Diversification of the cold-adapted butterfly genus Oeneis related to Holarctic biogeography and climatic niche shifts

Both geographical and ecological speciation interact during the evolution of a clade, but the relative contribution of these processes is rarely assessed for cold-dwelling biota. Here, we investigate the role of biogeography and the evolution of ecological traits on the diversification of the Holarc...

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Main Authors: Kleckova, I., Cesanek, M., Fric, Z., Pellissier, Loïc
Language:English
Published: 2015
Subjects:
Arctic
Hora
Online Access:http://doc.rero.ch/record/257840/files/pel_dca.pdf
http://doc.rero.ch/record/257840/files/pel_dca_sm.pdf
id ftreroch:oai:doc.rero.ch:20151218092207-DT
record_format openpolar
spelling ftreroch:oai:doc.rero.ch:20151218092207-DT 2023-05-15T15:09:05+02:00 Diversification of the cold-adapted butterfly genus Oeneis related to Holarctic biogeography and climatic niche shifts Kleckova, I. Cesanek, M. Fric, Z. Pellissier, Loïc 2015-12-18T08:24:28Z http://doc.rero.ch/record/257840/files/pel_dca.pdf http://doc.rero.ch/record/257840/files/pel_dca_sm.pdf eng eng http://doc.rero.ch/record/257840/files/pel_dca.pdf http://doc.rero.ch/record/257840/files/pel_dca_sm.pdf 2015 ftreroch 2023-02-16T17:26:33Z Both geographical and ecological speciation interact during the evolution of a clade, but the relative contribution of these processes is rarely assessed for cold-dwelling biota. Here, we investigate the role of biogeography and the evolution of ecological traits on the diversification of the Holarctic arcto-alpine butterfly genus Oeneis (Lepidoptera: Satyrinae). We reconstructed the molecular phylogeny of the genus based on one mitochondrial (COI) and three nuclear (GAPDH, RpS5, wingless) genes. We inferred the biogeographical scenario and the ancestral state reconstructions of climatic and habitat requirements. Within the genus, we detected five main species groups corresponding to the taxonomic division and further paraphyletic position of Neominois (syn. n.). Next, we transferred O. aktashi from the hora to the polixenes species group on the bases of molecular relationships. We found that the genus originated in the dry grasslands of the mountains of Central Asia and dispersed over the Beringian Land Bridges to North America several times independently. Holarctic mountains, in particular the Asian Altai Mts. and Sayan Mts., host the oldest lineages and most of the species diversity. Arctic species are more recent, with Pliocene or Pleistocene origin. We detected a strong phylogenetic signal for the climatic niche, where one lineage diversified towards colder conditions. Altogether, our results indicate that both dispersal across geographical areas and occupation of distinct climatic niches promoted the diversification of the Oeneis genus. Other/Unknown Material Arctic RERO DOC Digital Library Arctic Hora ENVELOPE(15.744,15.744,67.445,67.445)
institution Open Polar
collection RERO DOC Digital Library
op_collection_id ftreroch
language English
description Both geographical and ecological speciation interact during the evolution of a clade, but the relative contribution of these processes is rarely assessed for cold-dwelling biota. Here, we investigate the role of biogeography and the evolution of ecological traits on the diversification of the Holarctic arcto-alpine butterfly genus Oeneis (Lepidoptera: Satyrinae). We reconstructed the molecular phylogeny of the genus based on one mitochondrial (COI) and three nuclear (GAPDH, RpS5, wingless) genes. We inferred the biogeographical scenario and the ancestral state reconstructions of climatic and habitat requirements. Within the genus, we detected five main species groups corresponding to the taxonomic division and further paraphyletic position of Neominois (syn. n.). Next, we transferred O. aktashi from the hora to the polixenes species group on the bases of molecular relationships. We found that the genus originated in the dry grasslands of the mountains of Central Asia and dispersed over the Beringian Land Bridges to North America several times independently. Holarctic mountains, in particular the Asian Altai Mts. and Sayan Mts., host the oldest lineages and most of the species diversity. Arctic species are more recent, with Pliocene or Pleistocene origin. We detected a strong phylogenetic signal for the climatic niche, where one lineage diversified towards colder conditions. Altogether, our results indicate that both dispersal across geographical areas and occupation of distinct climatic niches promoted the diversification of the Oeneis genus.
author Kleckova, I.
Cesanek, M.
Fric, Z.
Pellissier, Loïc
spellingShingle Kleckova, I.
Cesanek, M.
Fric, Z.
Pellissier, Loïc
Diversification of the cold-adapted butterfly genus Oeneis related to Holarctic biogeography and climatic niche shifts
author_facet Kleckova, I.
Cesanek, M.
Fric, Z.
Pellissier, Loïc
author_sort Kleckova, I.
title Diversification of the cold-adapted butterfly genus Oeneis related to Holarctic biogeography and climatic niche shifts
title_short Diversification of the cold-adapted butterfly genus Oeneis related to Holarctic biogeography and climatic niche shifts
title_full Diversification of the cold-adapted butterfly genus Oeneis related to Holarctic biogeography and climatic niche shifts
title_fullStr Diversification of the cold-adapted butterfly genus Oeneis related to Holarctic biogeography and climatic niche shifts
title_full_unstemmed Diversification of the cold-adapted butterfly genus Oeneis related to Holarctic biogeography and climatic niche shifts
title_sort diversification of the cold-adapted butterfly genus oeneis related to holarctic biogeography and climatic niche shifts
publishDate 2015
url http://doc.rero.ch/record/257840/files/pel_dca.pdf
http://doc.rero.ch/record/257840/files/pel_dca_sm.pdf
long_lat ENVELOPE(15.744,15.744,67.445,67.445)
geographic Arctic
Hora
geographic_facet Arctic
Hora
genre Arctic
genre_facet Arctic
op_relation http://doc.rero.ch/record/257840/files/pel_dca.pdf
http://doc.rero.ch/record/257840/files/pel_dca_sm.pdf
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