Evolutionary processes in a continental island system: molecular phylogeography of the Aegean Nigella arvensis alliance (Ranunculaceae) inferred from chloroplast DNA
Identifieur interne : 000161 ( Main/Exploration ); précédent : 000160; suivant : 000162Evolutionary processes in a continental island system: molecular phylogeography of the Aegean Nigella arvensis alliance (Ranunculaceae) inferred from chloroplast DNA
Auteurs : C. Bittkau ; H. P. Comes [Autriche]Source :
- Molecular Ecology [ 0962-1083 ] ; 2005-11.
Descripteurs français
- Wicri :
- topic : Crète, écologie, Génétique, Répartition géographique.
English descriptors
- KwdEn :
- Aegean, Aegean archipelago, Aegean flora, Aegean nigella, Aegean nigella arvensis alliance, Aegean region, Allelic richness, Allopatric fragmentation, American journal, Amova, Anatolia, Andel, Andel shackleton, Aristata, Arvensis, Arvensis alliance, Barrett, Biogeography, Bittkau, Blackwell, Blackwell publishing, Botaniska notiser, Castelloe templeton, Central aegean, Central greece, Central greek lineage, Character states, Chloroplast, Clade, Clade analysis, Cladistic analysis, Coalescent, Coalescent predictions, Coalescent theory, Colonization, Computer program, Cpdna, Cpdna data, Cpdna haplotypes, Cpdna level, Cpdna variation, Crandall, Crete, Cytoplasmic gene flow, Degenii, Dispersal, Eastern aegean, Eastern aegean islands, Eastern aegean lineage, Eastern parts, Ecology, Ecology evolution, Evolutionary history, Flora, Founder events, Fragmentation, Gene flow, Genetic, Genetic differentiation, Genetic diversity, Genetic drift, Genetics, Geographical distance, Geographical distances, Geographical distribution, Glauca, Haplotype, High level, Historical events, Hutchison, Hutchison templeton, Icarica, Independent polymorphisms, Karpathos, Kassos, Kiklades, Kikladian, Kikladian landmass, Late pleistocene, Lineage, Mainland areas, Mainland greece, Mainland populations, Mikonos, Molecular ecology, Molecular markers, Molecular phylogenetics, Molecular variance, Mutational steps, Nigella, Nigella arvensis, Nigella arvensis alliance, Nigella degenii, Nigella populations, Northwestern anatolia, Null hypothesis, Opera botanica, Pairwise, Past fragmentation, Peloponnissos, Perissoratis conispoliatis, Phenotypic associations, Phylogeographical, Phylogeography, Phytogeographical, Pleistocene, Polymorphism, Population history, Population structure, Population subdivision, Posada, Posada crandall, Primer, Quaternary, Range expansion, Rechinger, Regional population structure, Regional sets, Relative roles, Restriction endonuclease mapping, Sample sizes, Seed flow, Sensu hutchison templeton, Shackleton, Southern aegean island, Strid, Taxon, Taxonomic, Templeton, Tfab, Thrakia, Tzedakis, Variance, Variance components, Western aegean.
- Teeft :
- Aegean, Aegean archipelago, Aegean flora, Aegean nigella, Aegean nigella arvensis alliance, Aegean region, Allelic richness, Allopatric fragmentation, American journal, Amova, Anatolia, Andel, Andel shackleton, Aristata, Arvensis, Arvensis alliance, Barrett, Biogeography, Bittkau, Blackwell, Blackwell publishing, Botaniska notiser, Castelloe templeton, Central aegean, Central greece, Central greek lineage, Character states, Chloroplast, Clade, Clade analysis, Cladistic analysis, Coalescent, Coalescent predictions, Coalescent theory, Colonization, Computer program, Cpdna, Cpdna data, Cpdna haplotypes, Cpdna level, Cpdna variation, Crandall, Crete, Cytoplasmic gene flow, Degenii, Dispersal, Eastern aegean, Eastern aegean islands, Eastern aegean lineage, Eastern parts, Ecology, Ecology evolution, Evolutionary history, Flora, Founder events, Fragmentation, Gene flow, Genetic, Genetic differentiation, Genetic diversity, Genetic drift, Genetics, Geographical distance, Geographical distances, Geographical distribution, Glauca, Haplotype, High level, Historical events, Hutchison, Hutchison templeton, Icarica, Independent polymorphisms, Karpathos, Kassos, Kiklades, Kikladian, Kikladian landmass, Late pleistocene, Lineage, Mainland areas, Mainland greece, Mainland populations, Mikonos, Molecular ecology, Molecular markers, Molecular phylogenetics, Molecular variance, Mutational steps, Nigella, Nigella arvensis, Nigella arvensis alliance, Nigella degenii, Nigella populations, Northwestern anatolia, Null hypothesis, Opera botanica, Pairwise, Past fragmentation, Peloponnissos, Perissoratis conispoliatis, Phenotypic associations, Phylogeographical, Phylogeography, Phytogeographical, Pleistocene, Polymorphism, Population history, Population structure, Population subdivision, Posada, Posada crandall, Primer, Quaternary, Range expansion, Rechinger, Regional population structure, Regional sets, Relative roles, Restriction endonuclease mapping, Sample sizes, Seed flow, Sensu hutchison templeton, Shackleton, Southern aegean island, Strid, Taxon, Taxonomic, Templeton, Tfab, Thrakia, Tzedakis, Variance, Variance components, Western aegean.
Abstract
Continental shelf island systems, created by rising sea levels, provide a premier setting for studying the effects of past fragmentation, dispersal, and genetic drift on taxon diversification. We used phylogeographical (nested clade) and population genetic analyses to elucidate the relative roles of these processes in the evolutionary history of the Aegean Nigella arvensis alliance (= ‘coenospecies’). We surveyed chloroplast DNA (cpDNA) variation in 455 individuals from 47 populations (nine taxa) of the alliance throughout its core range in the Aegean Archipelago and surrounding mainland areas of Greece and Turkey. The study revealed the presence of three major lineages, with largely nonoverlapping distributions in the Western, Central, and Eastern Aegean. There is evidence supporting the idea that these major lineages evolved in situ from a widespread (pan‐Aegean) ancestral stock as a result of multiple fragmentation events, possibly due to the influence of post‐Messinian sea flooding, Pleistocene eustatic changes and corresponding climate fluctuations. Over‐sea dispersal and founder events appear to have played a rather insignificant role in the group's history. Rather, all analytical approaches identified the alliance as an organism group with poor seed dispersal capabilities and a susceptibility to genetic drift. In particular, we inferred that the observed level of cpDNA differentiation between Kikladian island populations of Nigella degenii largely reflects population history, (viz. Holocene island fragmentation) and genetic drift in the near absence of seed flow since their time of common ancestry. Overall, our cpDNA data for the N. arvensis alliance in general, and N. degenii in particular, indicate that historical events were important in determining the phylogeographical patterns seen, and that genetic drift has historically been relatively more influential on population structure than has cytoplasmic gene flow.
Url:
DOI: 10.1111/j.1365-294X.2005.02725.x
Affiliations:
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Bittkau</name><affiliation><wicri:noCountry code="subField"></wicri:noCountry></affiliation></author><author><name sortKey="Comes, H P" sort="Comes, H P" uniqKey="Comes H" first="H. P." last="Comes">H. P. Comes</name><affiliation wicri:level="1"><country xml:lang="fr">Autriche</country><wicri:regionArea>Fachbereich für Organismische Biologie, Paris‐Lodron‐Universität, A‐5020 Salzburg</wicri:regionArea><wicri:noRegion>A‐5020 Salzburg</wicri:noRegion></affiliation><affiliation wicri:level="1"><country wicri:rule="url">Autriche</country></affiliation></author></analytic><monogr></monogr><series><title level="j" type="main">Molecular Ecology</title><title level="j" type="alt">MOLECULAR ECOLOGY</title><idno type="ISSN">0962-1083</idno><idno type="eISSN">1365-294X</idno><imprint><biblScope unit="vol">14</biblScope><biblScope unit="issue">13</biblScope><biblScope unit="page" from="4065">4065</biblScope><biblScope unit="page" to="4083">4083</biblScope><biblScope unit="page-count">19</biblScope><publisher>Blackwell Science Ltd</publisher><pubPlace>Oxford, UK</pubPlace><date type="published" when="2005-11">2005-11</date></imprint><idno type="ISSN">0962-1083</idno></series></biblStruct></sourceDesc><seriesStmt><idno type="ISSN">0962-1083</idno></seriesStmt></fileDesc><profileDesc><textClass><keywords scheme="KwdEn" xml:lang="en"><term>Aegean</term><term>Aegean archipelago</term><term>Aegean flora</term><term>Aegean nigella</term><term>Aegean nigella arvensis alliance</term><term>Aegean region</term><term>Allelic richness</term><term>Allopatric fragmentation</term><term>American journal</term><term>Amova</term><term>Anatolia</term><term>Andel</term><term>Andel shackleton</term><term>Aristata</term><term>Arvensis</term><term>Arvensis alliance</term><term>Barrett</term><term>Biogeography</term><term>Bittkau</term><term>Blackwell</term><term>Blackwell publishing</term><term>Botaniska notiser</term><term>Castelloe templeton</term><term>Central aegean</term><term>Central greece</term><term>Central greek lineage</term><term>Character states</term><term>Chloroplast</term><term>Clade</term><term>Clade analysis</term><term>Cladistic analysis</term><term>Coalescent</term><term>Coalescent predictions</term><term>Coalescent theory</term><term>Colonization</term><term>Computer program</term><term>Cpdna</term><term>Cpdna data</term><term>Cpdna haplotypes</term><term>Cpdna level</term><term>Cpdna variation</term><term>Crandall</term><term>Crete</term><term>Cytoplasmic gene flow</term><term>Degenii</term><term>Dispersal</term><term>Eastern aegean</term><term>Eastern aegean islands</term><term>Eastern aegean lineage</term><term>Eastern parts</term><term>Ecology</term><term>Ecology evolution</term><term>Evolutionary history</term><term>Flora</term><term>Founder events</term><term>Fragmentation</term><term>Gene flow</term><term>Genetic</term><term>Genetic differentiation</term><term>Genetic diversity</term><term>Genetic drift</term><term>Genetics</term><term>Geographical distance</term><term>Geographical distances</term><term>Geographical distribution</term><term>Glauca</term><term>Haplotype</term><term>High level</term><term>Historical events</term><term>Hutchison</term><term>Hutchison templeton</term><term>Icarica</term><term>Independent polymorphisms</term><term>Karpathos</term><term>Kassos</term><term>Kiklades</term><term>Kikladian</term><term>Kikladian landmass</term><term>Late pleistocene</term><term>Lineage</term><term>Mainland areas</term><term>Mainland greece</term><term>Mainland populations</term><term>Mikonos</term><term>Molecular ecology</term><term>Molecular markers</term><term>Molecular phylogenetics</term><term>Molecular variance</term><term>Mutational steps</term><term>Nigella</term><term>Nigella arvensis</term><term>Nigella arvensis alliance</term><term>Nigella degenii</term><term>Nigella populations</term><term>Northwestern anatolia</term><term>Null hypothesis</term><term>Opera botanica</term><term>Pairwise</term><term>Past fragmentation</term><term>Peloponnissos</term><term>Perissoratis conispoliatis</term><term>Phenotypic associations</term><term>Phylogeographical</term><term>Phylogeography</term><term>Phytogeographical</term><term>Pleistocene</term><term>Polymorphism</term><term>Population history</term><term>Population structure</term><term>Population subdivision</term><term>Posada</term><term>Posada crandall</term><term>Primer</term><term>Quaternary</term><term>Range expansion</term><term>Rechinger</term><term>Regional population structure</term><term>Regional sets</term><term>Relative roles</term><term>Restriction endonuclease mapping</term><term>Sample sizes</term><term>Seed flow</term><term>Sensu hutchison templeton</term><term>Shackleton</term><term>Southern aegean island</term><term>Strid</term><term>Taxon</term><term>Taxonomic</term><term>Templeton</term><term>Tfab</term><term>Thrakia</term><term>Tzedakis</term><term>Variance</term><term>Variance components</term><term>Western aegean</term></keywords><keywords scheme="Teeft" xml:lang="en"><term>Aegean</term><term>Aegean archipelago</term><term>Aegean flora</term><term>Aegean nigella</term><term>Aegean nigella arvensis alliance</term><term>Aegean region</term><term>Allelic richness</term><term>Allopatric fragmentation</term><term>American journal</term><term>Amova</term><term>Anatolia</term><term>Andel</term><term>Andel shackleton</term><term>Aristata</term><term>Arvensis</term><term>Arvensis alliance</term><term>Barrett</term><term>Biogeography</term><term>Bittkau</term><term>Blackwell</term><term>Blackwell publishing</term><term>Botaniska notiser</term><term>Castelloe templeton</term><term>Central aegean</term><term>Central greece</term><term>Central greek lineage</term><term>Character states</term><term>Chloroplast</term><term>Clade</term><term>Clade analysis</term><term>Cladistic analysis</term><term>Coalescent</term><term>Coalescent predictions</term><term>Coalescent theory</term><term>Colonization</term><term>Computer program</term><term>Cpdna</term><term>Cpdna data</term><term>Cpdna haplotypes</term><term>Cpdna level</term><term>Cpdna variation</term><term>Crandall</term><term>Crete</term><term>Cytoplasmic gene flow</term><term>Degenii</term><term>Dispersal</term><term>Eastern aegean</term><term>Eastern aegean islands</term><term>Eastern aegean lineage</term><term>Eastern parts</term><term>Ecology</term><term>Ecology evolution</term><term>Evolutionary history</term><term>Flora</term><term>Founder events</term><term>Fragmentation</term><term>Gene flow</term><term>Genetic</term><term>Genetic differentiation</term><term>Genetic diversity</term><term>Genetic drift</term><term>Genetics</term><term>Geographical distance</term><term>Geographical distances</term><term>Geographical distribution</term><term>Glauca</term><term>Haplotype</term><term>High level</term><term>Historical events</term><term>Hutchison</term><term>Hutchison templeton</term><term>Icarica</term><term>Independent polymorphisms</term><term>Karpathos</term><term>Kassos</term><term>Kiklades</term><term>Kikladian</term><term>Kikladian landmass</term><term>Late pleistocene</term><term>Lineage</term><term>Mainland areas</term><term>Mainland greece</term><term>Mainland populations</term><term>Mikonos</term><term>Molecular ecology</term><term>Molecular markers</term><term>Molecular phylogenetics</term><term>Molecular variance</term><term>Mutational steps</term><term>Nigella</term><term>Nigella arvensis</term><term>Nigella arvensis alliance</term><term>Nigella degenii</term><term>Nigella populations</term><term>Northwestern anatolia</term><term>Null hypothesis</term><term>Opera botanica</term><term>Pairwise</term><term>Past fragmentation</term><term>Peloponnissos</term><term>Perissoratis conispoliatis</term><term>Phenotypic associations</term><term>Phylogeographical</term><term>Phylogeography</term><term>Phytogeographical</term><term>Pleistocene</term><term>Polymorphism</term><term>Population history</term><term>Population structure</term><term>Population subdivision</term><term>Posada</term><term>Posada crandall</term><term>Primer</term><term>Quaternary</term><term>Range expansion</term><term>Rechinger</term><term>Regional population structure</term><term>Regional sets</term><term>Relative roles</term><term>Restriction endonuclease mapping</term><term>Sample sizes</term><term>Seed flow</term><term>Sensu hutchison templeton</term><term>Shackleton</term><term>Southern aegean island</term><term>Strid</term><term>Taxon</term><term>Taxonomic</term><term>Templeton</term><term>Tfab</term><term>Thrakia</term><term>Tzedakis</term><term>Variance</term><term>Variance components</term><term>Western aegean</term></keywords><keywords scheme="Wicri" type="topic" xml:lang="fr"><term>Crète</term><term>écologie</term><term>Génétique</term><term>Répartition géographique</term></keywords></textClass></profileDesc></teiHeader><front><div type="abstract" xml:lang="en">Continental shelf island systems, created by rising sea levels, provide a premier setting for studying the effects of past fragmentation, dispersal, and genetic drift on taxon diversification. We used phylogeographical (nested clade) and population genetic analyses to elucidate the relative roles of these processes in the evolutionary history of the Aegean Nigella arvensis alliance (= ‘coenospecies’). We surveyed chloroplast DNA (cpDNA) variation in 455 individuals from 47 populations (nine taxa) of the alliance throughout its core range in the Aegean Archipelago and surrounding mainland areas of Greece and Turkey. The study revealed the presence of three major lineages, with largely nonoverlapping distributions in the Western, Central, and Eastern Aegean. There is evidence supporting the idea that these major lineages evolved in situ from a widespread (pan‐Aegean) ancestral stock as a result of multiple fragmentation events, possibly due to the influence of post‐Messinian sea flooding, Pleistocene eustatic changes and corresponding climate fluctuations. Over‐sea dispersal and founder events appear to have played a rather insignificant role in the group's history. Rather, all analytical approaches identified the alliance as an organism group with poor seed dispersal capabilities and a susceptibility to genetic drift. In particular, we inferred that the observed level of cpDNA differentiation between Kikladian island populations of Nigella degenii largely reflects population history, (viz. Holocene island fragmentation) and genetic drift in the near absence of seed flow since their time of common ancestry. Overall, our cpDNA data for the N. arvensis alliance in general, and N. degenii in particular, indicate that historical events were important in determining the phylogeographical patterns seen, and that genetic drift has historically been relatively more influential on population structure than has cytoplasmic gene flow.</div></front></TEI><affiliations><list><country><li>Autriche</li></country></list><tree><noCountry><name sortKey="Bittkau, C" sort="Bittkau, C" uniqKey="Bittkau C" first="C." last="Bittkau">C. Bittkau</name></noCountry><country name="Autriche"><noRegion><name sortKey="Comes, H P" sort="Comes, H P" uniqKey="Comes H" first="H. P." last="Comes">H. P. Comes</name></noRegion><name sortKey="Comes, H P" sort="Comes, H P" uniqKey="Comes H" first="H. P." last="Comes">H. P. Comes</name></country></tree></affiliations></record>Pour manipuler ce document sous Unix (Dilib)
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