Speciation of the cold‐adapted scorpionfly Cerapanorpa brevicornis (Mecoptera: Panorpidae) via interglacial refugia

Pleistocene climate changes played a significant role in the speciation of temperate insects. Cold‐adapted species responding to past climatic events, however, remain rarely investigated in most groups of insects. We assessed the evolutionary history and speciation of the cold‐adapted scorpionfly Ce...

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Bibliographic Details
Published in:Insect conservation and diversity 2022-01, Vol.15 (1), p.114-127
Main Authors: Gao, Kai, Hua, Yuan, Xing, Lian‐Xi, Hua, Bao‐Zhen
Format: Article
Language:English
Subjects:
Archipelagoes
Biodiversity
Climate change
Cold
conservation
distribution
Divergence
Endemic species
endemism
Global warming
Islands
Mitochondrial DNA
Mountains
phylogeography
Pleistocene
Pleistocene refugia
Refugia
sky islands
Speciation
Species richness
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Summary:Pleistocene climate changes played a significant role in the speciation of temperate insects. Cold‐adapted species responding to past climatic events, however, remain rarely investigated in most groups of insects. We assessed the evolutionary history and speciation of the cold‐adapted scorpionfly Cerapanorpa brevicornis (Hua and Li), endemic to the Qinling–Bashan Mountains and adjacent regions (QBMARs), based on one nuclear and three mitochondrial DNA gene markers. Two distinctly divergent lineages were found in C. brevicornis dating back to 0.56 Ma, approximately coinciding with the extra‐long interglaciation (0.48–0.62 Ma) during the middle Pleistocene. Lineage I is widely distributed in the QBMARs, and Lineage II is confined to the ‘sky islands’ of the eastern Bashan Mountains (EBMs). The patch of ‘alpine archipelagos’ in the EBMs seems to function as interglacial microrefugia. In contrast, interglacial macrorefugia are located in the Qinling Mountains. These findings may highlight the essential role of postglacial warming in the speciation and generation of neo‐endemic species through range contraction in cold‐adapted species and may provide new insights into the mechanisms underlying the high endemism and species richness in the QBMARs. This study suggests that Lineage II can be treated as a good species acting as an indicator of climate change, and the ‘sky islands’ of the EBMs might be a high‐priority region for alpine biodiversity conservation under global warming. The evolutionary history of Cerapanorpa brevicornis is assessed. The species consists of two major lineages, corresponding to two main Pleistocene interglacial refugia. Historical isolation of interglacial refugia may promote speciation in such a cold‐adapted species. The ‘sky islands’ of the eastern Bashan Mountains might be a high‐priority region for alpine biodiversity conservation under global warming.
ISSN:1752-458X
1752-4598
DOI:10.1111/icad.12519