气候变化领域集成服务门户(CCPortal): A time-calibrated 'Tree of Life' of aquatic insects for knitting historical patterns of evolution and measuring extant phylogenetic biodiversity across the world

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DOI	10.1016/j.earscirev.2024.104767
	A time-calibrated 'Tree of Life' of aquatic insects for knitting historical patterns of evolution and measuring extant phylogenetic biodiversity across the world
	Garcia-Giron, Jorge; Murria, Cesc; Arnedo, Miquel A.; Bonada, Nuria; Canedo-Arguelles, Miguel; Derka, Tomas; Fernandez-Calero, Jose Maria; Li, Zhengfei; de Figueroa, Jose Manuel Tierno; Xie, Zhicai; Heino, Jani
发表日期	2024
ISSN	0012-8252
EISSN	1872-6828
起始页码	252
卷号	252
英文摘要	The extent to which the sequence and timing of important events on Earth have influenced biological evolution through geological time is a matter of ongoing debate. In this context, the phylogenetic history of aquatic insects remains largely elusive, and our understanding of their chronology is fragmentary and incomplete at best. Here, after gathering a comprehensive data matrix of 3125 targeted rRNA and protein -coding gene sequences from nine independent gene portions, we built a well -supported time -calibrated phylogenetic tree comprising almost 1200 genera that represent a large proportion of extant families of dragonflies and damselflies (Odonata), mayflies (Ephemeroptera), stoneflies (Plecoptera), and caddisflies (Trichoptera). We reviewed the main evolutionary and historical scenarios for each aquatic insect lineage as revealed by our best -scoring molecular tree topology, major ancient radiations, calibrated divergence estimates, and important events in geological history related to the spatial arrangement of land masses, continental drift, and mass extinctions. Molecular dating using the birth -death model of speciation, with a lognormal -relaxed model of sequence evolution informed by transcriptomic constraints, suggested that (i) dragonflies and damselflies first radiated approximately 220 million years (Ma) ago and most extant lineages thrived independently after the Triassic -Jurassic (Tr -J) extinction event; (ii) mayflies underwent bursts of diversification during the Cretaceous; (iii) ancestral divergence separating the stonefly suborders Arctoperlaria and Antarctoperlaria was consistent with geographical isolation after vicariant fragmentation and tectonic splitting of the supercontinent Pangaea around 170 Ma ago; and (iv) the most recent common ancestors of caddisflies extended back to the time of Pangaea, supporting the earliest offshoot of the 'retreat -making ' Annulipalpia and a sister relationship between the predatory free-living Rhyacophilidae and Hydrobiosidae. Our 'Tree of Life ' of aquatic insects also resolved shallow phylogenetic relationships related to key evolutionary innovations, such as the convergent evolution of exophytic oviposition in dragonflies or the Jurassic origins of the burrowing lifestyle in mayflies. In this study, we also illustrate how our time -calibrated phylogeny can help to integrate phylogenetic aspects in biogeographical and ecological research across the world. To do so, we used three empirical datasets of stream insects from subarctic Finland, northeastern Spain, and southeastern Tibet as exemplary cases. These examples of application tested ecogeographical mechanisms related to (i) the responses of size structural resemblances to phylogenetic constraints, and patterns of (ii) phylogenetic relatedness and (iii) phylogenetic uniqueness along elevational and flow -intermittence gradients, respectively. We emphasise how specific details capturing different aspects of phylogenetic variation are dependent on the geological, geographical, and environmental contexts in different drainage basins. We finally highlight potential venues for future research, including evaluations of geographical patterns of phylogenetic diversity in space and time, evolution of ecological characters in relation to palaeoclimatic variation, and development of complementary algorithms for conservation prioritisation of evolutionarily valuable bioregions for aquatic insects. Overall, we hope that this work will stimulate multidisciplinary research efforts among different areas of the biogeosciences towards safeguarding the phylogenetic heritage of extant aquatic insects across the world.
英文关键词	Caddisfly; Freshwater; Macroinvertebrate; Mayfly; Odonate; Stonefly
语种	英语
WOS研究方向	Geology
WOS类目	Geosciences, Multidisciplinary
WOS记录号	WOS:001227517400001
来源期刊	EARTH-SCIENCE REVIEWS
文献类型	期刊论文
条目标识符	http://gcip.llas.ac.cn/handle/2XKMVOVA/306709
作者单位	University of Oulu; Universidad de Leon; University of Barcelona; University of Barcelona; University of Barcelona; Consejo Superior de Investigaciones Cientificas (CSIC); CSIC - Centro de Investigacion y Desarrollo Pascual Vila (CID-CSIC); CSIC - Instituto de Diagnostico Ambiental y Estudios del Agua (IDAEA); Comenius University Bratislava; Chinese Academy of Sciences; Institute of Hydrobiology, CAS; University of Granada
推荐引用方式 GB/T 7714	Garcia-Giron, Jorge,Murria, Cesc,Arnedo, Miquel A.,et al. A time-calibrated 'Tree of Life' of aquatic insects for knitting historical patterns of evolution and measuring extant phylogenetic biodiversity across the world[J],2024,252.
APA	Garcia-Giron, Jorge.,Murria, Cesc.,Arnedo, Miquel A..,Bonada, Nuria.,Canedo-Arguelles, Miguel.,...&Heino, Jani.(2024).A time-calibrated 'Tree of Life' of aquatic insects for knitting historical patterns of evolution and measuring extant phylogenetic biodiversity across the world.EARTH-SCIENCE REVIEWS,252.
MLA	Garcia-Giron, Jorge,et al."A time-calibrated 'Tree of Life' of aquatic insects for knitting historical patterns of evolution and measuring extant phylogenetic biodiversity across the world".EARTH-SCIENCE REVIEWS 252(2024).