@ARTICLE{TreeBASE2Ref2107,
author = {Nicolas Devos and Alain Vanderpoorten},
title = {Range disjunctions, speciation, and morphological transformation rates in the liverwort genus Leptoscyphus.},
year = {2008},
keywords = {Ancestral character state reconstruction, island calibration, long-distance dispersal, vicariance.},
doi = {10.1111/j.1558-5646.2008.00567.x },
url = {},
pmid = {19154356 },
journal = {Evolution},
volume = {63},
number = {3},
pages = {779--792},
abstract = {Bryophytes and angiosperms exhibit similar intercontinental disjunct distributions that have traditionally been explained by continental drift. Such disjunct distributions are, however, typically observed at the species level in bryophytes, whereas they occur at much higher taxonomic level in angiosperms. The corollary of this observation is that morphological evolution in bryophytes is exceedingly slow. These hypotheses can now be explicitly tested with the advent of molecular dating. In this paper, we show that the trans-Atlantic disjunctions observed in the liverwort genus Leptoscyphus date back to 5.5 Myr, thus largely post-dating the opening of the South Atlantic. The temporal calibration of the phylogeny allows us to estimate for the first time the absolute timing of morphological evolution in bryophytes. The time frame necessary for shifts to occur between character states was estimated on average at ca. 4.05 ? 1.86 Myr. As opposed to the traditional view that bryophyte evolution has been triggered by episodic shifts in habitat conditions, our analyses furthermore suggest that morphological and molecular divergence gradually accumulated in the genus, in agreement with recent observations of regular accumulation of diversity in tropical liverworts.}
}
Citation for Study 2170
Citation title:
"Range disjunctions, speciation, and morphological transformation rates in the liverwort genus Leptoscyphus.".
This study was previously identified under the legacy study ID S2176
(Status: Published).
Citation
Devos N., & Vanderpoorten A. 2008. Range disjunctions, speciation, and morphological transformation rates in the liverwort genus Leptoscyphus. Evolution, 63(3): 779-792.
Authors
-
Devos N.
-
Vanderpoorten A.
Abstract
Bryophytes and angiosperms exhibit similar intercontinental disjunct distributions that have traditionally been explained by continental drift. Such disjunct distributions are, however, typically observed at the species level in bryophytes, whereas they occur at much higher taxonomic level in angiosperms. The corollary of this observation is that morphological evolution in bryophytes is exceedingly slow. These hypotheses can now be explicitly tested with the advent of molecular dating. In this paper, we show that the trans-Atlantic disjunctions observed in the liverwort genus Leptoscyphus date back to 5.5 Myr, thus largely post-dating the opening of the South Atlantic. The temporal calibration of the phylogeny allows us to estimate for the first time the absolute timing of morphological evolution in bryophytes. The time frame necessary for shifts to occur between character states was estimated on average at ca. 4.05 ? 1.86 Myr. As opposed to the traditional view that bryophyte evolution has been triggered by episodic shifts in habitat conditions, our analyses furthermore suggest that morphological and molecular divergence gradually accumulated in the genus, in agreement with recent observations of regular accumulation of diversity in tropical liverworts.
Keywords
Ancestral character state reconstruction, island calibration, long-distance dispersal, vicariance.
External links
About this resource
- Canonical resource URI:
http://purl.org/phylo/treebase/phylows/study/TB2:S2170
- Other versions:
Nexus
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- Show BibTeX reference
@ARTICLE{TreeBASE2Ref2107,
author = {Nicolas Devos and Alain Vanderpoorten},
title = {Range disjunctions, speciation, and morphological transformation rates in the liverwort genus Leptoscyphus.},
year = {2008},
keywords = {Ancestral character state reconstruction, island calibration, long-distance dispersal, vicariance.},
doi = {10.1111/j.1558-5646.2008.00567.x },
url = {},
pmid = {19154356 },
journal = {Evolution},
volume = {63},
number = {3},
pages = {779--792},
abstract = {Bryophytes and angiosperms exhibit similar intercontinental disjunct distributions that have traditionally been explained by continental drift. Such disjunct distributions are, however, typically observed at the species level in bryophytes, whereas they occur at much higher taxonomic level in angiosperms. The corollary of this observation is that morphological evolution in bryophytes is exceedingly slow. These hypotheses can now be explicitly tested with the advent of molecular dating. In this paper, we show that the trans-Atlantic disjunctions observed in the liverwort genus Leptoscyphus date back to 5.5 Myr, thus largely post-dating the opening of the South Atlantic. The temporal calibration of the phylogeny allows us to estimate for the first time the absolute timing of morphological evolution in bryophytes. The time frame necessary for shifts to occur between character states was estimated on average at ca. 4.05 ? 1.86 Myr. As opposed to the traditional view that bryophyte evolution has been triggered by episodic shifts in habitat conditions, our analyses furthermore suggest that morphological and molecular divergence gradually accumulated in the genus, in agreement with recent observations of regular accumulation of diversity in tropical liverworts.}
}
- Show RIS reference
TY - JOUR
ID - 2107
AU - Devos,Nicolas
AU - Vanderpoorten,Alain
T1 - Range disjunctions, speciation, and morphological transformation rates in the liverwort genus Leptoscyphus.
PY - 2008
KW - Ancestral character state reconstruction
KW - island calibration
KW - long-distance dispersal
KW - vicariance.
UR -
N2 - Bryophytes and angiosperms exhibit similar intercontinental disjunct distributions that have traditionally been explained by continental drift. Such disjunct distributions are, however, typically observed at the species level in bryophytes, whereas they occur at much higher taxonomic level in angiosperms. The corollary of this observation is that morphological evolution in bryophytes is exceedingly slow. These hypotheses can now be explicitly tested with the advent of molecular dating. In this paper, we show that the trans-Atlantic disjunctions observed in the liverwort genus Leptoscyphus date back to 5.5 Myr, thus largely post-dating the opening of the South Atlantic. The temporal calibration of the phylogeny allows us to estimate for the first time the absolute timing of morphological evolution in bryophytes. The time frame necessary for shifts to occur between character states was estimated on average at ca. 4.05 ? 1.86 Myr. As opposed to the traditional view that bryophyte evolution has been triggered by episodic shifts in habitat conditions, our analyses furthermore suggest that morphological and molecular divergence gradually accumulated in the genus, in agreement with recent observations of regular accumulation of diversity in tropical liverworts.
L3 - 10.1111/j.1558-5646.2008.00567.x
JF - Evolution
VL - 63
IS - 3
SP - 779
EP - 792
ER -