What question did this study set out to answer?

This research aims to explore how ecological factors influence phenotypic divergence in riverine fishes during allopatric speciation.

March 26, 2026

Digest: Ecology shapes divergence during allopatric speciation in riverine fishes

Key Points

This research aims to explore how ecological factors influence phenotypic divergence in riverine fishes during allopatric speciation.
Integrated phylogenomics, morphology, diet, and environmental data
Focused on darters from the Central Highlands of the United States
Analyzed ecological variables alongside genetic and geographic data
Phenotypic divergence observed in allopatrically distributed riverine fish species
Divergence time, genomic isolation, and geographic distance do not predict the degree of phenotypic disparity
Ecology plays a contingent role in shaping evolutionary outcomes during allopatry

Abstract

Allopatric speciation in riverine fishes is often assumed to be ecologically neutral, with divergence driven primarily by geographic isolation and genetic drift. However, recent work on darters from the Central Highlands of the United States reveals that ecological divergence during allopatry is highly variable and context dependent. By integrating phylogenomics, morphology, diet, and environmental data, Stokes et al. (2026) demonstrate that phenotypic divergence can arise in allopatrically distributed riverine fish species. However, the degree of phenotypic disparity is not predicted by divergence time, genomic isolation, or geographic distance, highlighting a contingent role for ecology in shaping evolutionary outcomes under allopatry.

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Digest: Ecology shapes divergence during allopatric speciation in riverine fishes

Key Points

Abstract

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