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IS THE GBIF APPROPRIATE FOR USE AS INPUT IN MODELS OF PREDICTING SPECIES DISTRIBUTIONS? STUDY FROM THE CZECH REPUBLIC
- 1.0584902 - ÚVGZ 2025 RIV RU eng J - Journal Article
Štípková, Zuzana - Tsiftsis, S. - Kindlmann, Pavel
IS THE GBIF APPROPRIATE FOR USE AS INPUT IN MODELS OF PREDICTING SPECIES DISTRIBUTIONS? STUDY FROM THE CZECH REPUBLIC.
Nature Conservation Research. Roč. 9, č. 1 (2024), s. 84-95. ISSN 2500-008X. E-ISSN 2500-008X
R&D Projects: GA MŠMT LM2023048
Institutional support: RVO:86652079
Keywords : potential distribution * conservation * biodiversity * informatics * diversity * maxent * plants * databases * Global Biodiversity Information Facility * ndop * orchid distribution * species distribution models
OECD category: Biodiversity conservation
Impact factor: 1.2, year: 2023
Method of publishing: Open access
https://ncr-journal.bear-land.org/article/437
Questions concerning species diversity have attracted ecologists and biogeographers for over a century, mainly because the diversity of life on Earth is in rapid decline, which is expected to continue in the future. One of the most important current database on species distribution data is the Global Biodiversity Information Facility (GBIF), which contains more than 2 billion occurrences for all organisms, and this number is continuously increasing with the addition of new data and by combining with other applications. Such data also exist in several national databases, most of which are unfortunately often not freely available and not included in GBIF. We suspected that the national databases, mostly professionally maintained by governmental organisations, may be more comprehensive than GBIF, which is not centrally organised and therefore the national databases may give more accurate predictions than GBIF. To test our assumptions, we have compared: (i) the amount of data included in the Czech database called Nalezova databaze ochrany prirody (NDOP, Discovery database of nature protection) with the amount of data in GBIF after its restriction to the Czech Republic, and (ii) the overlap of the predictions of species distributions for the Czech Republic, based on these two databases. We have used the family Orchidaceae as a model group. We found that: (i) there is a significantly larger number of records per studied region (Czech Republic) in NDOP, compared with GBIF, and (ii) the predictions of Maxent based on orchid records in NDOP are overlapping to a great degree with the predictions based on data based on orchid records in GBIF. Bearing in mind these results, we suggest that if only one database is available for the region studied, we must use this one. If more databases are available for the region studied, we should use the database containing most locations (usually some of the local ones, like NDOP), because using more locations implies larger significance of predictions of species distributions.
Permanent Link: https://hdl.handle.net/11104/0352686
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Number of the records: 1