双刃剑:掠食性昆虫(神经目:螳螂虫科)一个标志性类群深时多样性振荡的进化新特点

IF 6.1 1区 生物学 Q1 EVOLUTIONARY BIOLOGY Systematic Biology Pub Date : 2024-11-23 DOI:10.1093/sysbio/syae068
Hongyu Li, De Zhuo, Bo Wang, Hiroshi Nakamine, Shûhei Yamamoto, Weiwei Zhang, James E Jepson, Michael Ohl, Ulrike Aspöck, Horst Aspöck, Thet Tin Nyunt, Michael S Engel, Michael J Benton, Philip Donoghue, Xingyue Liu
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引用次数: 0

摘要

进化新特性通常被认为是物种多样化的驱动力,关键的创新可能会引发适应性辐射。尽管如此,检验进化新特性在促进物种多样化方面的作用的假说仍然具有挑战性。在本文中,我们基于新的年代系统发育以及对现代物种和化石物种的定量进化分析,揭示了捕食性昆虫超科螳螂属(螳螂、珠蛉、刺蛉和双翅目螳螂)的宏观进化过程中,具有捕食进化新特性的猛禽附肢所扮演的角色。我们证明了猛禽前腿的单一起源及其相关新特征是引发猛禽螳螂类从晚三叠世到早侏罗世早期辐射的关键创新。随后,猛禽前腿的进化以不同的模式影响了各系的多样化。有时,它可能会限制其他身体部位的形态多样性,并通过加剧竞争和降低环境适应能力而导致品系的限制,例如在现存多样性很低的棘蛉中。相反,在螳螂中,减少对前肢新颖性的强调和增加其他身体部位的可塑性可能会使其更好地适应捕食者与猎物之间的相互作用和环境变化,从而保持稳定或加速的多样化水平。我们还揭示了重大的环境变化和种系相互作用如何与猛禽的新颖性相互作用,从而形成螳螂类在深部时间的显著振荡,特别是在白垩纪中期附近的突然转变。然而,由于排除了缅甸白垩纪中期的大部分样本,一些进化参数(如形态差异、体型和多样化率)的变化变得不明显,并可能由于取样偏差而被高估。我们的研究结果揭示了猛禽特化的复杂进化模式和深远意义,为新物种在进化轨迹形成过程中的作用提供了新的视角,无论其进化轨迹是好是坏。[进化新奇性;宏观进化;多样化;猛禽前肢;化石;昆虫;螳螂目]
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A Double-edged Sword: Evolutionary Novelty along Deep-time Diversity Oscillation in An Iconic Group of Predatory Insects (Neuroptera: Mantispoidea)
Evolutionary novelties are commonly identified as drivers of lineage diversification, with key innovations potentially triggering adaptive radiation. Nevertheless, testing hypotheses on the role of evolutionary novelties in promoting diversification through deep time has proven challenging. Here we unravel the role of the raptorial appendages, with evolutionary novelties for predation, in the macroevolution of a predatory insect lineage, the Superfamily Mantispoidea (mantidflies, beaded lacewings, thorny lacewings, and dipteromantispids), based on a new dated phylogeny and quantitative evolutionary analyses on modern and fossil species. We demonstrate a single origin of the raptorial foreleg and its associated novelties as key innovations triggering an early radiation of raptorial mantispoids from the Late Triassic to the Early Jurassic. Subsequently, the evolution of the raptorial foreleg influenced the diversification in different modes among lineages. At times, it might have limited the morphological diversity of other body parts and lead to lineage constraint by intensifying competition and lowering environmental resilience, e.g., in thorny lacewings, whose extant diversity is meagre. Conversely, in mantidflies, reduced emphasis on foreleg novelties and increased plasticity in other body parts may lead to better adaptation to predator-prey interactions and environmental shifts, thus maintaining a stable or accelerated level of diversification. We also reveal how major environmental change and lineage interactions interplayed with raptorial novelties in shaping the significant oscillations of mantispoid diversification over deep time, especially the abrupt shift near the mid-Cretaceous. However, by excluding a substantial portion of samples from the mid-Cretaceous of Myanmar, these shifts of some evolutionary parameters, such as morphological disparity, body size, and diversification rates, became inconspicuous and might be overestimated due to sampling bias. Our results uncover the intricate evolutionary patterns and profound significance of raptorial specializations, providing new insights into the role of novelties in forming evolutionary trajectories, both for the better and worse. [evolutionary novelty; macroevolution; diversification; raptorial foreleg; fossil; insect; Mantispoidea]
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来源期刊
Systematic Biology
Systematic Biology 生物-进化生物学
CiteScore
13.00
自引率
7.70%
发文量
70
审稿时长
6-12 weeks
期刊介绍: Systematic Biology is the bimonthly journal of the Society of Systematic Biologists. Papers for the journal are original contributions to the theory, principles, and methods of systematics as well as phylogeny, evolution, morphology, biogeography, paleontology, genetics, and the classification of all living things. A Points of View section offers a forum for discussion, while book reviews and announcements of general interest are also featured.
期刊最新文献
A Double-edged Sword: Evolutionary Novelty along Deep-time Diversity Oscillation in An Iconic Group of Predatory Insects (Neuroptera: Mantispoidea) Are Modern Cryptic Species Detectable in the Fossil Record? A Case Study on Agamid Lizards. Bayesian Selection of Relaxed-clock Models: Distinguishing Between Independent and Autocorrelated Rates. Testing relationships between multiple regional features and biogeographic processes of speciation, extinction, and dispersal Robustness of Divergence Time Estimation Despite Gene Tree Estimation Error: A Case Study of Fireflies (Coleoptera: Lampyridae)
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