) A pathologic primary tumor stage for ovary according to AJCC 7th edition indicating that the tumor involves one or both ovaries with pelvic extension. Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/ovary/path_t/ NCI BBRB pT2 (ovary) pT2a (ovary) A pathologic primary tumor stage for ovary according to AJCC 7th edition indicating that the tumor has extension and/or implants on uterus and/or tube(s) and no malignant cells in ascites or peritoneal washings. Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/ovary/path_t/ NCI BBRB pT2a (ovary) pT2b (ovary) A pathologic primary tumor stage for ovary according to AJCC 7th edition indicating that the tumor has extension to other pelvic tissues and no malignant cells in ascites or peritoneal washings. Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/ovary/path_t/ NCI BBRB pT2b (ovary) pT2c (ovary) A pathologic primary tumor stage for ovary according to AJCC 7th edition indicating that the tumor has pelvic extension with malignant cells in ascites or peritoneal washings. Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/ovary/path_t/ NCI BBRB pT2c (ovary) pT3 (ovary) A pathologic primary tumor stage for ovary according to AJCC 7th edition indicating that the tumor involves one or both ovaries with microscopically confirmed peritoneal metastasis outside the pelvis and/or regional lymph node metastasis. Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/ovary/path_t/ NCI BBRB pT3 (ovary) pT3a (ovary) A pathologic primary tumor stage for ovary according to AJCC 7th edition indicating that the tumor has microscopic peritoneal metastasis beyond pelvis. Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/ovary/path_t/ NCI BBRB pT3a (ovary) pT3b (ovary) A pathologic primary tumor stage for ovary according to AJCC 7th edition indicating that the tumor has macroscopic peritoneal, metastatasis beyond pelvis, 2 cm or less in greatest dimension. Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/ovary/path_t/ NCI BBRB pT3b (ovary) pT3c (ovary) A pathologic primary tumor stage for ovary according to AJCC 7th edition indicating that the tumor has peritoneal metastasis beyond pelvis, more than 2 cm in greatest dimension and/or regional lymph node metastasis. Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/ovary/path_t/ NCI BBRB pT3c (ovary) pN0 (colon) A pathologic lymph node stage for colon and rectum according to AJCC 7th edition indicating no regional lymph node metastsis. Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/colon/path_n/ NCI BBRB pN0 (colon) pN1 (colon) A pathologic lymph node stage for colon and rectum according to AJCC 7th edition indicating metastasis in 1-3 regional lymph nodes. Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/colon/path_n/ NCI BBRB pN1 (colon) pN1a (colon) A pathologic lymph node stage for colon and rectum according to AJCC 7th edition indicating metastasis in 1 regional lymph node. Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/colon/path_n/ NCI BBRB pN1a (colon) pN1b (colon) A pathologic lymph node stage for colon and rectum according to AJCC 7th edition indicating metastasis in 2-3 regional lymph nodes. Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/colon/path_n/ NCI BBRB pN1b (colon) pN1c (colon) A pathologic lymph node stage for colon and rectum according to AJCC 7th edition indicating tumor deposit(s), i.e., satellites in the subserosa, or in non-peritonealized pericolic or perirectal soft tissue without regional lymph node metastasis. Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/colon/path_n/ NCI BBRB pN1c (colon) pN2 (colon) A pathologic lymph node stage for colon and rectum according to AJCC 7th edition indicating metastasis in 4 or more regional lymph nodes. Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/colon/path_n/ NCI BBRB pN2 (colon) pN2a (colon) A pathologic lymph node stage for colon and rectum according to AJCC 7th edition indicating metastasis in 4 to 6 regional lymph nodes. Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/colon/path_n/ NCI BBRB pN2a (colon) pN2b (colon) A pathologic lymph node stage for colon and rectum according to AJCC 7th edition indicating metastasis in 7 or more regional lymph nodes. Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/colon/path_n/ NCI BBRB pN2b (colon) pN0 (lung) A pathologic lymph node stage for lung according to AJCC 7th edition indicating no regional lymph node metastasis. Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/lung/path_n/ NCI BBRB pN0 (lung) pN1 (lung) A pathologic lymph node stage for lung according to AJCC 7th edition indicating metastasis in ipsilateral peribronchial and/or ipsilateral hilar lymph nodes and intrapulmonary nodes, including involvement by direct extension. Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/lung/path_n/ NCI BBRB pN1 (lung) pN2 (lung) A pathologic lymph node stage for lung according to AJCC 7th edition indicating metastasis in ipsilateral mediastinal and/or subcarinal lymph node(s). Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/lung/path_n/ NCI BBRB pN2 (lung) pN3 (lung) A pathologic lymph node stage for lung according to AJCC 7th edition indicating metastasis in contralateral mediastinal, contralateral hilar, ipsilateral or contralateral scalene, or supraclavicular lymph node(s). Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/lung/path_n/ NCI BBRB pN3 (lung) pN0 (kidney) A pathologic lymph node stage for kidney according to AJCC 7th edition indicating that there is no regional lymph node metastasis. Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/kidney_parenchyma/path_n/ NCI BBRB pN0 (kidney) pN1 (kidney) A pathologic lymph node stage for kidney according to AJCC 7th edition indicating that there is regional lymph node metastasis. Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/kidney_parenchyma/path_n/ NCI BBRB pN1 (kidney) pN0 (ovary) A pathologic lymph node stage for ovary according to AJCC 7th edition indicating that there is no regional lymph node metastasis. Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/ovary/path_n/ NCI BBRB pN0 (ovary) pN1 (ovary) A pathologic lymph node stage for ovary according to AJCC 7th edition indicating that there is regional lymph node metastasis. Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/ovary/path_n/ NCI BBRB pN1 (ovary) cM0 (colon) A pathologic distant metastases stage for colon according to AJCC 7th edition indicating that there are no symptoms or signs of distant metastasis. Chris Stoeckert, Helena Ellis https://en.wikipedia.org/wiki/Cancer_staging#Pathological_M_Categorization_.28cM_and_pM.29 NCI BBRB cM0 (colon) cM1 (colon) A pathologic distant metastases stage for colon according to AJCC 7th edition indicating that there is clinical evidence of distant metastases by history, physical examination, imaging studies, or invasive procedures, but without microscopic evidence of the presumed distant metastases. Chris Stoeckert, Helena Ellis https://en.wikipedia.org/wiki/Cancer_staging#Pathological_M_Categorization_.28cM_and_pM.29 NCI BBRB cM1 (colon) cM1a (colon) A pathologic distant metastases stage for colon according to AJCC 7th edition indicating that metastasis is confined to one organ based on clinical assessment. Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/colon/path_m/ NCI BBRB cM1a (colon) cM1b (colon) A pathologic distant metastases stage for colon according to AJCC 7th edition indicating that metastasis is in more than one organ or the peritoneum based on clinical assessment. Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/colon/path_m/ NCI BBRB cM1b (colon) pM1 (colon) A pathologic distant metastases stage for colon according to AJCC 7th edition indicating that there is microscopic evidence confirming distant metastatic disease. Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/colon/path_m/ NCI BBRB pM1 (colon) pM1a (colon) A pathologic distant metastases stage for colon according to AJCC 7th edition indicating that metastasis is confined to one organ and histologically confirmed. Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/colon/path_m/ NCI BBRB pM1a (colon) pM1b (colon) A pathologic distant metastases stage for colon according to AJCC 7th edition indicating that metastasis is in more than one organ or the peritoneum and histologically confirmed. Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/colon/path_m/ NCI BBRB pM1b (colon) cM0 (lung) A pathologic distant metastases stage for lung according to AJCC 7th edition indicating that there is no distant metastasis. Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/lung/path_m/ NCI BBRB cM0 (lung) cM1 (lung) A pathologic distant metastases stage for lung according to AJCC 7th edition indicating that there are distant metastases based on clinical assessment. Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/lung/path_m/ NCI BBRB cM1 (lung) cM1a (lung) A pathologic distant metastases stage for lung according to AJCC 7th edition indicating that metastasis is based on clinical assessment and a separate tumor nodule(s) in a contralateral lobe; tumor with pleural nodules OR malignant pleural or pericardial effusion. Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/lung/path_m/ NCI BBRB cM1a (lung) cM1b (lung) A pathologic distant metastases stage for lung according to AJCC 7th edition indicating that there is a distant metastases based on clinical assessment. Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/lung/path_m/ NCI BBRB cM1b (lung) pM1 (lung) A pathologic distant metastases stage for lung according to AJCC 7th edition indicating that there is a distant metastases that is histologically confirmed. Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/lung/path_m/ NCI BBRB pM1 (lung) pM1a (lung) A pathologic distant metastases stage for lung according to AJCC 7th edition indicating that metastasis is histologically confirmed and a separate tumor nodule(s) in a contralateral lobe; tumor with pleural nodules OR malignant pleural or pericardial effusion. Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/lung/path_m/ NCI BBRB pM1a (lung) pM1b (lung) A pathologic distant metastases stage for lung according to AJCC 7th edition indicating that there is a distant metastases that is histologically confirmed. Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/lung/path_m/ NCI BBRB pM1b (lung) cM0 (kidney) A pathologic distant metastases stage for kidney according to AJCC 7th edition indicating that there is no distant metastasis. Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/kidney_parenchyma/path_m/ NCI BBRB cM0 (kidney) cM1 (kidney) A pathologic distant metastases stage for kidney according to AJCC 7th edition indicating that there are distant metastases based on clinical assessment. Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/kidney_parenchyma/path_m/ NCI BBRB cM1 (kidney) pM1 (kidney) A pathologic distant metastases stage for kidney according to AJCC 7th edition indicating that there is a distant metastases that is histologically confirmed. Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/kidney_parenchyma/path_m/ NCI BBRB pM1 (kidney) cM0 (ovary) A pathologic distant metastases stage for ovary according to AJCC 7th edition indicating that there is no distant metastasis. Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/ovary/path_m/ NCI BBRB cM0 (ovary) cM1 (ovary) A pathologic distant metastases stage for ovary according to AJCC 7th edition indicating that there is distant metastasis except peritoneal metastasis based on clinical assessment. Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/ovary/path_m/ NCI BBRB cM1 (ovary) pM1 (ovary) A pathologic distant metastases stage for ovary according to AJCC 7th edition indicating that there is distant metastasis except peritoneal metastasis that is histologically confirmed. Chris Stoeckert, Helena Ellis https://staging.seer.cancer.gov/tnm/input/1.0/ovary/path_m/ NCI BBRB pM1 (ovary) Occult Carcinoma (AJCC 7th) A clinical tumor stage group according to AJCC 7th edition indicating a small carcinoma, either asymptomatic or giving rise to metastases without symptoms due to the primary carcinoma. Chris Stoeckert, Helena Ellis Occult Carcinoma http://www.medilexicon.com/dictionary/14371 NCI BBRB Occult Carcinoma (AJCC 7th) Stage 0 (AJCC 7th) A clinical tumor stage group according to AJCC 7th edition indicating a carcinoma in situ (or melanoma in situ for melanoma of the skin or germ cell neoplasia in situ for testicular germ cell tumors) and generally is considered to have no metastatic potential. Chris Stoeckert, Helena Ellis Stage 0 https://en.wikipedia.org/wiki/Cancer_staging NCI BBRB Stage 0 (AJCC 7th) Stage I (AJCC 7th) A clinical tumor stage group according to AJCC 7th edition indicating cancers that are smaller or less deeply invasive without regional disease or nodes. Chris Stoeckert, Helena Ellis Stage I https://en.wikipedia.org/wiki/Cancer_staging NCI BBRB Stage I (AJCC 7th) Stage IIA (AJCC 7th) A clinical tumor stage group according to AJCC 7th edition indicating cancers with increasing tumor or nodal extent but less than in Stage III and with differing characteristics from IIB and IIC. Chris Stoeckert, Helena Ellis Stage IIA https://en.wikipedia.org/wiki/Cancer_staging NCI BBRB Stage IIA (AJCC 7th) Stage IIB (AJCC 7th) A clinical tumor stage group according to AJCC 7th edition indicating cancers with increasing tumor or nodal extent but less than in Stage III and with differing characteristics from IIA and IIC. Chris Stoeckert, Helena Ellis Stage IIB https://en.wikipedia.org/wiki/Cancer_staging NCI BBRB Stage IIB (AJCC 7th) Stage IIC (AJCC 7th) A clinical tumor stage group according to AJCC 7th edition indicating cancers with increasing tumor or nodal extent but less than in Stage III and with differing characteristics from IIA and IIB. Chris Stoeckert, Helena Ellis Stage IIC https://en.wikipedia.org/wiki/Cancer_staging NCI BBRB Stage IIC (AJCC 7th) Stage IIIA (AJCC 7th) A clinical tumor stage group according to AJCC 7th edition indicating cancers with increasing tumor or nodal extent greater than in Stage II and with differing characteristics from IIIB and IIIC. Chris Stoeckert, Helena Ellis Stage IIIA https://en.wikipedia.org/wiki/Cancer_staging NCI BBRB Stage IIIA (AJCC 7th) Stage IIIB (AJCC 7th) A clinical tumor stage group according to AJCC 7th edition indicating cancers with increasing tumor or nodal extent greater than in Stage II and with differing characteristics from IIIA and IIIC. Chris Stoeckert, Helena Ellis Stage IIIB https://en.wikipedia.org/wiki/Cancer_staging NCI BBRB Stage IIIB (AJCC 7th) Stage IIIC (AJCC 7th) A clinical tumor stage group according to AJCC 7th edition indicating cancers with increasing tumor or nodal extent greater than in Stage II and with differing characteristics from IIIA and IIIB. Chris Stoeckert, Helena Ellis Stage IIIC https://en.wikipedia.org/wiki/Cancer_staging NCI BBRB Stage IIIC (AJCC 7th) Stage IVA (AJCC 7th) A clinical tumor stage group according to AJCC 7th edition indicating cancers in patients who present with distant metastases at diagnosis and with differing characteristics from IVB. Chris Stoeckert, Helena Ellis Stage IVA https://en.wikipedia.org/wiki/Cancer_staging NCI BBRB Stage IVA (AJCC 7th) Stage IVB (AJCC 7th) A clinical tumor stage group according to AJCC 7th edition indicating cancers in patients who present with distant metastases at diagnosis and with differing characteristics from IVA. Chris Stoeckert, Helena Ellis Stage IVB https://en.wikipedia.org/wiki/Cancer_staging NCI BBRB Stage IVB (AJCC 7th) Stage IA (FIGO) An International Federation of Gynecology and Obstetrics cervical cancer stage value specification indicating invasive carcinoma which can be diagnosed only by microscopy, with deepest invasion <5 mm and the largest extension <7 mm. Chris Stoeckert, Helena Ellis Stage IA https://en.wikipedia.org/wiki/Cervical_cancer_staging NCI BBRB Stage IA (FIGO) Stage IA1 (FIGO) An International Federation of Gynecology and Obstetrics cervical cancer stage value specification indicating measured stromal invasion of <3.0 mm in depth and extension of <7.0 mm. Chris Stoeckert, Helena Ellis Stage IA1 https://en.wikipedia.org/wiki/Cervical_cancer_staging NCI BBRB Stage IA1 (FIGO) Stage IA2 (FIGO) An International Federation of Gynecology and Obstetrics cervical cancer stage value specification indicating measured stromal invasion of >3.0 mm and not >5.0 mm with an extension of not >7.0 mm. Chris Stoeckert, Helena Ellis Stage IA2 https://en.wikipedia.org/wiki/Cervical_cancer_staging NCI BBRB Stage IA2 (FIGO) Stage IB (FIGO) An International Federation of Gynecology and Obstetrics cervical cancer stage value specification indicating clinically visible lesions limited to the cervix uteri or pre-clinical cancers greater than stage IA Chris Stoeckert, Helena Ellis Stage IB https://en.wikipedia.org/wiki/Cervical_cancer_staging NCI BBRB Stage IB (FIGO) Stage IB1 (FIGO) An International Federation of Gynecology and Obstetrics cervical cancer stage value specification indicating clinically visible lesion limited to the cervix uteri or pre-clinical cancers greater than stage IA <4.0 cm in greatest dimension. Chris Stoeckert, Helena Ellis Stage IB1 https://en.wikipedia.org/wiki/Cervical_cancer_staging NCI BBRB Stage IB1 (FIGO) Stage IB2 (FIGO) An International Federation of Gynecology and Obstetrics cervical cancer stage value specification indicating clinically visible lesion limited to the cervix uteri or pre-clinical cancers greater than stage IA >4.0 cm in greatest dimension. Chris Stoeckert, Helena Ellis Stage IB2 https://en.wikipedia.org/wiki/Cervical_cancer_staging NCI BBRB Stage IB2 (FIGO) Stage IIA (FIGO) An International Federation of Gynecology and Obstetrics cervical cancer stage value specification indicating cervical carcinoma invades beyond the uterus, but not to the pelvic wall or to the lower third of the vagina without parametrial invasion. Chris Stoeckert, Helena Ellis Stage IIA https://en.wikipedia.org/wiki/Cervical_cancer_staging NCI BBRB Stage IIA (FIGO) Stage IIA1 (FIGO) An International Federation of Gynecology and Obstetrics cervical cancer stage value specification indicating cervical carcinoma invades beyond the uterus, but not to the pelvic wall or to the lower third of the vagina without parametrial invasion and clinically visible lesion <4.0 cm in greatest dimension. Chris Stoeckert, Helena Ellis Stage IIA1 https://en.wikipedia.org/wiki/Cervical_cancer_staging NCI BBRB Stage IIA1 (FIGO) Stage IIA2 (FIGO) An International Federation of Gynecology and Obstetrics cervical cancer stage value specification indicating cervical carcinoma invades beyond the uterus, but not to the pelvic wall or to the lower third of the vagina without parametrial invasion and clinically visible lesion >4.0 cm in greatest dimension. Chris Stoeckert, Helena Ellis Stage IIA2 https://en.wikipedia.org/wiki/Cervical_cancer_staging NCI BBRB Stage IIA2 (FIGO) Stage IIB (FIGO) An International Federation of Gynecology and Obstetrics cervical cancer stage value specification indicating cervical carcinoma invades beyond the uterus, but not to the pelvic wall or to the lower third of the vagina with obvious parametrial invasion. Chris Stoeckert, Helena Ellis Stage IIB https://en.wikipedia.org/wiki/Cervical_cancer_staging NCI BBRB Stage IIB (FIGO) Stage IIIA (FIGO) An International Federation of Gynecology and Obstetrics cervical cancer stage value specification indicating tumour involves lower third of the vagina, with no extension to the pelvic wall. Chris Stoeckert, Helena Ellis Stage IIIA https://en.wikipedia.org/wiki/Cervical_cancer_staging NCI BBRB Stage IIIA (FIGO) Stage IIIB (FIGO) An International Federation of Gynecology and Obstetrics cervical cancer stage value specification indicating extension to the pelvic wall and/or hydronephrosis or non-functioning kidney. Chris Stoeckert, Helena Ellis Stage IIIB https://en.wikipedia.org/wiki/Cervical_cancer_staging NCI BBRB Stage IIIB (FIGO) Stage IVA (FIGO) An International Federation of Gynecology and Obstetrics cervical cancer stage value specification indicating spread of the growth to adjacent organs. Chris Stoeckert, Helena Ellis Stage IVA https://en.wikipedia.org/wiki/Cervical_cancer_staging NCI BBRB Stage IVA (FIGO) Stage IVB (FIGO) An International Federation of Gynecology and Obstetrics cervical cancer stage value specification indicating spread to distant organs. Chris Stoeckert, Helena Ellis Stage IVB https://en.wikipedia.org/wiki/Cervical_cancer_staging NCI BBRB Stage IVB (FIGO) Stage 1 (FIGO) A International Federation of Gynecology and Obstetrics ovarian cancer stage value specification associated with TNM stage values of T1, N0, and M0. Chris Stoeckert, Helena Ellis Stage 1 https://staging.seer.cancer.gov/tnm/input/1.0/ovary/path_stage_group_direct/ NCI BBRB Stage 1 (FIGO) Stage 1A (FIGO) A International Federation of Gynecology and Obstetrics ovarian cancer stage value specification associated with TNM stage values of T1a, N0, and M0. Chris Stoeckert, Helena Ellis Stage 1A https://staging.seer.cancer.gov/tnm/input/1.0/ovary/path_stage_group_direct/ NCI BBRB Stage 1A (FIGO) Stage 1B (FIGO) A International Federation of Gynecology and Obstetrics ovarian cancer stage value specification associated with TNM stage values of T1b, N0, and M0. Chris Stoeckert, Helena Ellis Stage 1B https://staging.seer.cancer.gov/tnm/input/1.0/ovary/path_stage_group_direct/ NCI BBRB Stage 1B (FIGO) Stage 1C (FIGO) A International Federation of Gynecology and Obstetrics ovarian cancer stage value specification associated with TNM stage values of T1c, N0, and M0. Chris Stoeckert, Helena Ellis Stage 1C https://staging.seer.cancer.gov/tnm/input/1.0/ovary/path_stage_group_direct/ NCI BBRB Stage 1C (FIGO) Stage 2 (FIGO) A International Federation of Gynecology and Obstetrics ovarian cancer stage value specification associated with TNM stage values of T2, N0, and M0. Chris Stoeckert, Helena Ellis Stage 2 https://staging.seer.cancer.gov/tnm/input/1.0/ovary/path_stage_group_direct/ NCI BBRB Stage 2 (FIGO) Stage 2A (FIGO) A International Federation of Gynecology and Obstetrics ovarian cancer stage value specification associated with TNM stage values of T2a, N0, and M0. Chris Stoeckert, Helena Ellis Stage 2A https://staging.seer.cancer.gov/tnm/input/1.0/ovary/path_stage_group_direct/ NCI BBRB Stage 2A (FIGO) Stage 2B (FIGO) A International Federation of Gynecology and Obstetrics ovarian cancer stage value specification associated with TNM stage values of T2b, N0, and M0. Chris Stoeckert, Helena Ellis Stage 2B https://staging.seer.cancer.gov/tnm/input/1.0/ovary/path_stage_group_direct/ NCI BBRB Stage 2B (FIGO) Stage 2C (FIGO) A International Federation of Gynecology and Obstetrics ovarian cancer stage value specification associated with TNM stage values of T2c, N0, and M0. Chris Stoeckert, Helena Ellis Stage 2C https://staging.seer.cancer.gov/tnm/input/1.0/ovary/path_stage_group_direct/ NCI BBRB Stage 2C (FIGO) Stage 3 (FIGO) A International Federation of Gynecology and Obstetrics ovarian cancer stage value specification associated with TNM stage values of (T3, N0, and M0) or (T3,3a,3b, NX, and M0). Chris Stoeckert, Helena Ellis Stage 3 https://staging.seer.cancer.gov/tnm/input/1.0/ovary/path_stage_group_direct/ NCI BBRB Stage 3 (FIGO) Stage 3A (FIGO) A International Federation of Gynecology and Obstetrics ovarian cancer stage value specification associated with TNM stage values of T3a, N0, and M0 . Chris Stoeckert, Helena Ellis Stage 3A https://staging.seer.cancer.gov/tnm/input/1.0/ovary/path_stage_group_direct/ NCI BBRB Stage 3A (FIGO) Stage 3B (FIGO) A International Federation of Gynecology and Obstetrics ovarian cancer stage value specification associated with TNM stage values of T3b, N0, and M0 . Chris Stoeckert, Helena Ellis Stage 3B https://staging.seer.cancer.gov/tnm/input/1.0/ovary/path_stage_group_direct/ NCI BBRB Stage 3B (FIGO) Stage 3C (FIGO) A International Federation of Gynecology and Obstetrics ovarian cancer stage value specification associated with TNM stage values of (T3c, N0,X and M0) or (any T, N1 and M0). Chris Stoeckert, Helena Ellis Stage 3C https://staging.seer.cancer.gov/tnm/input/1.0/ovary/path_stage_group_direct/ NCI BBRB Stage 3C (FIGO) Stage 4 (FIGO) A International Federation of Gynecology and Obstetrics ovarian cancer stage value specification associated with TNM stage values of any T, any N, and M1. Chris Stoeckert, Helena Ellis Stage 4 https://staging.seer.cancer.gov/tnm/input/1.0/ovary/path_stage_group_direct/ NCI BBRB Stage 4 (FIGO) Stage Unknown (FIGO) A International Federation of Gynecology and Obstetrics ovarian cancer stage value specification associated with TNM stage values of (T0, N0, and M0) or (T1,1a-1c,2,2a-2c, NX, and M0) or (TX, N0,X, M0). Chris Stoeckert, Helena Ellis Stage Unknown https://staging.seer.cancer.gov/tnm/input/1.0/ovary/path_stage_group_direct/ NCI BBRB Stage Unknown (FIGO) 3: symptomatic in bed more than 50% of the day but not bed ridden An Eastern Cooperative Oncology Group score value specification indicating a patient is symptomatic and in bed for more than 50% of the day but is not bed ridden. Chris Stoeckert, Helena Ellis NCI BBRB, OBI NCI BBRB 3: symptomatic in bed more than 50% of the day but not bed ridden 2: symptomatic but in bed less than 50% of the day An Eastern Cooperative Oncology Group score value specification indicating a patient is symptomatic but is in bed for less than 50% of the day. Chris Stoeckert, Helena Ellis NCI BBRB, OBI NCI BBRB 2: symptomatic but in bed less than 50% of the day 4: bed ridden An Eastern Cooperative Oncology Group score value specification indicating a patient is symptomatic and is bed ridden. Chris Stoeckert, Helena Ellis NCI BBRB, OBI NCI BBRB 4: bed ridden 0: asymptomatic An Eastern Cooperative Oncology Group score value specification indicating a patient is asymptomatic. Chris Stoeckert, Helena Ellis NCI BBRB, OBI NCI BBRB 0: asymptomatic 1: symptomatic but fully ambulatory An Eastern Cooperative Oncology Group score value specification indicating a patient is symptomatic but is fully ambulatory. Chris Stoeckert, Helena Ellis NCI BBRB, OBI NCI BBRB 1: symptomatic but fully ambulatory 100: asymptomatic A Karnofsky score vaue specification indicating that a patient is asymptomatic. Chris Stoeckert, Helena Ellis NCI BBRB, OBI NCI BBRB 100: asymptomatic 80-90: symptomatic but fully ambulatory A Karnofsky score vaue specification indicating that a patient is symptomatic but fully ambulatory. Chris Stoeckert, Helena Ellis NCI BBRB, OBI NCI BBRB 80-90: symptomatic but fully ambulatory 60-70: symptomatic but in bed less than 50% of the day A Karnofsky score vaue specification indicating that a patient is symptomatic but in bed less than 50% of the day. Chris Stoeckert, Helena Ellis NCI BBRB, OBI NCI BBRB 60-70: symptomatic but in bed less than 50% of the day 40-50: symptomatic, in bed more than 50% of the day, but not bed ridden A Karnofsky score vaue specification indicating that a patient is symptomatic, in bed more than 50% of the day, but not bed ridden. Chris Stoeckert, Helena Ellis NCI BBRB, OBI NCI BBRB 40-50: symptomatic, in bed more than 50% of the day, but not bed ridden ## Elucidation This is used when the statement/axiom is assumed to hold true 'eternally' ## How to interpret (informal) First the "atemporal" FOL is derived from the OWL using the standard interpretation. This axiom is temporalized by embedding the axiom within a for-all-times quantified sentence. The t argument is added to all instantiation predicates and predicates that use this relation. ## Example Class: nucleus SubClassOf: part_of some cell forall t : forall n : instance_of(n,Nucleus,t) implies exists c : instance_of(c,Cell,t) part_of(n,c,t) ## Notes This interpretation is *not* the same as an at-all-times relation axiom holds for all times meter A length unit which is equal to the length of the path traveled by light in vacuum during a time interval of 1/299 792 458 of a second. m meter kilogram A mass unit which is equal to the mass of the International Prototype Kilogram kept by the BIPM at Svres, France. kg kilogram second A time unit which is equal to the duration of 9 192 631 770 periods of the radiation corresponding to the transition between the two hyperfine levels of the ground state of the caesium 133 atom. s sec second centimeter A length unit which is equal to one hundredth of a meter or 10^[-2] m. cm centimeter millimeter A length unit which is equal to one thousandth of a meter or 10^[-3] m. mm millimeter micrometer A length unit which is equal to one millionth of a meter or 10^[-6] m. um micrometer nanometer A length unit which is equal to one thousandth of one millionth of a meter or 10^[-9] m. nm nanometer angstrom A length unit which is equal to 10 [-10] m. angstrom gram A mass unit which is equal to one thousandth of a kilogram or 10^[-3] kg. g gram milligram A mass unit which is equal to one thousandth of a gram or 10^[-3] g. mg milligram microgram A mass unit which is equal to one millionth of a gram or 10^[-6] g. ug microgram nanogram A mass unit which is equal to one thousandth of one millionth of a gram or 10^[-9] g. ng nanogram picogram A mass unit which is equal to 10^[-12] g. pg picogram degree Celsius A temperature unit which is equal to one kelvin degree. However, they have their zeros at different points. The centigrade scale has its zero at 273.15 K. C degree C degree Celsius minute A time unit which is equal to 60 seconds. min minute hour A time unit which is equal to 3600 seconds or 60 minutes. h hr hour day A time unit which is equal to 24 hours. day week A time unit which is equal to 7 days. week month A time unit which is approximately equal to the length of time of one of cycle of the moon's phases which in science is taken to be equal to 30 days. month year A time unit which is equal to 12 months which is science is taken to be equal to 365.25 days. year micromole A substance unit equal to a millionth of a mol or 10^[-6] mol. umol micromole nanomole A substance unit equal to one thousandth of one millionth of a mole or 10^[-9] mol. nmol nanomole picomole A substance unit equal to 10^[-12] mol. pmol picomole molar A unit of concentration which expresses a concentration of 1 mole of solute per liter of solution (mol/L). M molar millimolar A unit of molarity which is equal to one thousandth of a molar or 10^[-3] M. mM millimolar micromolar A unit of molarity which is equal to one millionth of a molar or 10^[-6] M. uM micromolar nanomolar A unit of molarity which is equal to one thousandth of one millionth of a molar or 10^[-9] M. nM nanomolar picomolar A unit of molarity which is equal to 10^[-12] M. pM picomolar cubic centimeter A volume unit which is equal to one millionth of a cubic meter or 10^[-9] m^[3], or to 1 ml. cc cubic centimeter milliliter A volume unit which is equal to one thousandth of a liter or 10^[-3] L, or to 1 cubic centimeter. ml milliliter liter A volume unit which is equal to one thousandth of a cubic meter or 10^[-3] m^[3], or to 1 decimeter. L liter cubic decimeter A volume unit which is equal to one thousand of a cubic meter or 10^[-3] m^[3], or to 1 L. cubic decimeter microliter A volume unit which is equal to one millionth of a liter or 10^[-6] L. ul microliter nanoliter A volume unit which is equal to one thousandth of one millionth of a liter or 10^[-9] L. nl nanoliter picoliter A volume unit which is equal to 10^[-12] L. pl picoliter hertz A frequency unit which is equal to 1 complete cycle of a recurring phenomenon in 1 second. hertz mass percentage A dimensionless concentration unit which denotes the mass of a substance in a mixture as a percentage of the mass of the entire mixture. % w/w percent weight pr weight mass percentage mass volume percentage A dimensionless concentration unit which denotes the mass of the substance in a mixture as a percentage of the volume of the entire mixture. % w/v percent vol per vol mass volume percentage volume percentage A dimensionless concentration unit which denotes the volume of the solute in mL per 100 mL of the resulting solution. % v/v percent vol per vol volume percentage gram per liter A mass unit density which is equal to mass of an object in grams divided by the volume in liters. g per L g/L gram per liter milligram per milliliter A mass unit density which is equal to mass of an object in milligrams divided by the volume in milliliters. mg per ml mg/ml milligram per milliliter degree Fahrenheit A temperature unit which is equal to 5/9ths of a kelvin. Negative 40 degrees Fahrenheit is equal to negative 40 degrees Celsius. degree Fahrenheit pH A dimensionless concentration notation which denotes the acidity of a solution in terms of activity of hydrogen ions (H+). pH milliliter per liter A volume per unit volume unit which is equal to one millionth of a liter of solute in one liter of solution. ml per L ml/l milliliter per liter gram per deciliter A mass density unit which is equal to mass of an object in grams divided by the volume in deciliters. g/dl gram per deciliter colony forming unit per volume A concentration unit which a measure of viable bacterial numbers in a given volume. colony forming unit per volume microliters per minute A volumetric flow rate unit which is equal to one microliter volume through a given surface in one minute. microliters per minute count per nanomolar second A rate unit which is equal to one over one nanomolar second. count per nanomolar second count per molar second A rate unit which is equal to one over one molar second. count per molar second count per nanomolar A rate unit which is equal to one over one nanomolar. count per nanomolar count per molar A rate unit which is equal to one over one molar. count per molar microgram per liter A mass unit density which is equal to mass of an object in micrograms divided by the volume in liters. ng/ml ug/L microgram per liter incorrect identifier format, replaced PERSON: Larry Hunter A relation between a planned process and a continuant participating in that process that is not created during the process. The presence of the continuant during the process is explicitly specified in the plan specification which the process realizes the concretization of. has_specified_input has_specified_input PERSON: Bjoern Peters PERSON: Alan Ruttenberg 8/17/09: specified inputs of one process are not necessarily specified inputs of a larger process that it is part of. This is in contrast to how 'has participant' works. see is_input_of example_of_usage has_specified_input PERSON: Melanie Coutot false