生物
进化生物学
表型
背景(考古学)
殖民地化
适应(眼睛)
适应性辐射
多元化(营销策略)
适应性进化
性状
宏观进化
生态学
航程(航空)
系统发育学
进化动力学
现存分类群
表型可塑性
进化发育生物学
自适应值
适应性策略
谱系(遗传)
形态学(生物学)
进化生态学
生命史理论
遗传算法
系统基因组学
多酚类物质
局部适应
动物
作者
Zezhong Jin,Mu Qiao,Siying Fu,ZIHE LI,Boxiong Guo,HONGJIAO LI,Zhaoqi Leng,Matthew R. Pintar,Jakob Damgaard,Benjamin L. Makepeace,Silvia A. Mazzucconi,Gavril Marius Berchi,Fabio Cianferoni,Dan A. Polhemus,Kohei Watanabe,Jun Nakajima,Seraphine Esemu,Chen Liu,Beichen Zhang,Huanhuan Yang
标识
DOI:10.1073/pnas.2534611123
摘要
Understanding how the remarkable phenotypic diversity observed in organisms arises through shifts in macroevolutionary patterns and tempos is a fundamental challenge in evolutionary biology. Phenotypes often evolve in a mosaic pattern during adaptive transitions. For organisms that have invaded highly specialized habitats, such as the unique two-phase interface habitats (water surfaces), the macroevolutionary history of their phenotypic diversification remains only superficially understood. Semiaquatic bugs (Insecta: Heteroptera: Gerromorpha), which exhibit extensive habitat diversification and unparalleled phenotypic innovation, represent one of the most successful extant adaptive groups at this interface and provide an excellent system for study. By analyzing their adaptive transitions and phenotypic macroevolutionary history, we demonstrate that Gerromorpha experienced a single major adaptive transition from land to the water surface. Subsequently, semiaquatic bugs successfully colonized a wide range of distinct water-surface habitats. During this process, phenotypic space was explored under strong constraints and along pronounced mosaic trajectories; i.e., different body regions exhibited markedly distinct patterns of phenotypic space occupation and partitioning, as well as markedly different evolutionary rates. Furthermore, we showed that this mosaic pattern of phenotypic space occupation and rates of exploration had complex and critical effects on the invasion and colonization of water-surface habitats. Our study provides a typical case of macroevolutionary dynamics in species adapted to specialized air-water interface habitats, emphasizing the complex and significant roles of environmental context and functional demands in shaping patterns of phenotypic evolution.
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