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Metadata Standards for Sample- Based Observations Kerstin Lehnert EGU General Assembly 2011.

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Presentation on theme: "Metadata Standards for Sample- Based Observations Kerstin Lehnert EGU General Assembly 2011."— Presentation transcript:

1 Metadata Standards for Sample- Based Observations Kerstin Lehnert EGU General Assembly 2011

2 2

3 Samples: Part of Earth Observations 3 Soil sampling at the Shale Hill Critical Zone Observatory, Pennsylvania Remotely Operated Platform for Ocean Science (ROPOS) collecting sediment push-core

4 Sampling Legacy 4 Bremen Core Repository (MARUM) US Polar Rock Repository (Ohio State University)

5 Why Metadata Standards? 5  Policies & Best Practices for sample documentation (sample repositories, data systems, publications)  Discovery & access of samples  Context for observations made on samples  Long-term preservation  Sharing of samples across disciplines and globally  Interoperability  between sample-based observation data systems  between sample-based and sensor-based observation data systems

6 Observations 6 Observation Result Observation Result Feature of Interest Observation (OGC O&M 2.0.0 / ISO19156; editor: Simon Cox)

7 Observations 7 Observation Result Feature of Interest Sampling Sampling Feature Observation “Observations commonly involve sampling of an ultimate feature of interest. This International Standard defines a common set of sampling feature types classified primarily by topological dimension, as well as samples for ex-situ observations.” (OGC O&M 2.0.0 / ISO19156; editor: Simon Cox) e.g. Station, Transect, Section

8 Sample-Based Observations 8 Observation Feature of Interest Specimen “A Specimen is a physical sample, obtained for observation(s) carried out ex situ, sometimes in a laboratory. The class SF_Specimen is a specialized SF_SamplingFeature.” (OGC O&M 2.0.0 / ISO19156; editor: Simon Cox) Sampling Observation

9 The Data Cube for Observations 9 Tarboton et al. 2007 “CUAHSI Community Observations Data Model (ODM), Version 1.0”

10 Sample-Based Observations 10 Time, T Space, L Observation 1: V 1 at T 1 & L 1 Observation 2: V 2 at T 2 & L 2 Observation 3: V 3 at T 3 & L 3 Sample

11 Geoscience Samples: Diversity 11

12 Sample Attributes 12 Location > SF_Specimen + materialClass: GenericName + samplingTime: TM_Object + samplingLocation: GM_Object [0..1] + samplingMethod: SF_Process [0..1] + currentLocation: Location [0..1] + specimenType: GenericName [0..1] + size: Measure [0..1] Basic attributes Application or sample specific attributes Application or sample specific attributes For example: + degree of alteration + cruise name + depth in core OGC 2.0.0

13 Requirements for Sample Metadata 13  Discovery Metadata  Where was the sample collected?  What type of sample is it?  Where is it now?  Sample specific Metadata  Rock texture  Age  Spatial relation to parent sample (‘depth in core’)  Unique Identification  Unambiguously link data and sample  Integrate disparate data  Metadata that allow to track relations to sub-samples and observations made on them

14 Sample-Based Data Systems 14  Example: Geochemical Observations

15 EarthChemML

16 Integrating Sample-Based Data in ODM2.0 16 Development by J. Horsburgh D. Tarboton K. Lehnert A. Aufdenkampe C. Chan M. Williams I. Zaslasvsky

17 Sample Identification Examples from the PetDB Database Sample names are duplicated. Sample names are modified or changed.

18 IGSN:ODP010FMZ International GeoSample Number A Global Unique Identifier for Earth Samples 18  Current syntax: 9 digits, alphanumeric  First three characters: name space = unique user code (registered with SESAR)  Last 6 characters: random alphanumeric string  Allows 2,176,782,336 sample identifiers per registrant  Does not replace personal or institutional names.  Applied to samples & sub-samples  system tracks relations www.geosamples.org Name space 

19 Linking Samples & Data with the IGSN 19 Publication Data System Sample Repository Sub-sample (child) Publication sub-sample IGSN:KAL07H9Y8 IGSN:KAL99JK49 IGSN:KAL07H9Y8 IGSN:KAL99JK49

20 IGSN Metadata Profiles  Identification metadata  Sample name(s), registrant  Descriptive metadata  Material, classification, age, size, comments  Geospatial metadata  Geographical names, coordinates  Collection metadata  Expedition/cruise, platform, date, collector, technique  Archival metadata  Physical location of sample (repository), contact

21 IGSN Workshop San Diego Supercomputing Center Feb 22-24, 2011 21 “Advancing the International Geo Sample Number IGSN as an International Standard for Sample Identification”  Agencies  USGS (S. Bristol, B. Buczkowski)  NOAA (T. Habermann, A. Milan)  AASG (S. Richards)  Geoscience Australia (L. Wyborn)  Standards  OGC (S. Cox, I. Zaslavsky)  ISO (S. Cox, T. Habermann, A. Milan)  GeoSciML (S. Richards)  WaterML (D. Valentine)  INSPIRE (S. Cox)  DataCite (J. Klump)  Organizations, Programs & Projects  ICDP/IODP (J. Klump, R. Conze)  US Ext. Cont. Shelf Program (B. Buczkowski)  CZO (T. Whitenack, I. Zaslasvky)  CUAHSI (D. Valentine, I. Zaslavsky)  NGDC (T. Habermann)  ANDS/AuScope (L. Wyborn)  National Digital Catalog (S. Bristol)  R2R (R. Arko, S. Miller)  IEDA (MGDS, SESAR, EarthChem)

22 IGSN Workshop Results: 22  Participants agreed on the value of an internationally unified approach for registration and discovery of physical specimens in the Geoscience community.  Designed new modular and scalable IGSN architecture.

23 eGeosamples SESAR Near Space Observatory (invented example) Near Space Observatory (invented example) ExoPlanet (invented example) ExoPlanet (invented example) CZO Geoscience Australia USGS IEDA ICDP Repository Analytical Lab Investigator Registrar Registration Agent Registrant IGSN Implementation Board … … … … Establish detailed specimen description schema Validate metadata content for specimens Handle interaction with specimen collectors and curators to register specimens Make decisions about what specimens merit registration Maintain physical collections Initiate registration of specimens Registers samples through one of the higher level namespaces Management Layers in the IGSN System Define IGSN scope Register top-level registrars Define IGSN syntax Maintain IGSN handle system Validate identifier registration Register name spaces, aggregate metadata for namespaces Validate metadata content for specimen registration Maintain clearinghouse portal for accessing specimen metadata in their registered name spaces

24 IGSN Workshop Results: 24  Participants agreed on the value of an internationally unified approach for registration and discovery of physical specimens in the Geoscience community.  Designed new modular and scalable IGSN architecture.  Generated draft of IGSN Registration Metadata and SESAR Discovery Metadata compliant with international standards from ISO and OGC.

25 Metadata 25 -IGSN -ResourceURI -Registrant ID -timeStamp -status IGSN Registration -IGSN -Registrant -MetadataTimeStamp -Title -Description -SamplingLocation -SamplingTime -Distributor -Originator -SpecimenType -MaterialClass -SamplingMethod SESAR Discovery -IGSN -SampleEvent -SamplePhysicalSize -RelatedResource -SamplingMethodDetails -ProcessingHistory -CurationHistory -More local detail… Agent Catalog ISO & OGC O&M compliant

26 IGSN Workshop Results: 26  Participants agreed on the value of an internationally unified approach for registration and discovery of physical specimens in the Geoscience community.  Designed new modular and scalable IGSN architecture  Generated draft of IGSN Registration Metadata and SESAR Discovery Metadata compliant with international standards from ISO and OGC.  Committed to establishing a formal governance structure.  International IGSN Implementation Board to govern the IGSN, an incorporated not-for-profit organization.  A Science Advisory Board to support & guide policies, technology, and procedures of the SESAR Metadata Clearinghouse and the local agents.

27 Challenge: Implementation 27  Consistent vocabularies & classification schemes  Metadata capture & reporting  Unique identifier (IGSN)  In sample acquisition & curation  In data management  In publications  Across disciplines  Globally

28 Metadata! March 31, 2011LDEO Data Lunch28  Percentage of publications that lists geospatial coordinates for sample locations  Example: Journal of Petrology

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