Integrative ecological and molecular analysis indicate high diversity and strict elevational separation of canopy beetles in tropical mountain forests

Integrative ecological and molecular analysis indicate high diversity and strict elevational separation of canopy beetles in tropical mountain forests

Tropical mountain forests contribute disproportionately to terrestrial biodiversity but little is known about insect diversity in the canopy and how it is distributed between tree species. We sampled tree-specific arthropod communities from 28 trees by canopy fogging and analysed beetle communities...

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Veröffentlicht in:Scientific reports 2020-10, Vol.10 (1), p.16677-16677, Article 16677
Hauptverfasser: Floren, Andreas, von Rintelen, Thomas, Hebert, Paul D. N., de Araujo, Bruno Cancian, Schmidt, Stefan, Balke, Michael, Narakusumo, Raden Pramesa, Peggie, Djunijanti, Ubaidillah, Rosichon, von Rintelen, Kristina, Müller, Tobias
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631/158/2445
704/158/2445
Animals
Biodiversity
Coleoptera - metabolism
Coleoptera - physiology
DNA Barcoding, Taxonomic
Forests
Humanities and Social Sciences
multidisciplinary
Science
Science (multidisciplinary)
Trees
Tropical Climate
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container_title Scientific reports
container_volume 10
creator Floren, Andreas
von Rintelen, Thomas
Hebert, Paul D. N.
de Araujo, Bruno Cancian
Schmidt, Stefan
Balke, Michael
Narakusumo, Raden Pramesa
Peggie, Djunijanti
Ubaidillah, Rosichon
von Rintelen, Kristina
Müller, Tobias
description Tropical mountain forests contribute disproportionately to terrestrial biodiversity but little is known about insect diversity in the canopy and how it is distributed between tree species. We sampled tree-specific arthropod communities from 28 trees by canopy fogging and analysed beetle communities which were first morphotyped and then identified by their DNA barcodes. Our results show that communities from forests at 1100 and 1700 m a.s.l. are almost completely distinct. Diversity was much lower in the upper forest while community structure changed from many rare, less abundant species to communities with a pronounced dominance structure. We also found significantly higher beta-diversity between trees at the lower than higher elevation forest where community similarity was high. Comparisons on tree species found at both elevations reinforced these results. There was little species overlap between sites indicating limited elevational ranges. Furthermore, we exploited the advantage of DNA barcodes to patterns of haplotype diversity in some of the commoner species. Our results support the advantage of fogging and DNA barcodes for community studies and underline the need for comprehensive research aimed at the preservation of these last remaining pristine forests.
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subjects 631/158/2445
704/158/2445
Animals
Biodiversity
Coleoptera - metabolism
Coleoptera - physiology
DNA Barcoding, Taxonomic
Forests
Humanities and Social Sciences
multidisciplinary
Science
Science (multidisciplinary)
Trees
Tropical Climate
title Integrative ecological and molecular analysis indicate high diversity and strict elevational separation of canopy beetles in tropical mountain forests
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