Integrative taxonomy refutes a species hypothesis: The asymmetric hybrid origin of Arsapnia arapahoe (Plecoptera, Capniidae)

Integrative taxonomy refutes a species hypothesis: The asymmetric hybrid origin of Arsapnia arapahoe (Plecoptera, Capniidae)

Abstract Molecular tools are commonly directed at refining taxonomies and the species that constitute their fundamental units. This has been especially insightful for groups for which species hypotheses are ambiguous and have largely been based on morphological differences between certain life stage...

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Main Authors: Michael K. Young, Rebecca J. Smith, Kristine L. Pilgrim, Matthew P. Fairchild, Michael K. Schwartz
Format: Article
Language:English
Published: Wiley 2019-02-01
Series:Ecology and Evolution
Subjects:
cryptic taxa
ESA
GBS
hybrid zone
nonintrogressive hybridization
stonefly
Online Access:https://doi.org/10.1002/ece3.4852
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spelling doaj-6ecc82593bea4ba6b2222a4a9aff64b42021-04-02T12:54:05ZengWileyEcology and Evolution2045-77582019-02-01931364137710.1002/ece3.4852Integrative taxonomy refutes a species hypothesis: The asymmetric hybrid origin of Arsapnia arapahoe (Plecoptera, Capniidae)Michael K. Young0Rebecca J. Smith1Kristine L. Pilgrim2Matthew P. Fairchild3Michael K. Schwartz4U.S. Forest Service, Rocky Mountain Research Station, National Genomics Center for Wildlife and Fish Conservation Missoula MontanaU.S. Forest Service, Rocky Mountain Research Station, National Genomics Center for Wildlife and Fish Conservation Missoula MontanaU.S. Forest Service, Rocky Mountain Research Station, National Genomics Center for Wildlife and Fish Conservation Missoula MontanaU.S. Forest Service, Arapaho and Roosevelt National Forest Fort Collins ColoradoU.S. Forest Service, Rocky Mountain Research Station, National Genomics Center for Wildlife and Fish Conservation Missoula MontanaAbstract Molecular tools are commonly directed at refining taxonomies and the species that constitute their fundamental units. This has been especially insightful for groups for which species hypotheses are ambiguous and have largely been based on morphological differences between certain life stages or sexes, and has added importance when taxa are a focus of conservation efforts. Here, we examine the taxonomic status of Arsapnia arapahoe, a winter stonefly in the family Capniidae that is a species of conservation concern because of its limited abundance and restricted range in northern Colorado, USA. Phylogenetic analyses of sequences of mitochondrial and nuclear genes of this and other capniid stoneflies from this region and elsewhere in western North America indicated extensive haplotype sharing, limited genetic differences, and a lack of reciprocal monophyly between A. arapahoe and the sympatric A. decepta, despite distinctive and consistent morphological differences in the sexual apparatus of males of both species. Analyses of autosomal and sex‐linked single nucleotide polymorphisms detected using genotyping by sequencing indicated that all individuals of A. arapahoe consisted of F1 hybrids between female A. decepta and males of another sympatric stonefly, Capnia gracilaria. Rather than constitute a self‐sustaining evolutionary lineage, A. arapahoe appears to represent the product of nonintrogressive hybridization in the limited area of syntopy between two widely distributed taxa. This offers a cautionary tale for taxonomists and conservation biologists working on the less‐studied components of the global fauna.https://doi.org/10.1002/ece3.4852cryptic taxaESAGBShybrid zonenonintrogressive hybridizationstonefly
collection DOAJ
language English
format Article
sources DOAJ
author Michael K. Young
Rebecca J. Smith
Kristine L. Pilgrim
Matthew P. Fairchild
Michael K. Schwartz
spellingShingle Michael K. Young
Rebecca J. Smith
Kristine L. Pilgrim
Matthew P. Fairchild
Michael K. Schwartz
Integrative taxonomy refutes a species hypothesis: The asymmetric hybrid origin of Arsapnia arapahoe (Plecoptera, Capniidae)
Ecology and Evolution
cryptic taxa
ESA
GBS
hybrid zone
nonintrogressive hybridization
stonefly
author_facet Michael K. Young
Rebecca J. Smith
Kristine L. Pilgrim
Matthew P. Fairchild
Michael K. Schwartz
author_sort Michael K. Young
title Integrative taxonomy refutes a species hypothesis: The asymmetric hybrid origin of Arsapnia arapahoe (Plecoptera, Capniidae)
title_short Integrative taxonomy refutes a species hypothesis: The asymmetric hybrid origin of Arsapnia arapahoe (Plecoptera, Capniidae)
title_full Integrative taxonomy refutes a species hypothesis: The asymmetric hybrid origin of Arsapnia arapahoe (Plecoptera, Capniidae)
title_fullStr Integrative taxonomy refutes a species hypothesis: The asymmetric hybrid origin of Arsapnia arapahoe (Plecoptera, Capniidae)
title_full_unstemmed Integrative taxonomy refutes a species hypothesis: The asymmetric hybrid origin of Arsapnia arapahoe (Plecoptera, Capniidae)
title_sort integrative taxonomy refutes a species hypothesis: the asymmetric hybrid origin of arsapnia arapahoe (plecoptera, capniidae)
publisher Wiley
series Ecology and Evolution
issn 2045-7758
publishDate 2019-02-01
description Abstract Molecular tools are commonly directed at refining taxonomies and the species that constitute their fundamental units. This has been especially insightful for groups for which species hypotheses are ambiguous and have largely been based on morphological differences between certain life stages or sexes, and has added importance when taxa are a focus of conservation efforts. Here, we examine the taxonomic status of Arsapnia arapahoe, a winter stonefly in the family Capniidae that is a species of conservation concern because of its limited abundance and restricted range in northern Colorado, USA. Phylogenetic analyses of sequences of mitochondrial and nuclear genes of this and other capniid stoneflies from this region and elsewhere in western North America indicated extensive haplotype sharing, limited genetic differences, and a lack of reciprocal monophyly between A. arapahoe and the sympatric A. decepta, despite distinctive and consistent morphological differences in the sexual apparatus of males of both species. Analyses of autosomal and sex‐linked single nucleotide polymorphisms detected using genotyping by sequencing indicated that all individuals of A. arapahoe consisted of F1 hybrids between female A. decepta and males of another sympatric stonefly, Capnia gracilaria. Rather than constitute a self‐sustaining evolutionary lineage, A. arapahoe appears to represent the product of nonintrogressive hybridization in the limited area of syntopy between two widely distributed taxa. This offers a cautionary tale for taxonomists and conservation biologists working on the less‐studied components of the global fauna.
topic cryptic taxa
ESA
GBS
hybrid zone
nonintrogressive hybridization
stonefly
url https://doi.org/10.1002/ece3.4852
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