@ARTICLE{TreeBASE2Ref23152,
author = {Daniel Vitales and Teresa Garnatje and Jaume Pellicer and Joan Vall?s and Arnoldo Santos-Guerra and Isabel Sanmart?n},
title = {The explosive radiation of Cheirolophus (Asteraceae, Cardueae) in Macaronesia},
year = {2014},
keywords = {Allopatric speciation, Canary Islands, diversification, island radiation, Mediterranean Basin, phylogeography},
doi = {},
url = {http://},
pmid = {},
journal = {BMC Evolutionary Biology},
volume = {},
number = {},
pages = {},
abstract = {Background
Considered a biodiversity hotspot, the Canary Islands have been the key subjects of numerous evolutionary studies concerning a large variety of organisms. The genus Cheirolophus (Asteraceae) represents one of the largest plant radiations in the Canarian archipelago. In contrast, only a few species occur in the Mediterranean region, the putative ancestral area of the genus. Here, our main aim was to reconstruct the phylogenetic and biogeographic history of Cheirolophus with special focus on explaining the origin of the large Canarian radiation.
Results
We found significant incongruence in phylogenetic relationships between nuclear and plastid markers. The origin of Cheirolophus was dated in the Mid-Late Miocene, followed by rapid diversification into the three main Mediterranean lineages and the Macaronesian clade. A decrease in diversification rates was inferred at the end of the Miocene, with a new increase in the Late Pliocene concurrent with the onset of the Mediterranean climate. Diversification within the Macaronesian clade started in the Early-Mid Pleistocene, with unusually high speciation rates giving rise to the current insular diversity.
Conclusions
Climate-driven diversification likely explains the early evolutionary history of Cheirolophus in the Mediterranean region. The exceptionally high diversification rate in the Canarian clade was mainly driven by allopatric speciation (including intra and interisland diversification). Several intrinsic (e.g. breeding system, polyploid origin, seed dispersal syndrome) and extrinsic factors (e.g. fragmented landscape, isolated habitats, climatic and geological changes) probably contributed to the progressive differentiation of populations resulting in numerous microendemisms. Finally, hybridization events and emerging ecological adaptation may have also reinforced the diversification process.
}
}
Citation for Study 15742
Citation title:
"The explosive radiation of Cheirolophus (Asteraceae, Cardueae) in Macaronesia".
Study name:
"The explosive radiation of Cheirolophus (Asteraceae, Cardueae) in Macaronesia".
This study is part of submission 15742
(Status: Published).
Citation
Vitales D., Garnatje T., Pellicer J., Vall?s J., Santos-guerra A., & Sanmart?n I. 2014. The explosive radiation of Cheirolophus (Asteraceae, Cardueae) in Macaronesia. BMC Evolutionary Biology, .
Authors
-
Vitales D.
(submitter)
-
Garnatje T.
-
Pellicer J.
-
Vall?s J.
-
Santos-guerra A.
-
Sanmart?n I.
Abstract
Background
Considered a biodiversity hotspot, the Canary Islands have been the key subjects of numerous evolutionary studies concerning a large variety of organisms. The genus Cheirolophus (Asteraceae) represents one of the largest plant radiations in the Canarian archipelago. In contrast, only a few species occur in the Mediterranean region, the putative ancestral area of the genus. Here, our main aim was to reconstruct the phylogenetic and biogeographic history of Cheirolophus with special focus on explaining the origin of the large Canarian radiation.
Results
We found significant incongruence in phylogenetic relationships between nuclear and plastid markers. The origin of Cheirolophus was dated in the Mid-Late Miocene, followed by rapid diversification into the three main Mediterranean lineages and the Macaronesian clade. A decrease in diversification rates was inferred at the end of the Miocene, with a new increase in the Late Pliocene concurrent with the onset of the Mediterranean climate. Diversification within the Macaronesian clade started in the Early-Mid Pleistocene, with unusually high speciation rates giving rise to the current insular diversity.
Conclusions
Climate-driven diversification likely explains the early evolutionary history of Cheirolophus in the Mediterranean region. The exceptionally high diversification rate in the Canarian clade was mainly driven by allopatric speciation (including intra and interisland diversification). Several intrinsic (e.g. breeding system, polyploid origin, seed dispersal syndrome) and extrinsic factors (e.g. fragmented landscape, isolated habitats, climatic and geological changes) probably contributed to the progressive differentiation of populations resulting in numerous microendemisms. Finally, hybridization events and emerging ecological adaptation may have also reinforced the diversification process.
Keywords
Allopatric speciation, Canary Islands, diversification, island radiation, Mediterranean Basin, phylogeography
External links
About this resource
- Canonical resource URI:
http://purl.org/phylo/treebase/phylows/study/TB2:S15742
- Other versions:
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NeXML
- Show BibTeX reference
@ARTICLE{TreeBASE2Ref23152,
author = {Daniel Vitales and Teresa Garnatje and Jaume Pellicer and Joan Vall?s and Arnoldo Santos-Guerra and Isabel Sanmart?n},
title = {The explosive radiation of Cheirolophus (Asteraceae, Cardueae) in Macaronesia},
year = {2014},
keywords = {Allopatric speciation, Canary Islands, diversification, island radiation, Mediterranean Basin, phylogeography},
doi = {},
url = {http://},
pmid = {},
journal = {BMC Evolutionary Biology},
volume = {},
number = {},
pages = {},
abstract = {Background
Considered a biodiversity hotspot, the Canary Islands have been the key subjects of numerous evolutionary studies concerning a large variety of organisms. The genus Cheirolophus (Asteraceae) represents one of the largest plant radiations in the Canarian archipelago. In contrast, only a few species occur in the Mediterranean region, the putative ancestral area of the genus. Here, our main aim was to reconstruct the phylogenetic and biogeographic history of Cheirolophus with special focus on explaining the origin of the large Canarian radiation.
Results
We found significant incongruence in phylogenetic relationships between nuclear and plastid markers. The origin of Cheirolophus was dated in the Mid-Late Miocene, followed by rapid diversification into the three main Mediterranean lineages and the Macaronesian clade. A decrease in diversification rates was inferred at the end of the Miocene, with a new increase in the Late Pliocene concurrent with the onset of the Mediterranean climate. Diversification within the Macaronesian clade started in the Early-Mid Pleistocene, with unusually high speciation rates giving rise to the current insular diversity.
Conclusions
Climate-driven diversification likely explains the early evolutionary history of Cheirolophus in the Mediterranean region. The exceptionally high diversification rate in the Canarian clade was mainly driven by allopatric speciation (including intra and interisland diversification). Several intrinsic (e.g. breeding system, polyploid origin, seed dispersal syndrome) and extrinsic factors (e.g. fragmented landscape, isolated habitats, climatic and geological changes) probably contributed to the progressive differentiation of populations resulting in numerous microendemisms. Finally, hybridization events and emerging ecological adaptation may have also reinforced the diversification process.
}
}
- Show RIS reference
TY - JOUR
ID - 23152
AU - Vitales,Daniel
AU - Garnatje,Teresa
AU - Pellicer,Jaume
AU - Vall?s,Joan
AU - Santos-Guerra,Arnoldo
AU - Sanmart?n,Isabel
T1 - The explosive radiation of Cheirolophus (Asteraceae, Cardueae) in Macaronesia
PY - 2014
KW - Allopatric speciation
KW - Canary Islands
KW - diversification
KW - island radiation
KW - Mediterranean Basin
KW - phylogeography
UR - http://dx.doi.org/
N2 - Background
Considered a biodiversity hotspot, the Canary Islands have been the key subjects of numerous evolutionary studies concerning a large variety of organisms. The genus Cheirolophus (Asteraceae) represents one of the largest plant radiations in the Canarian archipelago. In contrast, only a few species occur in the Mediterranean region, the putative ancestral area of the genus. Here, our main aim was to reconstruct the phylogenetic and biogeographic history of Cheirolophus with special focus on explaining the origin of the large Canarian radiation.
Results
We found significant incongruence in phylogenetic relationships between nuclear and plastid markers. The origin of Cheirolophus was dated in the Mid-Late Miocene, followed by rapid diversification into the three main Mediterranean lineages and the Macaronesian clade. A decrease in diversification rates was inferred at the end of the Miocene, with a new increase in the Late Pliocene concurrent with the onset of the Mediterranean climate. Diversification within the Macaronesian clade started in the Early-Mid Pleistocene, with unusually high speciation rates giving rise to the current insular diversity.
Conclusions
Climate-driven diversification likely explains the early evolutionary history of Cheirolophus in the Mediterranean region. The exceptionally high diversification rate in the Canarian clade was mainly driven by allopatric speciation (including intra and interisland diversification). Several intrinsic (e.g. breeding system, polyploid origin, seed dispersal syndrome) and extrinsic factors (e.g. fragmented landscape, isolated habitats, climatic and geological changes) probably contributed to the progressive differentiation of populations resulting in numerous microendemisms. Finally, hybridization events and emerging ecological adaptation may have also reinforced the diversification process.
L3 -
JF - BMC Evolutionary Biology
VL -
IS -
ER -