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Growing challenges for biodiversity informatics

Observational data models as a unifying framework for biodiversity information M. Schildhauer* 1 , S. Bowers 2 , M. Jones 1 , Steve Kelling 3 , Hilmar Lapp 4

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Growing challenges for biodiversity informatics

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  1. Observational data models as a unifying framework for biodiversity information M. Schildhauer*1, S. Bowers2, M. Jones1, Steve Kelling3, Hilmar Lapp4 1. NCEAS, Santa Barbara, CA, USA 2. Gonzaga University, Spokane, WA, USA 3. Cornell University, NY, USA 4. NESCent, Durham, NC, USA * Contact: schild@nceas.ucsb.edu ID# IN51B-1046 http://sonet.ecoinformatics.orgAcknowledgements: NSF OCI INTEROP 0753144 Similarities among Observational Data Models Growing challenges for biodiversity informatics Investigations in biodiversity science often require integrating information from multiple scientific disciplines. While representing and organizing taxonomic names and concepts constitutes a significant challenge, there is also a critical need to integrate biodiversity information with relevant measurements and observations from other earth and life science domains. Observational data models show great promise for facilitating this integration. SEEK/Semtools Extensible Observation Ontology (OBOE) [1] Context (other Observation) ObservationContext OGC’s Observations and Measurements (O&M) [2] hasContext relatedContextObservation Observation Entity FeatureOfInterest ofEntity ofFeature hasMeasurement hasCharacteristic carrierOfCharacteristic OM_Observation ofCharacteristic Measurement Characteristic forProperty ObservedProperty Biodiversity use case Investigator wants to explore relationship between biodiversity and ecosystem functioning (e.g. primary productivity) in forest trees. Data needs might include: Vegetation plot information from repositories – Vegbank, Salvias, NVS --provide in situ association information, taxonomic, spatiotemporal, and other metadata ( *VegX schema; references *EML and *Darwin Core/ABCD) Vouchered specimen information from plots and supplementary collections (*Darwin Core/ABCD) enrich understanding of local associations and variation in forest composition Functional trait information from e.g. LEDA/Salvias/TRY -- associated with taxonomic identities in plot data (*CNRS/TraitNet ontologies) Phenotypic data from e.g. GenBank annotations (*GO, *EQ/PATO, *TO, *PO) Phylogenetic relationships among taxa drawn from Treebase (*CDAO) Climatic, geospatial, sensor data and in situ human observations from e.g. NCAR, NASA, misc independent researchers/citizens (* O&M, *SWE, *SWEET/VSTO, * EML) * Represent de facto and emerging formalizations, as ontologies and other controlled vocabularies, of relevant concepts for interpreting how data are defined and inter-related hasResult usesProcedure usesStandard hasPrecision hasValue usesProtocol OM_Process Result Protocol Standard Precision Value Entity FeatureOfInterest Characteristic ObservedProperty Measurement OM_Observation Protocol OM_Process Standard Value Precision Result Context ObservationContext Prototype Architecture for Applying Semantic Annotation Domain-Specific Ontology Productivity Mass Mass Unit usesStandard has-part is-a is-a Tree Biomass Bio.Entity 0.001 hasCharac-teristic is-a is-a is-a has-multiplier part-of is-a is-a is-a usesBaseStandard (a) Dataset has-part Tree Leaf Leaf Litter Wet Weight Dry Weight Gram Kilogram observation “o1” entity “Point_Location” measurement “m1” key yes Characteristic “GCE_Local-Code” Standard “Nominal” observation “o2” entity “Tree” measurement “m2” key yes Characteristic “SpeciesName” Standard “TaxonomicName” measurement “m3” key yes Characteristic “Local-ID” Standard “Nominal” measurement “m4” Characteristic “Mass” Standard “Ratio” context identifying yes “o1” map “Site” to “m1” map “Species” to “m2” map “Ind” to “m3” Map “Wt” to “m4” usesStandard ofEntity Utility of observational data models Multiple communities within the earth and biological sciences are converging on the use of observational data models (e.g., ecology, evolution, oceanography, geosciences) to enable cross-disciplinary data discovery, interpretation and integration. Observational data models provide a powerful, general, high level abstraction or “template” for describing a broad range of scientific data Controlled vocabularies can be linked to data through observational data models via semantic annotation, allowing for enhanced cross-disciplinary interpretation of scientific terminologies. Reasoning capabilities such as hierarchy traversal, consistency checks, and equivalence determinations are enabled via semantic formats such as OWL (Web Ontology Language) Semantic interoperabilitycan be facilitated if observational data models and their controlled vocabularies are developed using compatible semantic and syntactic approaches Collaborative development of observational data models is progressing through the “open” SONet effort (AKN, CUAHSI, OGC, SEEK/Semtools, SERONTO, TraitNet, VSTO), and the newly constituted “Joint Working Group on Observational Data Models and Semantics” (including SONet, Data Conservancy, Data ONE, and Phenoscape projects). Semantic Annotation(e.g. OBOE) ofEntity Observation Observation hasMeasurement ofCharacteristic hasMeasurement ofCharacteristic usesStandard Measurement Measurement <attribute id=“att.4”> <attributeName> Wt </attributeName> </attribute> <attribute id=“att.4”> <attributeName> LL </attributeName> </attribute> StructuralMetadata (e.g. EML) Data Prototype Architecture (b) Semantic annotation to dataset (a) References: [1] Shawn Bowers, Joshua S. Madin and Mark P. Schildhauer, A Conceptual Modeling Framework for Expressing Observational Data Semantics. In ER 2008, 41-54. [2] OpenGIS observations and measurements encoding standard (O&M): http://www.opengeospatial.org/standards/om

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