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Local environmental selection and lineage admixture act as significant mechanisms in the adaptation of the widespread East Asian pond skater<i>Gerris latiabdominis</i>to heterogeneous landscapes

Zhen Ye, Juanjuan Yuan, Ya-Hui Zhen, Jakob Damgaard, Kazutaka Yamada, Xiuxiu Zhu, Kun Jiang, Xin Yang, Wenwu Wang, Shujing Wang, Jingyu Liang, Siying Fu, Pingping Chen, Wenjun Bu

2020Journal of Biogeography17 citationsDOI

Abstract

Abstract Aim Local environmental selection and lineage admixture have long been accepted as important adaptive mechanisms in adjusting widespread taxa to new environments. We studied a pond skater, Gerris latiabdominis , to explore the relative roles played by these two mechanisms in its process of adaptation to heterogeneous landscapes. Location East Asia. Taxon Gerris latiabdominis Miyamoto, 1958. Methods Mitochondrial (COI, COII) and nuclear (ddRAD‐seq) markers were sequenced from 202 individuals. Phylogenetic and phylogeographical analyses were conducted to reveal the population genetic structure. The demographical history was simulated by approximate Bayesian computation (ABC). The single‐nucleotide polymorphisms (SNPs) that may have been subjected to natural divergent selection among the populations were assessed, and the recent migration rates were estimated. Finally, shifts in suitable habitat from the last interglacial (LIG) to the present were predicted through ecological niche modelling (ENM). Results We found population structures inferred from both mitochondrial and nuclear genomes to be almost coincident and to correspond to temporal or spatial heterogeneity. The early Pliocene splitting event between the northern (NO) and southeastern (SE) groups is consistent with the ‘arid belt hypothesis’, followed by local environmental selection. Approximate Bayesian computation and gene flow estimation strongly suggested that the southwestern (SW) groups originated from a lineage admixture event between the SE and western (WE) groups and subsequently underwent ongoing gene flow from the SE group during the Pleistocene. The mito‐nuclear discordance pattern in the SW group was probably due to the ancient mitochondrial differentiation. Main conclusion Our results suggest that both local environmental selection and lineage admixture acted as significant mechanisms of G. latiabdominis adaptation to heterogeneous landscapes in East Asia. Furthermore, this study showed that conclusions based exclusively on mitochondrial data might mislead taxonomic, phylogenetic and phylogeographical studies.

Topics & Concepts

East AsiaAdaptation (eye)Lineage (genetic)GeographySelection (genetic algorithm)EcologyEvolutionary biologyLocal adaptationBiologyArchaeologyChinaDemographyGeneticsGeneComputer scienceNeuroscienceArtificial intelligenceSociologyPopulationIdentification and Quantification in FoodFish Ecology and Management StudiesWildlife Ecology and Conservation
Local environmental selection and lineage admixture act as significant mechanisms in the adaptation of the widespread East Asian pond skater<i>Gerris latiabdominis</i>to heterogeneous landscapes | Litcius