Carcasses at Fixed Locations Host a Higher Diversity of Necrophilous Beetles.
Coleoptera
carrion
decomposition
forest
indicator species
necrobiome
scavenger
succession
trapping
Journal
Insects
ISSN: 2075-4450
Titre abrégé: Insects
Pays: Switzerland
ID NLM: 101574235
Informations de publication
Date de publication:
04 May 2021
04 May 2021
Historique:
received:
12
04
2021
revised:
29
04
2021
accepted:
30
04
2021
entrez:
2
6
2021
pubmed:
3
6
2021
medline:
3
6
2021
Statut:
epublish
Résumé
In contrast to other necromass, such as leaves, deadwood, or dung, the drivers of insect biodiversity on carcasses are still incompletely understood. For vertebrate scavengers, a richer community was shown for randomly placed carcasses, due to lower competition. Here we tested if scavenging beetles similarly show a higher diversity at randomly placed carcasses compared to easily manageable fixed places. We sampled 12,879 individuals and 92 species of scavenging beetles attracted to 17 randomly and 12 at fixed places exposed and decomposing carcasses of red deer, roe deer, and red foxes compared to control sites in a low range mountain forest. We used rarefaction-extrapolation curves along the Hill-series to weight diversity from rare to dominant species and indicator species analysis to identify differences between placement types, the decay stage, and carrion species. Beetle diversity decreased from fixed to random locations, becoming increasingly pronounced with weighting of dominant species. In addition, we found only two indicator species for exposure location type, both representative of fixed placement locations and both red listed species, namely
Identifiants
pubmed: 34064338
pii: insects12050412
doi: 10.3390/insects12050412
pmc: PMC8147763
pii:
doi:
Types de publication
Journal Article
Langues
eng
Références
Oecologia. 2014 Aug;175(4):1291-300
pubmed: 24859425
Oecologia. 1987 Sep;73(2):192-202
pubmed: 28312287
Exp Appl Acarol. 2009 Oct;49(1-2):21-36
pubmed: 19554461
Oecologia. 1989 Apr;79(1):140-142
pubmed: 28312825
PLoS One. 2014 Jun 09;9(6):e99624
pubmed: 24911056
Front Zool. 2012 Aug 14;9(1):18
pubmed: 22889339
Forensic Sci Int. 2011 Jan 30;204(1-3):e1-3
pubmed: 21216358
PLoS One. 2018 May 30;13(5):e0196839
pubmed: 29847551
Naturwissenschaften. 2007 Jan;94(1):12-24
pubmed: 17091303
PLoS One. 2019 Aug 29;14(8):e0221890
pubmed: 31465519
Nature. 1968 Sep 14;219(5159):1180-1
pubmed: 5675643
Trends Ecol Evol. 2010 Jun;25(6):372-80
pubmed: 20189677
Oecologia. 2013 Apr;171(4):761-72
pubmed: 23007807
J Forensic Sci. 2010 Nov;55(6):1652-5
pubmed: 20666921
Oecologia. 1987 Jun;72(3):402-409
pubmed: 28311137
Ecology. 2012 Dec;93(12):2570-9
pubmed: 23431588
Forensic Sci Int. 2010 Feb 25;195(1-3):42-51
pubmed: 20018471
Ecology. 2009 Nov;90(11):3159-67
pubmed: 19967871
Forensic Sci Int. 2011 Apr 15;207(1-3):150-63
pubmed: 21044824
Annu Rev Entomol. 1998;43:595-618
pubmed: 15012399
J Forensic Sci. 2013 Jul;58(4):1032-40
pubmed: 23550535
Naturwissenschaften. 2004 Feb;91(2):51-65
pubmed: 14991142
J Insect Sci. 2011;11:73
pubmed: 21867439
PLoS One. 2013 Nov 12;8(11):e79035
pubmed: 24265741
Phys Rev Lett. 2005 Jan 28;94(3):038102
pubmed: 15698327
R Soc Open Sci. 2020 Mar 4;7(3):191722
pubmed: 32269801
Ecology. 2009 Dec;90(12):3566-74
pubmed: 20120823
Insects. 2020 Nov 24;11(12):
pubmed: 33255456
Med Vet Entomol. 2011 Dec;25(4):353-64
pubmed: 21834830
J Anim Ecol. 2017 Sep;86(5):1179-1191
pubmed: 28609555
Forensic Sci Int. 2008 Sep 18;180(2-3):61-9
pubmed: 18715728
J Med Entomol. 2013 Mar;50(2):440-50
pubmed: 23540134
Oecologia. 1988 Aug;76(3):477-480
pubmed: 28312032