2020
DOI: 10.13057/biodiv/d210831
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Increasing accuracy: The advantage of using open access species occurrence database in the Red List assessment

Abstract: Abstract. Robiansyah I, Wardani W. 2020. Increasing accuracy: The advantage of using open access species occurrence database in the Red List assessment. Biodiversitas 21: 3658-3664. IUCN Red List is the most widely used instrument to assess and advise the extinction risk of a species. One of the criteria used in IUCN Red List is geographical range of the species assessed (criterion B) in the form of extent of occurrence (EOO) and/or area of occupancy (AOO). While this criterion is presumed to be the easiest to… Show more

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Cited by 4 publications
(2 citation statements)
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“…However, a consequence of aggregating data in this way is the potential inclusion of unclean data that can influence subsequent analysis, with measures such as EOO shown to be sensitive to outliers (Burgman & Fox, 2003). Both BIEN and GBIF data have already featured in extinction risk research (Doughty et al, 2016; Robiansyah & Wardani, 2020) but differences between data sources for the estimation of metrics such as EOO and resulting threat categories have yet to be examined.…”
Section: Introductionmentioning
confidence: 99%
“…However, a consequence of aggregating data in this way is the potential inclusion of unclean data that can influence subsequent analysis, with measures such as EOO shown to be sensitive to outliers (Burgman & Fox, 2003). Both BIEN and GBIF data have already featured in extinction risk research (Doughty et al, 2016; Robiansyah & Wardani, 2020) but differences between data sources for the estimation of metrics such as EOO and resulting threat categories have yet to be examined.…”
Section: Introductionmentioning
confidence: 99%
“…Similar georeferencing deficits were identified in DAI for plant species endemic to the Brazilian Atlantic Forest, one of the best‐documented phytogeographic domains in Brazil; 75% of occurrence records lacked valid spatial information and 22% of species lacked any spatial data in GBIF (Colli‐Silva & al., 2020). This deficit of high‐quality geospatial data is particularly concerning in light of the increasing tendency to estimate extinction risk based on DAI alone (e.g., Pelletier & al., 2018; Stévart & al., 2019; Robiansyah & Wardani, 2020). Such an approach tends not only to overstate the proportions of assessed species deemed threatened (by up to 50%), but also to overlook the species most likely to be threatened because their georeferenced occurrence records are often too few to meet thresholds for inclusion in such analyses (Nic Lughadha & al., 2019; Walker & al., 2019).…”
Section: Gaps and Future Goals Beyond 2020mentioning
confidence: 99%