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Main Authors: Brownstein, C D, Watkins-Colwell, G J, Policarpo, M, Harrington, R C, Hoffman, E A, Casane, D, Near, T J
Format: Artículo científico
Language:en
Published: Integrative organismal biology (Oxford, England) 2026
Online Access:https://pubmed.ncbi.nlm.nih.gov/42221688/
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author Brownstein, C D
Watkins-Colwell, G J
Policarpo, M
Harrington, R C
Hoffman, E A
Casane, D
Near, T J
author_facet Brownstein, C D
Watkins-Colwell, G J
Policarpo, M
Harrington, R C
Hoffman, E A
Casane, D
Near, T J
Brownstein, C D
Watkins-Colwell, G J
Policarpo, M
Harrington, R C
Hoffman, E A
Casane, D
Near, T J
collection PubMed - marine biology
contents Aquifer-Mediated Speciation in Cave-Adapted Fishes. Brownstein, C D Watkins-Colwell, G J Policarpo, M Harrington, R C Hoffman, E A Casane, D Near, T J The nature of speciation within subterranean ecosystems following invasions from the surface remains poorly understood. Most proposed examples of subterranean speciation instead appear to reflect multiple independent surface invasions, supporting the classic hypothesis that subterranean ecosystems are evolutionary dead ends. Here, we examine the species diversity within the most widespread subterranean vertebrate species, the Southern Cavefish . Phylogenomic analyses reveal that as currently recognized is paraphyletic with respect to the Missouri Cavefish , as a distinct set of populations is resolved as the sister lineage of a clade formed by and . High-resolution computed tomography (CT) scanning reveals skeletal autapomorphies of this lineage, supporting its recognition as a new species: sp. nov. Ancestral biogeographic reconstructions reveal that speciation in has occurred along aquifer boundaries, with lineages dispersing through widespread karstic aquifer systems across southeastern and central North America. This dispersal facilitated secondary sympatry among cavefish species that last shared common ancestry approximately eight million years ago. Together, these results reveal aquifer geology as a driver of allopatric speciation in obligate cave-dwelling vertebrates, with implications for understanding biodiversity in subterranean ecosystems worldwide.
format Artículo científico
id pubmed_42221688
institution PubMed
language en
publishDate 2026
publisher Integrative organismal biology (Oxford, England)
record_format pubmed
spellingShingle Aquifer-Mediated Speciation in Cave-Adapted Fishes.
Brownstein, C D
Watkins-Colwell, G J
Policarpo, M
Harrington, R C
Hoffman, E A
Casane, D
Near, T J
Aquifer-Mediated Speciation in Cave-Adapted Fishes. Brownstein, C D Watkins-Colwell, G J Policarpo, M Harrington, R C Hoffman, E A Casane, D Near, T J The nature of speciation within subterranean ecosystems following invasions from the surface remains poorly understood. Most proposed examples of subterranean speciation instead appear to reflect multiple independent surface invasions, supporting the classic hypothesis that subterranean ecosystems are evolutionary dead ends. Here, we examine the species diversity within the most widespread subterranean vertebrate species, the Southern Cavefish . Phylogenomic analyses reveal that as currently recognized is paraphyletic with respect to the Missouri Cavefish , as a distinct set of populations is resolved as the sister lineage of a clade formed by and . High-resolution computed tomography (CT) scanning reveals skeletal autapomorphies of this lineage, supporting its recognition as a new species: sp. nov. Ancestral biogeographic reconstructions reveal that speciation in has occurred along aquifer boundaries, with lineages dispersing through widespread karstic aquifer systems across southeastern and central North America. This dispersal facilitated secondary sympatry among cavefish species that last shared common ancestry approximately eight million years ago. Together, these results reveal aquifer geology as a driver of allopatric speciation in obligate cave-dwelling vertebrates, with implications for understanding biodiversity in subterranean ecosystems worldwide.
title Aquifer-Mediated Speciation in Cave-Adapted Fishes.
url https://pubmed.ncbi.nlm.nih.gov/42221688/