Phylogenomic reconstruction illuminates the evolutionary history of freshwater to marine transition in the subfamily Haloveliinae (Hemiptera: Heteroptera: Veliidae)

IF 4.7 1区 农林科学 Q1 ENTOMOLOGY
Zhen Ye, Zezhong Jin, Dan A. Polhemus, Siqi Wang, Siying Fu, Huanhuan Yang, Mu Qiao, Wenjun Bu
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Abstract

Water crickets of the subfamily Haloveliinae are semi-aquatic bugs occurring in freshwater and marine habitats throughout the Indo-Australian region, presently including six genera with more than 80 extant species. Whether lineage diversification in Haloveliinae is associated with the utilization of new ecological niches caused by transition events between freshwater and marine habitats remains poorly understood. We investigate the evolutionary history of Haloveliinae using large-scale phylogenomic datasets and a set of novel redefined morphological characters based on 24 ingroup taxa representing all recognized genera. Our phylogenetic results based on the novel datasets definitively indicate that the freshwater genus Strongylovelia Esaki as currently defined is paraphyletic and supports the establishment of a new genus: Metavelia gen. nov., including three congeneric species: Metavelia patiooni comb. nov. (type species), Metavelia priori comb. nov. and Metavelia albicolli comb. nov. Reconstruction of ancestral habitats suggests a freshwater origin for the Haloveliinae. Divergence time estimations reveal that the origin of the monophyletic marine clade occurred at around 83 Ma (95% highest posterior density: 71–98 Ma) in the Late Cretaceous, involving a single transition event from freshwater to marine habitats. This time coincides with the period of high global sea levels in the Late Cretaceous. During this period, the marine incursions caused by the massive sea level rise flooded the continental margins, especially in Southeast Asia, where ancestral Haloveliinae were probably distributed. The appearance of new marine habitats after the marine incursions (e.g., intertidal, mangroves and estuarine) probably led to a subsequent establishment and diversification of the marine lineages.

Abstract Image

Abstract Image

系统发生组的重建揭示了Haloveliinae亚科(半翅目:异型昆虫纲:Veliidae)从淡水向海洋过渡的进化史
蟋蟀亚科(Haloveliinae)的水蟋蟀是一种半水生昆虫,分布于整个印度-澳大利亚地区的淡水和海洋栖息地,目前包括六个属,有 80 多个现存物种。Haloveliinae的品系多样化是否与淡水和海洋栖息地之间的过渡事件所导致的新生态位的利用有关,目前仍不甚明了。我们利用大规模的系统发生组数据集以及基于代表所有已知属的 24 个内群类群的一组新的重新定义的形态特征,研究了 Haloveliinae 的进化历史。我们基于新数据集的系统发育结果明确表明,目前定义的淡水属 Strongylovelia Esaki 是旁系的,并支持建立一个新属:Metavelia gen:Metavelia patiooni comb.对祖先栖息地的重建表明,Haloveliinae起源于淡水。对分化时间的估计显示,单系海洋支系的起源发生在晚白垩世约 83 Ma(95%最高后验密度:71-98 Ma),涉及从淡水生境到海洋生境的单一过渡事件。这一时期恰好是晚白垩世全球海平面较高的时期。在这一时期,海平面大幅上升造成的海洋入侵淹没了大陆边缘,尤其是东南亚地区,而 Haloveliinae 的祖先可能就分布在这些地区。海洋入侵后新的海洋栖息地(如潮间带、红树林和河口)的出现很可能导致了海洋类群的建立和多样化。
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来源期刊
Systematic Entomology
Systematic Entomology 生物-进化生物学
CiteScore
10.50
自引率
8.30%
发文量
49
审稿时长
>12 weeks
期刊介绍: Systematic Entomology publishes original papers on insect systematics, phylogenetics and integrative taxonomy, with a preference for general interest papers of broad biological, evolutionary or zoogeographical relevance.
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