Estimating the Drivers of Diversification of Stoneflies Through Time and the Limits of Their Fossil Record

IF 3.2 1区 农林科学 Q1 ENTOMOLOGY Insect Systematics and Diversity Pub Date : 2022-07-01 DOI:10.1093/isd/ixac017
C. Jouault, A. Nel, F. Legendre, F. Condamine
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引用次数: 7

Abstract

Abstract Deciphering the timing of lineage diversification and extinction has greatly benefited in the last decade from methodological developments in fossil-based analyses. If these advances are increasingly used to study the past dynamics of vertebrates, other taxa such as insects remain relatively neglected. Our understanding of how insect clades waxed and waned or of the impact of major paleoenvironmental changes during their periods of diversification and extinction (mass extinction) are rarely investigated. Here, we compile and analyze the fossil record of Plecoptera (1,742 vetted occurrences) to investigate their genus-level diversification and diversity dynamics using a Bayesian process-based model that incorporates temporal preservation biases. We found that the Permian-Triassic mass extinction has drastically impacted Plecoptera, while the Cretaceous Terrestrial Revolution corresponds with a turnover of plecopteran fauna. We also unveiled three major gaps in the plecopteran fossil record: the Carboniferous-Permian transition, the late Early Cretaceous, and the late Cenomanian to Bartonian, which will need to be further investigated. Based on the life history of extant Plecoptera, we investigate the correlations between their past dynamic and a series of biotic (Red Queen hypothesis) and abiotic (Court Jester hypothesis) factors. These analyses highlight the major role of continental fragmentation in the evolutionary history of stoneflies, which is in line with phylogeny-based biogeographic analyses showing how vicariance drove their diversification. Our study advocates analyzing the fossil record with caution, while attempting to unveil the diversification and extinction periods plus the likely triggers of these past dynamics of diversification.
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估计石蝇随时间变化的驱动因素及其化石记录的局限性
在过去的十年中,基于化石的分析方法的发展极大地促进了谱系多样化和灭绝时间的破译。如果这些进展越来越多地用于研究脊椎动物过去的动态,其他分类群,如昆虫,相对来说仍然被忽视。我们对昆虫进化枝的兴衰,以及它们在多样化和灭绝(大灭绝)时期主要的古环境变化的影响的理解很少被研究。本文采用贝叶斯过程模型,结合时间保存偏差,对1742种羽翅目的化石记录进行了整理和分析,探讨了羽翅目的属级多样化和多样性动态。我们发现二叠纪-三叠纪大灭绝对翼翅目产生了巨大的影响,而白垩纪陆地革命则与翼翅目动物群的更替相对应。我们还揭示了翅龙化石记录的三个主要空白:石炭纪-二叠纪过渡、早白垩世晚期和晚塞诺曼期到巴顿期,这些空白有待进一步研究。基于现存翼翅目的生活史,研究了其过去的动态与一系列生物(红皇后假说)和非生物(宫廷小丑假说)因素的相关性。这些分析强调了大陆破碎在石蝇进化史中的主要作用,这与基于系统发育的生物地理学分析一致,表明了差异如何推动它们的多样化。我们的研究主张谨慎地分析化石记录,同时试图揭示多样化和灭绝时期以及这些过去多样化动态的可能触发因素。
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来源期刊
CiteScore
5.30
自引率
8.80%
发文量
34
期刊最新文献
Reviewers for Insect Systematics and Diversity (November 2022–October 2023) Building a community-based taxonomic resource for digitization of parasites and their hosts Across mountains and ocean: species delimitation and historical connectivity in Holarctic and Arctic-Alpine wolf spiders (Lycosidae, Pardosa) Jumping to new hosts: the diversification of flea beetles (Coleoptera: Chrysomelidae: Alticini) in the context of their host plant associations Comparative anatomy of venom glands suggests a role of maternal secretions in gall induction by cynipid wasps (Hymenoptera: Cynipidae)
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