Alpine refugial isolation drove divergence of the cold-adapted montane scorpionfly Cerapanorpa obtusa (Mecoptera: Panorpidae)

doi:10.1111/jse.13150

J Syst Evol

• Research Article • Previous Articles

Alpine refugial isolation drove divergence of the cold-adapted montane scorpionfly Cerapanorpa obtusa (Mecoptera: Panorpidae)

Kai Gao^1,2†, Yuan Hua^3†, Le‐Le He¹, and Bao‐Zhen Hua^1*

¹Key Laboratory of Plant Protection Resources and Pest Management, Ministry of Education, College of Plant Protection, Northwest A&F University, Yangling 712100, China
²School of Life Sciences, Henan University, Kaifeng 475004, China
³College of Life Sciences, Northwest University, Xi′an 710069, China

^†These authors contributed equally to this work.
^*Author for correspondence. E‐mail: huabzh@nwafu.edu.cn

Received:2024-05-29 Accepted:2024-10-23 Online:2024-12-18 Published:2024-12-18
Supported by:
This research was funded by the National Natural Science Foundation of China (32370497, 32300379, 32100347) and the Open Project of the Key Laboratory of Plant Protection Resources and Pest Management of Ministry of Education of China (KFKT20230102).

Abstract

Abstract: Quaternary climate fluctuations and complex mountain systems had a prominent impact on the genetic diversification and speciation of montane organisms. However, the genetic imprints of the interplay between past climate events and rugged relief on montane species remain largely unresolved. Here, we analyzed the phylogeny, population structure, divergence time, demographic simulations, and ecological niche modeling of the montane scorpionfly Cerapanorpa obtusa (Cheng) from 36 populations in the mountains of central China (MCC) using three mitochondrial and two nuclear genes to explore its evolutionary history. The results show that C. obtusa originated from the Minshan Mountains, and currently consists of six genetically fragmented lineages that diverged 1.25–0.52 Ma. Four minor lineages (S1−S4) are confined to the topographically rugged Minshan Mountains, and two major lineages (NW and NE) are widely distributed in the northern MCC with relatively homogeneous landscapes. The Minshan Mountains are likely interglacial microrefugia for C. obtusa, and as spatial buffers in response to past climate changes. These findings provide some evidence that the interplay between climate changes and rugged relief may play a significant role in shaping the distinct phylogeographical pattern of cold-adapted montane insects. These results would also seem to suggest the importance of topographically rugged mountain systems in the conservation of evolutionary diversity and endemic species.

Key words: endemism, interglacial refugia, microrefugia, phylogeography, sky islands, topography.

Kai Gao, Yuan Hua, Le‐Le He, Bao‐Zhen Hua. Alpine refugial isolation drove divergence of the cold-adapted montane scorpionfly Cerapanorpa obtusa (Mecoptera: Panorpidae)[J]. J Syst Evol, DOI: 10.1111/jse.13150.

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Alpine refugial isolation drove divergence of the cold-adapted montane scorpionfly Cerapanorpa obtusa (Mecoptera: Panorpidae)

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