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Abundant, diverse, unknown: Extreme species richness and turnover despite drastic undersampling in two closely placed tropical Malaise traps
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  • Caroline Chimeno,
  • Stefan Schmidt,
  • Bruno Cancian de Araujo,
  • Kate Perez,
  • Thomas von Rintelen,
  • Olga Schmidt,
  • Hasmiandy Hamid,
  • Raden Narakusumo,
  • Michael Balke
Caroline Chimeno
Zoologische Staatssammlung Munchen

Corresponding Author:[email protected]

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Stefan Schmidt
Zoologische Staatssammlung Munchen
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Bruno Cancian de Araujo
Federal University of Espirito Santo
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Kate Perez
University of Guelph
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Thomas von Rintelen
Museum fur Naturkunde - Leibniz-Institut fur Evolutions- und Biodiversitatsforschung
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Olga Schmidt
Zoologische Staatssammlung Munchen
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Hasmiandy Hamid
Department of Plant Protection, Faculty of Agriculture, Universitas Andalas, Padang, Indonesia
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Raden Narakusumo
Museum Zoologicum Bogoriense, Research Center for Biosystematics and Evolution, National Research and Innovation Agency (BRIN), Cibinong, Indonesia
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Michael Balke
Zoologische Staatssammlung Munchen
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Abstract

Arthropods account for a large proportion of animal biomass and diversity in terrestrial systems, making them crucial organisms in our environments. However, still too little is known about the highly abundant and megadiverse groups that often make up the bulk of collected samples, especially in the tropics. With molecular identification techniques ever more evolving, analysis of arthropod communities has accelerated. In our study, which was conducted within the Global Malaise trap Program (GMP) framework, we operated two closely placed Malaise traps in Padang, Sumatra, for three months. We analyzed the samples by DNA barcoding and sequenced a total of more than 70,000 insect specimens. For sequence clustering, we applied three different delimitation techniques, namely RESL, ASAP, and SpeciesIdentifier, which gave similar results. Despite our (very) limited sampling in time and space, our efforts recovered more than 10,000 BINs, of which the majority are associated with “dark taxa”. Further analysis indicates a drastic undersampling of both sampling sites, meaning that the true arthropod diversity at our sampling sites is even higher. Regardless of the close proximity of both Malaise traps (< 360 m), we discovered significantly distinct communities.