Range-wide phylogeography of the European temperate-montane herbaceous plant Meum athamanticum Jacq.: evidence for periglacial persistence
Identifieur interne : 000660 ( PascalFrancis/Corpus ); précédent : 000659; suivant : 000661Range-wide phylogeography of the European temperate-montane herbaceous plant Meum athamanticum Jacq.: evidence for periglacial persistence
Auteurs : Stefan Huck ; Burkhard Büdel ; Joachim W. Kadereit ; Christian PrintzenSource :
- Journal of biogeography [ 0305-0270 ] ; 2009.
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Abstract
Aim The aim of this study is to analyse the genetic population structure of Meum athamanticum Jacq. in order to explore the alternative hypotheses (1) that the central and northern highland populations are the result of post-glacial recolonization from southern refugia, and the disjunct distribution of M. athamanticum can be explained by modern ecological conditions, or (2) that extant populations north of the Alps and Pyrenees persisted in situ during glacial periods. Location Europe. Methods Variation of amplified fragment length polymorphisms (AFLPs) was analysed for 23 populations from the entire range of the species. We used band-based approaches and methods based on allele frequencies to measure genetic diversity and to identify population structure. Results Our analyses reveal a north-south differentiation within M. athamanticum. High levels of genetic diversity, as well as private fragments, are found in populations both north and south of the Alps. Differentiation among populations is lower in the northern than in the southern population group, and significant isolation-by-distance is found only in the latter group. Main conclusions Our results indicate that M. athamanticum survived the last ice age in multiple refugia throughout its contemporary range and did not expand into areas north of the Alps from southern refugia. We found evidence that regional-scale migration in northern, formerly periglacial, parts of the species range has resulted in the intermingling of populations. In contrast, southern populations are characterized by long-term isolation. The south-west Alps represent an area where immigration and mixing of populations from northern and southern refugia appears to have taken place.
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NO : | PASCAL 09-0353705 INIST |
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ET : | Range-wide phylogeography of the European temperate-montane herbaceous plant Meum athamanticum Jacq.: evidence for periglacial persistence |
AU : | HUCK (Stefan); BÜDEL (Burkhard); KADEREIT (Joachim W.); PRINTZEN (Christian) |
AF : | Department of Biogeography, University of Trier/Trier/Allemagne (1 aut.); Department of Biology, University of Kaiserslautern, Plant Ecology and Systematics/Kaiserslautern/Allemagne (2 aut.); Institut für Spezielle Botanik und Botanischer Garten, Johannes Gutenberg-Universität Mainz/Mainz/Allemagne (3 aut.); Department of Botany and Molecular Evolution, Senckenberg - Research Institute and Natural History Museum/Frankfurt am Main/Allemagne (4 aut.) |
DT : | Publication en série; Niveau analytique |
SO : | Journal of biogeography; ISSN 0305-0270; Coden JBIODN; Royaume-Uni; Da. 2009; Vol. 36; No. 8; Pp. 1588-1599; Bibl. 2 p.3/4 |
LA : | Anglais |
EA : | Aim The aim of this study is to analyse the genetic population structure of Meum athamanticum Jacq. in order to explore the alternative hypotheses (1) that the central and northern highland populations are the result of post-glacial recolonization from southern refugia, and the disjunct distribution of M. athamanticum can be explained by modern ecological conditions, or (2) that extant populations north of the Alps and Pyrenees persisted in situ during glacial periods. Location Europe. Methods Variation of amplified fragment length polymorphisms (AFLPs) was analysed for 23 populations from the entire range of the species. We used band-based approaches and methods based on allele frequencies to measure genetic diversity and to identify population structure. Results Our analyses reveal a north-south differentiation within M. athamanticum. High levels of genetic diversity, as well as private fragments, are found in populations both north and south of the Alps. Differentiation among populations is lower in the northern than in the southern population group, and significant isolation-by-distance is found only in the latter group. Main conclusions Our results indicate that M. athamanticum survived the last ice age in multiple refugia throughout its contemporary range and did not expand into areas north of the Alps from southern refugia. We found evidence that regional-scale migration in northern, formerly periglacial, parts of the species range has resulted in the intermingling of populations. In contrast, southern populations are characterized by long-term isolation. The south-west Alps represent an area where immigration and mixing of populations from northern and southern refugia appears to have taken place. |
CC : | 002A14B04A |
FD : | Europe; Montagne; Plante herbacée; Persistance; Survie; Structure population; Biogéographie; Phylogéographie |
ED : | Europe; Mountain; Herbaceous plant; Persistence; Survival; Population structure; Biogeography; Phylogeography |
SD : | Europa; Montaña; Planta herbácea; Persistencia; Sobrevivencia; Estructura población; Biogeografía; Filogeografia |
LO : | INIST-15698.354000172440480150 |
ID : | 09-0353705 |
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Pascal:09-0353705Le document en format XML
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<front><div type="abstract" xml:lang="en">Aim The aim of this study is to analyse the genetic population structure of Meum athamanticum Jacq. in order to explore the alternative hypotheses (1) that the central and northern highland populations are the result of post-glacial recolonization from southern refugia, and the disjunct distribution of M. athamanticum can be explained by modern ecological conditions, or (2) that extant populations north of the Alps and Pyrenees persisted in situ during glacial periods. Location Europe. Methods Variation of amplified fragment length polymorphisms (AFLPs) was analysed for 23 populations from the entire range of the species. We used band-based approaches and methods based on allele frequencies to measure genetic diversity and to identify population structure. Results Our analyses reveal a north-south differentiation within M. athamanticum. High levels of genetic diversity, as well as private fragments, are found in populations both north and south of the Alps. Differentiation among populations is lower in the northern than in the southern population group, and significant isolation-by-distance is found only in the latter group. Main conclusions Our results indicate that M. athamanticum survived the last ice age in multiple refugia throughout its contemporary range and did not expand into areas north of the Alps from southern refugia. We found evidence that regional-scale migration in northern, formerly periglacial, parts of the species range has resulted in the intermingling of populations. In contrast, southern populations are characterized by long-term isolation. The south-west Alps represent an area where immigration and mixing of populations from northern and southern refugia appears to have taken place.</div>
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<ET>Range-wide phylogeography of the European temperate-montane herbaceous plant Meum athamanticum Jacq.: evidence for periglacial persistence</ET>
<AU>HUCK (Stefan); BÜDEL (Burkhard); KADEREIT (Joachim W.); PRINTZEN (Christian)</AU>
<AF>Department of Biogeography, University of Trier/Trier/Allemagne (1 aut.); Department of Biology, University of Kaiserslautern, Plant Ecology and Systematics/Kaiserslautern/Allemagne (2 aut.); Institut für Spezielle Botanik und Botanischer Garten, Johannes Gutenberg-Universität Mainz/Mainz/Allemagne (3 aut.); Department of Botany and Molecular Evolution, Senckenberg - Research Institute and Natural History Museum/Frankfurt am Main/Allemagne (4 aut.)</AF>
<DT>Publication en série; Niveau analytique</DT>
<SO>Journal of biogeography; ISSN 0305-0270; Coden JBIODN; Royaume-Uni; Da. 2009; Vol. 36; No. 8; Pp. 1588-1599; Bibl. 2 p.3/4</SO>
<LA>Anglais</LA>
<EA>Aim The aim of this study is to analyse the genetic population structure of Meum athamanticum Jacq. in order to explore the alternative hypotheses (1) that the central and northern highland populations are the result of post-glacial recolonization from southern refugia, and the disjunct distribution of M. athamanticum can be explained by modern ecological conditions, or (2) that extant populations north of the Alps and Pyrenees persisted in situ during glacial periods. Location Europe. Methods Variation of amplified fragment length polymorphisms (AFLPs) was analysed for 23 populations from the entire range of the species. We used band-based approaches and methods based on allele frequencies to measure genetic diversity and to identify population structure. Results Our analyses reveal a north-south differentiation within M. athamanticum. High levels of genetic diversity, as well as private fragments, are found in populations both north and south of the Alps. Differentiation among populations is lower in the northern than in the southern population group, and significant isolation-by-distance is found only in the latter group. Main conclusions Our results indicate that M. athamanticum survived the last ice age in multiple refugia throughout its contemporary range and did not expand into areas north of the Alps from southern refugia. We found evidence that regional-scale migration in northern, formerly periglacial, parts of the species range has resulted in the intermingling of populations. In contrast, southern populations are characterized by long-term isolation. The south-west Alps represent an area where immigration and mixing of populations from northern and southern refugia appears to have taken place.</EA>
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