2015
DOI: 10.7287/peerj.preprints.1326
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Multidimensional biases, gaps and uncertainties in global plant occurrence information

Abstract: Plants are a hyperdiverse clade that plays a key role in maintaining ecological and evolutionary processes as well as human livelihoods. Glaring biases, gaps, and uncertainties in plant occurrence information remain a central problem in ecology and conservation, but these limitations have never been assessed globally. In this synthesis, we propose a conceptual framework for analyzing information biases, gaps and uncertainties along taxonomic, geographical, and temporal dimensions and apply it to all c. 370,000… Show more

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Cited by 75 publications
(145 citation statements)
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“…3) are there general patterns of geographic disjunctions across taxa in rare species? Since data available from GBIF are known to contain taxonomic and geographic errors and biases (Maldonado et al 2015, Meyer et al 2016, we validate our results with a nearly independent dataset from vegetation plots of the Amazon Tree Diversity Network (ATDN) based on ter Steege et al (2013). We use this comparison to discuss the suitability of collection data to assess species rarity.…”
Section: Introductionmentioning
confidence: 73%
See 1 more Smart Citation
“…3) are there general patterns of geographic disjunctions across taxa in rare species? Since data available from GBIF are known to contain taxonomic and geographic errors and biases (Maldonado et al 2015, Meyer et al 2016, we validate our results with a nearly independent dataset from vegetation plots of the Amazon Tree Diversity Network (ATDN) based on ter Steege et al (2013). We use this comparison to discuss the suitability of collection data to assess species rarity.…”
Section: Introductionmentioning
confidence: 73%
“…The data downloaded from GBIF are compiled from a large variety of data collectors and data contributors ( 1900 in this case; < doi:10.15468/dl.om11gi > for a detailed list of data contributors), mainly from herbarium specimens and human observations. The advantages of using GBIF for biodiversity analyses are unprecedented amounts of occurrences and an exhaustive spatial coverage, but concerns on data quality and the impact of sampling biases have been raised (Maldonado et al 2015, Meyer et al 2016. We addressed the issues of geographic and taxonomic data quality by intensive, automated cleaning.…”
Section: Reliability Of Resultsmentioning
confidence: 99%
“…Hence, to tackle questions about biodiversity change across the globe, we must rely on data from compilations of individual ecological studies and monitoring efforts. Although we recognise that ecological research effort has been geographically biased (Martin et al 2012;Gonzalez et al 2016;Meyer et al 2016;Vellend et al 2017), this bias affects both population-and assemblage-level studies, and is ultimately driven by the geographic distribution of ecological effort.…”
Section: Introductionmentioning
confidence: 99%
“…However, fine-scale, comprehensive presence-absence data are unavailable for many of the plants, mammals, and birds of Madagascar. Furthermore, point occurrence (presence) data are often subject to numerous biases and uncertainties (Meyer et al 2016, Park and Davis 2017, Daru et al 2018. Thus, to accurately infer patterns of biodiversity and community structure, we generated presence-absence matrices at the scale of administrative provinces (n = 6) and regions (n = 22), using species checklists, documented observations, and verified range distributions.…”
Section: Datasetsmentioning
confidence: 99%