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Genome sequences reveal global dispersal routes and suggest convergent genetic adaptations in seahorse evolution.

Chunyan LiMelisa OlaveYali HouGeng QinRalph F SchneiderZexia GaoXiaolong TuXin WangFurong QiAlexander NaterAndreas F KauttShiming WanYanhong ZhangYali LiuHuixian ZhangBo ZhangHao ZhangMeng QuShuaishuai LiuZeyu ChenJia ZhongHe ZhangLingfeng MengKai WangJianping YinLiangmin HuangByrappa VenkateshAxel MeyerXuemei LuQiang Lin
Published in: Nature communications (2021)
Seahorses have a circum-global distribution in tropical to temperate coastal waters. Yet, seahorses show many adaptations for a sedentary, cryptic lifestyle: they require specific habitats, such as seagrass, kelp or coral reefs, lack pelvic and caudal fins, and give birth to directly developed offspring without pronounced pelagic larval stage, rendering long-range dispersal by conventional means inefficient. Here we investigate seahorses' worldwide dispersal and biogeographic patterns based on a de novo genome assembly of Hippocampus erectus as well as 358 re-sequenced genomes from 21 species. Seahorses evolved in the late Oligocene and subsequent circum-global colonization routes are identified and linked to changing dynamics in ocean currents and paleo-temporal seaway openings. Furthermore, the genetic basis of the recurring "bony spines" adaptive phenotype is linked to independent substitutions in a key developmental gene. Analyses thus suggest that rafting via ocean currents compensates for poor dispersal and rapid adaptation facilitates colonizing new habitats.
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