TY - JOUR
T1 - Genome sequences reveal global dispersal routes and suggest convergent genetic adaptations in seahorse evolution
AU - Li, Chunyan
AU - Olave, Melisa
AU - Hou, Yali
AU - Qin, Geng
AU - Schneider, Ralf F.
AU - Gao, Zexia
AU - Tu, Xiaolong
AU - Wang, Xin
AU - Qi, Furong
AU - Nater, Alexander
AU - Kautt, Andreas F.
AU - Wan, Shiming
AU - Zhang, Yanhong
AU - Liu, Yali
AU - Zhang, Huixian
AU - Zhang, Bo
AU - Zhang, Hao
AU - Qu, Meng
AU - Liu, Shuaishuai
AU - Chen, Zeyu
AU - Zhong, Jia
AU - Zhang, He
AU - Meng, Lingfeng
AU - Wang, Kai
AU - Yin, Jianping
AU - Huang, Liangmin
AU - Venkatesh, Byrappa
AU - Meyer, Axel
AU - Lu, Xuemei
AU - Lin, Qiang
N1 - Publisher Copyright:
© 2021, The Author(s).
PY - 2021/12/1
Y1 - 2021/12/1
N2 - 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.
AB - 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.
UR - http://www.scopus.com/inward/record.url?scp=85101074778&partnerID=8YFLogxK
U2 - 10.1038/s41467-021-21379-x
DO - 10.1038/s41467-021-21379-x
M3 - Article
C2 - 33597547
AN - SCOPUS:85101074778
SN - 2041-1723
VL - 12
JO - Nature communications
JF - Nature communications
IS - 1
M1 - 1094
ER -