CETAF Stable Identifier Guide
- 1 CETAF ISTC Stable Identifier Initiative
- 2 How do CETAF Stable Identifier look like?
- 3 How are CETAF Stable Identifiers resolved?
- 4 What can CETAF Stable Identifiers be used for?
- 5 How can I implement CETAF Stable Identifiers for my collection?
- 6 Publishing CETAF IDs to GBIF
- 7 How can I discover specimens with CETAF IDs and corresponding Linked Open Data (LOD)?
- 8 What data fields or elements are recommended or standardized?
- 9 Further Questions
- 10 Useful Links
- 11 Further reading
- 12 Meetings
CETAF ISTC Stable Identifier Initiative
The Stable Identifiers of the Consortium of European Taxonomic Facilities (CETAF) are globally unique, consistent and reliable identifiers for specimens in natural and botanical collections. These identifiers are used in the world wide web to redirect users and systems to images, websites and metadata of the physical objects and to integrate them with the semantic web.
How do CETAF Stable Identifier look like?
The CETAF identifier system is based on HTTP-URIs and Linked Data principles. It is simple and future-proof. Each collection object as well as its associated information resources (e.g. multimedia, RDF, webpages) are identified by stable HTTP-URIs that will never change. The URI Syntax for the objects is chosen and maintained by the institution owning them. This flexibility is one of the main advantages of the CETAF Stable Identifier system as it allows e.g. to include branding and local scope identifiers into the CETAF Stable Identifier URI. There are however some best practices for stable URIs. Examples are:
How are CETAF Stable Identifiers resolved?
A CETAF Stable Identifier allows the access of information about the corresponding collection object in various ways. If a human user tries to access a collection object by typing it’s CETAF Stable Identifier into a web-browser, he will be redirected to a human-readable representation (e.g. html web-page) of it. If a software-system tries to access the collection object via the same identifier, it will be redirected to a machine-processable RDF-encoded metadata record. The identifier is therefore integrated with the semantic web and can also be used in other RDF representations to link to the belonging collection object.
What can CETAF Stable Identifiers be used for?
As described above, CETAF Identifiers can first of all be used to redirect users and systems to images, websites and metadata of the physical objects they belong to. They can also be used to precisely reference specimens needed in scientific studies and serve as basis for data retrieval, integration and reproducibility of data experiments. Additionally, the stable identifiers enable new applications in the semantic web domain. An example for this is the Biology Pilot. The Botanic Garden and Botanical Museum Berlin, Meise Botanic Garden and other collections annotated thousands of specimens with the HUH and WikiData IDs of their collectors. The CETAF Stable Identifiers of the annotated specimens are available on GBIF and a server is crawling the identifiers to organize the RDF information in a Blaze Graph triple store. This graph enables us to search for specimen by their collector ID of HUH or WikiData, which is invariant to the different spelling variants the individual institutions may be using. The query will return all relevant specimens available in the joined set of specimens regardless of their origin institution. If the number of institutions using stable identifiers grows and the amount of machine readable annotations increases, this technology could be used to basically create a “google for specimens”.
How can I implement CETAF Stable Identifiers for my collection?
The CETAF Stable Identifiers can be implemented in three levels. They are described in detail in herbal.rbge.info’s documentation.
|Level 1 …||→ Level 2||→ Level 3|
✓ you assigned a stable URI to each object of your collection, which will be never changed and preferably follows the best practices for stable URIs
✓ there exists a human-readable representation (web-page) for each of your collection objects
✓ a user trying to access a collection object by typing the stable URI of it into a web-browser will be redirected to the human-readable representation (web-page) of the object (you can test this by using the CETAF URI Tester)
✓ you reached Level 1
✓ there exists a machine-readable RDF metadata record for each of your collection objects
✓ a machine trying to access a collection object via its identifier with
✓ you reached Level 2
✓ the machine-readable RDF metadata record of each of your collection objects encodes application specific data (e.g. is compliant to the CETAF Specimen Preview Profile—CSPP)
HTTP vs. HTTPS versions of CETAF URIs
As far as the Semantic web is concerned http://xyz and https://xyz are different things because they are different URIs. The recommendation for new implementations should be just to use HTTPS. If you have only HTTP or HTTPS versions, or want to change it you should take notice of the following:
|Want to change HTTP to HTTPS|
Publishing CETAF IDs to GBIF
If your institution is using CETAF IDs and yout want them (and potential Specimen RDF) to be included into the CETAF Specimen Catalogue, they need to be used as GUIDs in the specimen data fed to GBIF. As described in CETAF Specimen Catalogue, the GBIF Index is used to discover CETAF IDs.
- If DarwinCore is used, the IDs must be mapped to occurrence ID.
- For ABCD, the concept UnitGUID should be used.
How can I discover specimens with CETAF IDs and corresponding Linked Open Data (LOD)?
You can discover specimens of institutions of the Stable Identifiers Implementers Group by using the CETAF Specimen Catalogue maintained at the BGBM, which offers a web service for getting a list of valid CETAF IDs. For implementers of level 2, who provide RDF representations of their specimens, a cache triple store with a SPARQL access point will be available soon.
What data fields or elements are recommended or standardized?
The CETAF Specimen Preview Profile (CSPP) is developed as a minimal set of agreed (RDF) collection metadata elements implemented consistently across CETAF organisations. Its purpose is to provide a stable resource enabling preview functions in specimen portals. The CSPP is not meant to be comprehensive, which means that Linked Open (collection) Data implementations of CETAF institutions will usually provide much richer metadata with additional RDF-elements.
See on Questions, problem solutions and further discussions (Guide of best practices) and in general also in Category: Discussion.
- Best practices for stable URIs (wiki.pro-ibiosphere.eu)
- CETAF Specimen Preview Profile (CSPP)—A set of standard data components for data exchange
- Source code and example documents (git.bgbm.org)
- CETAF URI Tester (herbal.rbge.info)
- The Standards Compliance Dashboard of collaborating institutions
- Category: Guide for CETAF Stable Identifiers—Collection of pages related to this guide or handbook
Kuzmova, I. ‘Pro-IBiosphere - Stable Identifiers for Specimens – A CETAF ISTC Initiative Supported by pro-IBiosphere’. EUBON. 1 July 2013. URL: http://www.pro-ibiosphere.eu/news/4296_stable_identifiers_for_specimens_-_a_cetaf_istc_initiative_supported_by_pro-ibiosphere/.
Güntsch, A. et al., ‘Actionable, long-term stable and semantic web compatible identifiers for access to biological collection objects’, Database (Oxford), vol. 2017, Jan. 2017. URL: https://doi.org/10.1093/database/bax003.
Groom, Q. et al., ‘Stable Identifiers for Collection Specimens’, Nature (Correspondence), 546.7656 (2017), 33. URL: https://doi.org/10.1038/546033d
Hardisty, A. ‘Natural Science Identifiers & CETAF Stable Identifiers’. DiSSCoTech (blog). 28 May 2020. URL:https://dissco.tech/2020/05/28/natural-science-identifiers-cetaf-stable-identifiers/.
Wouter, A. ‘Identifiers for Our Institutes – GRID and ROR’, DiSSCoTech (blog), 11 April 2020, https://dissco.tech/2020/04/11/identifiers-for-our-institutes-grid-and-ror/.
McMurry, J. A. et al., ‘Identifiers for the 21st century: How to design, provision, and reuse persistent identifiers to maximize utility and impact of life science data’, PLOS Biology 15(6):e2001414 June 2017. URL: https://doi.org/10.1371/journal.pbio.2001414.
- Edinburgh Meeting (June 2013)
- Joint ISTC/pro-iBiosphere workshop Berlin (October 2013)
- Geneva Meeting (October 2015)
- Joint CETAF-ISTC / CETAF-DWG meeting (May 2016)
- Joint CETAF-ISTC / CETAF-DWG meeting (March 2017)
- (Virtual) LOD Hackathon (October 2017)
- Joint CETAF-ISTC / CETAF-DWG meeting (February 2018)
- ISTC QoS Workshop Copenhagen (June 2018)
- Joint CETAF-ISTC / CETAF-DWG meeting (February 2019)