Genomic Signatures of Host-associated Divergence and Adaptation in a Coral-eating Snail, (Kiener, 1836)

Overview

Journal Ecol Evol

Date 2020 Mar 5

PMID 32128119

Citations 2

Authors

Sara E Simmonds

Allison L Fritts-Penniman

Samantha H Cheng

Gusti Ngurah Mahardika

Paul H Barber

Affiliations

Soon will be listed here.

Abstract

The fluid nature of the ocean, combined with planktonic dispersal of marine larvae, lowers physical barriers to gene flow. However, divergence can still occur despite gene flow if strong selection acts on populations occupying different ecological niches. Here, we examined the population genomics of an ectoparasitic snail, (Kiener 1836), that specializes on corals in the Indo-Pacific. Previous genetic analyses revealed two sympatric lineages associated with different coral hosts. In this study, we examined the mechanisms promoting and maintaining the snails' adaptation to their coral hosts. Genome-wide single nucleotide polymorphism (SNP) data from type II restriction site-associated DNA (2b-RAD) sequencing revealed two differentiated clusters of that were largely concordant with coral host, consistent with previous genetic results. However, the presence of some admixed genotypes indicates gene flow from one lineage to the other. Combined, these results suggest that differentiation between host-associated lineages of is occurring in the face of ongoing gene flow, requiring strong selection. Indeed, 2.7% of all SNP loci were outlier loci (73/2,718), indicative of divergence with gene flow, driven by adaptation of each lineage to their specific coral hosts.

Citing Articles

Low genome-wide divergence between two lizard populations with high adaptive phenotypic differentiation.

Llanos-Garrido A, Perez-Tris J, Diaz J Ecol Evol. 2022; 11(24):18055-18065.

PMID: 35003657 PMC: 8717303. DOI: 10.1002/ece3.8403.

Genomic signatures of host-associated divergence and adaptation in a coral-eating snail, (Kiener, 1836).

Simmonds S, Fritts-Penniman A, Cheng S, Mahardika G, Barber P Ecol Evol. 2020; 10(4):1817-1837.

PMID: 32128119 PMC: 7042750. DOI: 10.1002/ece3.5977.

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