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Mapping ignorance: 300 years of collecting flowering plants in Africa

Stropp, Juliana ; Ladle, Richard J. ; M. Malhado, Ana C. ; Hortal, Joaquín ; Gaffuri, Julien ; H. Temperley, William ; Olav Skøien, Jon ; Mayaux, Philippe

Global ecology and biogeography, 2016-09, Vol.25 (9), p.1085-1096 [Periódico revisado por pares]

Oxford: Blackwell Publishing Ltd

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  • Título:
    Mapping ignorance: 300 years of collecting flowering plants in Africa
  • Autor: Stropp, Juliana ; Ladle, Richard J. ; M. Malhado, Ana C. ; Hortal, Joaquín ; Gaffuri, Julien ; H. Temperley, William ; Olav Skøien, Jon ; Mayaux, Philippe
  • Assuntos: Africa ; data quality ; flowering plants ; GBIF ; inventory completeness ; spatial and temporal biases ; species-occurrence data
  • É parte de: Global ecology and biogeography, 2016-09, Vol.25 (9), p.1085-1096
  • Notas: Spanish DGCyT Ramón y Cajal
    ArticleID:GEB12468
    CNPq Special Visiting Researcher - No. no. 401471/2014-4
    ark:/67375/WNG-3T4T8FG9-K
    Brazilian National Council for Scientific and Technological Development - No. no. 310953/2014-6
    istex:B15DD07E3CF7ADBCDFEDB9DA016503DC64420801
    Biodiversity and Protected Areas Management
    ObjectType-Article-1
    SourceType-Scholarly Journals-1
    ObjectType-Feature-2
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  • Descrição: Aim: Spatial and temporal biases in species-occurrence data can compromise broad-scale biogeographical research and conservation planning. Although spatial biases have been frequently scrutinized, temporal biases and the overall quality of species-occurrence data have received far less attention. This study aims to answer three questions: (1) How reliable are species-occurrence data for flowering plants in Africa? (2) Where and when did botanical sampling occur in the past 300 years? (3) How complete are plant inventories for Africa? Location: Africa. Methods: By filtering a publicly available dataset containing 3.5 million records of flowering plants, we obtained 934,676 herbarium specimens with complete information regarding species name, date and location of collection. Based on these specimens, we estimated inventory completeness for sampling units (SUs) of 25 km × 25 km. We then tested whether the spatial distribution of well-sampled SUs was correlated with temporal parameters of botanical sampling. Finally, we determined whether inventory completeness in individual countries was related to old or recently collected specimens. Results: Thirty-one per cent of SUs contained at least one specimen, whereas only 2.4% of SUs contained a sufficient number of specimens to reliably estimate inventory completeness. We found that the location of poorly sampled areas remained almost unchanged for half a century. Moreover, there was pronounced temporal bias towards old specimens in South Africa, the country that holds half of the available data for the continent. There, high inventory completeness stems from specimens collected several decades ago. Main conclusions: Despite the increasing availability of species occurrence data for Africa, broad-scale biogeographical research is still compromised by the uncertain quality and spatial and temporal biases of such data. To avoid erroneous inferences, the quality and biases in species-occurrence data should be critically evaluated and quantified prior to use. To this end, we propose a quantification method based on inventory completeness using easily accessible species-occurrence data.
  • Editor: Oxford: Blackwell Publishing Ltd
  • Idioma: Inglês
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  • Realização: ABCD-USP USP   Logos de Redes Sociais: Freepik

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