Population genetics and ecological niche modelling reveal high fragmentation and potential future extinction of the endangered relict butterfly Lycaena helle

Publikation: Beiträge in SammelwerkenKapitelbegutachtet

Standard

Population genetics and ecological niche modelling reveal high fragmentation and potential future extinction of the endangered relict butterfly Lycaena helle. / Habel, Jan Christian; Augenstein, Bettina; Meyer, Marc et al.
Relict species: Phylogeography and Conservation Biology. Hrsg. / Jan Christian Habel; Thorsten Assmann. Heidelberg [u.a.]: Springer, 2010. S. 417-439.

Publikation: Beiträge in SammelwerkenKapitelbegutachtet

Harvard

Habel, JC, Augenstein, B, Meyer, M, Nève, G, Rödder, D & Aßmann, T 2010, Population genetics and ecological niche modelling reveal high fragmentation and potential future extinction of the endangered relict butterfly Lycaena helle. in JC Habel & T Assmann (Hrsg.), Relict species: Phylogeography and Conservation Biology. Springer, Heidelberg [u.a.], S. 417-439. https://doi.org/10.1007/978-3-540-92160-8_25

APA

Habel, J. C., Augenstein, B., Meyer, M., Nève, G., Rödder, D., & Aßmann, T. (2010). Population genetics and ecological niche modelling reveal high fragmentation and potential future extinction of the endangered relict butterfly Lycaena helle. In J. C. Habel, & T. Assmann (Hrsg.), Relict species: Phylogeography and Conservation Biology (S. 417-439). Springer. https://doi.org/10.1007/978-3-540-92160-8_25

Vancouver

Habel JC, Augenstein B, Meyer M, Nève G, Rödder D, Aßmann T. Population genetics and ecological niche modelling reveal high fragmentation and potential future extinction of the endangered relict butterfly Lycaena helle. in Habel JC, Assmann T, Hrsg., Relict species: Phylogeography and Conservation Biology. Heidelberg [u.a.]: Springer. 2010. S. 417-439 doi: 10.1007/978-3-540-92160-8_25

Bibtex

@inbook{6687cae3ab5947c689d933ec076e4d08,
title = "Population genetics and ecological niche modelling reveal high fragmentation and potential future extinction of the endangered relict butterfly Lycaena helle",
abstract = "During the post-glacial warming, cold-adapted species shifted their distribution to higher latitudes and altitudes and became widely extinct over the European lowlands. The butterfly Lycaena helle shows this feature, and is currently distributed in highly isolated habitat remnants restricted to higher elevations over Central Europe. We analysed five polymorphic microsatellite loci and applied Climate Envelope Modelling. We detected strong genetic differentiation coinciding with the orographic structures of seven distinct mountain regions. This picture become underlined by deflecting levels of genetic diversity and the presence of private alleles, endemic for each single mountain area. Furthermore, genetic differentiation among populations within these mountain groups were detectable and reveal interrupted geneflow on a regional level. This genetic picture of a fragmented distribution coincides with the obtained pattern of potential suitable habitats given by a Climate Envelope Model. A scenario of further climate warming predicts a loss of the major parts of these areas and rising fragmentation of the remainings. The predicted extinction of some populations will cause the loss of unique alleles, which are recently restricted to the given populations. ",
keywords = "Biology, Allelic Richness, Private Allele, Future Climate Change Scenario, Hazel Grouse, Strong Genetic Differentiation",
author = "Habel, {Jan Christian} and Bettina Augenstein and Marc Meyer and Gabriel N{\`e}ve and Dennis R{\"o}dder and Thorsten A{\ss}mann",
note = "We acknowledge a grant from the Ministry of Culture, Education and Sciences Luxemburg (grant number BFR-05/118), the Natural History Museum Luxembourg. Thanks go to all lepidopterologists who helped us to collect the species and/or showed us suitable sites. We also thank Aline Finger (Z{\"u}rich, Switzerland) for the laboratory work and Thomas Schmitt (Trier, Germany) for critical comments on a draft version of this manuscript. ",
year = "2010",
doi = "10.1007/978-3-540-92160-8_25",
language = "English",
isbn = "978-3-540-92159-2",
pages = "417--439",
editor = "Habel, {Jan Christian} and Thorsten Assmann",
booktitle = "Relict species",
publisher = "Springer",
address = "Germany",

}

RIS

TY - CHAP

T1 - Population genetics and ecological niche modelling reveal high fragmentation and potential future extinction of the endangered relict butterfly Lycaena helle

AU - Habel, Jan Christian

AU - Augenstein, Bettina

AU - Meyer, Marc

AU - Nève, Gabriel

AU - Rödder, Dennis

AU - Aßmann, Thorsten

N1 - We acknowledge a grant from the Ministry of Culture, Education and Sciences Luxemburg (grant number BFR-05/118), the Natural History Museum Luxembourg. Thanks go to all lepidopterologists who helped us to collect the species and/or showed us suitable sites. We also thank Aline Finger (Zürich, Switzerland) for the laboratory work and Thomas Schmitt (Trier, Germany) for critical comments on a draft version of this manuscript.

PY - 2010

Y1 - 2010

N2 - During the post-glacial warming, cold-adapted species shifted their distribution to higher latitudes and altitudes and became widely extinct over the European lowlands. The butterfly Lycaena helle shows this feature, and is currently distributed in highly isolated habitat remnants restricted to higher elevations over Central Europe. We analysed five polymorphic microsatellite loci and applied Climate Envelope Modelling. We detected strong genetic differentiation coinciding with the orographic structures of seven distinct mountain regions. This picture become underlined by deflecting levels of genetic diversity and the presence of private alleles, endemic for each single mountain area. Furthermore, genetic differentiation among populations within these mountain groups were detectable and reveal interrupted geneflow on a regional level. This genetic picture of a fragmented distribution coincides with the obtained pattern of potential suitable habitats given by a Climate Envelope Model. A scenario of further climate warming predicts a loss of the major parts of these areas and rising fragmentation of the remainings. The predicted extinction of some populations will cause the loss of unique alleles, which are recently restricted to the given populations.

AB - During the post-glacial warming, cold-adapted species shifted their distribution to higher latitudes and altitudes and became widely extinct over the European lowlands. The butterfly Lycaena helle shows this feature, and is currently distributed in highly isolated habitat remnants restricted to higher elevations over Central Europe. We analysed five polymorphic microsatellite loci and applied Climate Envelope Modelling. We detected strong genetic differentiation coinciding with the orographic structures of seven distinct mountain regions. This picture become underlined by deflecting levels of genetic diversity and the presence of private alleles, endemic for each single mountain area. Furthermore, genetic differentiation among populations within these mountain groups were detectable and reveal interrupted geneflow on a regional level. This genetic picture of a fragmented distribution coincides with the obtained pattern of potential suitable habitats given by a Climate Envelope Model. A scenario of further climate warming predicts a loss of the major parts of these areas and rising fragmentation of the remainings. The predicted extinction of some populations will cause the loss of unique alleles, which are recently restricted to the given populations.

KW - Biology

KW - Allelic Richness

KW - Private Allele

KW - Future Climate Change Scenario

KW - Hazel Grouse

KW - Strong Genetic Differentiation

UR - http://www.scopus.com/inward/record.url?scp=84920168716&partnerID=8YFLogxK

U2 - 10.1007/978-3-540-92160-8_25

DO - 10.1007/978-3-540-92160-8_25

M3 - Chapter

SN - 978-3-540-92159-2

SP - 417

EP - 439

BT - Relict species

A2 - Habel, Jan Christian

A2 - Assmann, Thorsten

PB - Springer

CY - Heidelberg [u.a.]

ER -

DOI