@ARTICLE{TreeBASE2Ref15034,
author = {Annette W. Coleman},
title = {Biogeography and Speciation in the Pandorina/Volvulina (Chlorophyta) Superclade.},
year = {2001},
keywords = {biogeography; ITS; Pandorina; Volvulina; Volvocaceae; phylogenetics; speciation; Yamagishiella},
doi = {10.1046/j.1529-8817.2001.01043.x},
url = {},
pmid = {},
journal = {Journal of Phycology},
volume = {37},
number = {},
pages = {836--851},
abstract = {Mating affinity, nuclear ribosomal DNA Internal Transcribed Spacer sequence, and geographic distribution of more than 100 isolates of Pandorina, Volvulina and Yamagishiella were determined. Comparative analysis of ITS sequences reaffirmed the unity of Pandorina morum and its separation from all other species of Volvocaceae except those of Volvulina. This latter genus, represented by four species, appears to represent only morphological variants of several P. morum subclades. The Pandorina morum clade (including also additional species names such as P. smithii, and P. colemaniae) encompasses an evolutionary span, as determined by comparison of ITS, greater than either of the multispecies genera Gonium and Eudorina. There are at least 30 Pandorina/Volvulina syngens, sexually isolated groups, so far as can be determined, among the current collection of strains. In addition, as in other Volvocacaean genera, two clones are homothallic, capable of forming zygotes within a genetic clone. The existence of so many syngens suggests that considerable evolutionary diversification of the genes controlling gamete compatibility and intercross survival has occurred, here unaccompanied by significant morphological change. Within each syngen, genetic distance increases with geographic distance between collection sites. At least half the isolates studied must have been introduced northward since the Pleistocene. Although we probably know more about more characters in this group of algae than any other algal group, in part because they are so easy to culture, this still leaves us largely in ignorance of their niche in nature and any causes of its limits. The study of all these organisms, distributed throughout the world presumably by the activities of shorebirds, emphasizes the evolutionary role of mating genes in the inevitable formation of new, genetically isolated subclades in these eukaryotes, and provides initial data on their rate of appearance versus their rate of distribution over the earth.}
}
Citation for Study 758
Citation title:
"Biogeography and Speciation in the Pandorina/Volvulina (Chlorophyta) Superclade.".
This study was previously identified under the legacy study ID S610
(Status: Published).
Citation
Coleman A. 2001. Biogeography and Speciation in the Pandorina/Volvulina (Chlorophyta) Superclade. Journal of Phycology, 37: 836-851.
Authors
Abstract
Mating affinity, nuclear ribosomal DNA Internal Transcribed Spacer sequence, and geographic distribution of more than 100 isolates of Pandorina, Volvulina and Yamagishiella were determined. Comparative analysis of ITS sequences reaffirmed the unity of Pandorina morum and its separation from all other species of Volvocaceae except those of Volvulina. This latter genus, represented by four species, appears to represent only morphological variants of several P. morum subclades. The Pandorina morum clade (including also additional species names such as P. smithii, and P. colemaniae) encompasses an evolutionary span, as determined by comparison of ITS, greater than either of the multispecies genera Gonium and Eudorina. There are at least 30 Pandorina/Volvulina syngens, sexually isolated groups, so far as can be determined, among the current collection of strains. In addition, as in other Volvocacaean genera, two clones are homothallic, capable of forming zygotes within a genetic clone. The existence of so many syngens suggests that considerable evolutionary diversification of the genes controlling gamete compatibility and intercross survival has occurred, here unaccompanied by significant morphological change. Within each syngen, genetic distance increases with geographic distance between collection sites. At least half the isolates studied must have been introduced northward since the Pleistocene. Although we probably know more about more characters in this group of algae than any other algal group, in part because they are so easy to culture, this still leaves us largely in ignorance of their niche in nature and any causes of its limits. The study of all these organisms, distributed throughout the world presumably by the activities of shorebirds, emphasizes the evolutionary role of mating genes in the inevitable formation of new, genetically isolated subclades in these eukaryotes, and provides initial data on their rate of appearance versus their rate of distribution over the earth.
Keywords
biogeography; ITS; Pandorina; Volvulina; Volvocaceae; phylogenetics; speciation; Yamagishiella
External links
About this resource
- Canonical resource URI:
http://purl.org/phylo/treebase/phylows/study/TB2:S758
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- Show BibTeX reference
@ARTICLE{TreeBASE2Ref15034,
author = {Annette W. Coleman},
title = {Biogeography and Speciation in the Pandorina/Volvulina (Chlorophyta) Superclade.},
year = {2001},
keywords = {biogeography; ITS; Pandorina; Volvulina; Volvocaceae; phylogenetics; speciation; Yamagishiella},
doi = {10.1046/j.1529-8817.2001.01043.x},
url = {},
pmid = {},
journal = {Journal of Phycology},
volume = {37},
number = {},
pages = {836--851},
abstract = {Mating affinity, nuclear ribosomal DNA Internal Transcribed Spacer sequence, and geographic distribution of more than 100 isolates of Pandorina, Volvulina and Yamagishiella were determined. Comparative analysis of ITS sequences reaffirmed the unity of Pandorina morum and its separation from all other species of Volvocaceae except those of Volvulina. This latter genus, represented by four species, appears to represent only morphological variants of several P. morum subclades. The Pandorina morum clade (including also additional species names such as P. smithii, and P. colemaniae) encompasses an evolutionary span, as determined by comparison of ITS, greater than either of the multispecies genera Gonium and Eudorina. There are at least 30 Pandorina/Volvulina syngens, sexually isolated groups, so far as can be determined, among the current collection of strains. In addition, as in other Volvocacaean genera, two clones are homothallic, capable of forming zygotes within a genetic clone. The existence of so many syngens suggests that considerable evolutionary diversification of the genes controlling gamete compatibility and intercross survival has occurred, here unaccompanied by significant morphological change. Within each syngen, genetic distance increases with geographic distance between collection sites. At least half the isolates studied must have been introduced northward since the Pleistocene. Although we probably know more about more characters in this group of algae than any other algal group, in part because they are so easy to culture, this still leaves us largely in ignorance of their niche in nature and any causes of its limits. The study of all these organisms, distributed throughout the world presumably by the activities of shorebirds, emphasizes the evolutionary role of mating genes in the inevitable formation of new, genetically isolated subclades in these eukaryotes, and provides initial data on their rate of appearance versus their rate of distribution over the earth.}
}
- Show RIS reference
TY - JOUR
ID - 15034
AU - Coleman,Annette W.
T1 - Biogeography and Speciation in the Pandorina/Volvulina (Chlorophyta) Superclade.
PY - 2001
KW - biogeography; ITS; Pandorina; Volvulina; Volvocaceae; phylogenetics; speciation; Yamagishiella
UR -
N2 - Mating affinity, nuclear ribosomal DNA Internal Transcribed Spacer sequence, and geographic distribution of more than 100 isolates of Pandorina, Volvulina and Yamagishiella were determined. Comparative analysis of ITS sequences reaffirmed the unity of Pandorina morum and its separation from all other species of Volvocaceae except those of Volvulina. This latter genus, represented by four species, appears to represent only morphological variants of several P. morum subclades. The Pandorina morum clade (including also additional species names such as P. smithii, and P. colemaniae) encompasses an evolutionary span, as determined by comparison of ITS, greater than either of the multispecies genera Gonium and Eudorina. There are at least 30 Pandorina/Volvulina syngens, sexually isolated groups, so far as can be determined, among the current collection of strains. In addition, as in other Volvocacaean genera, two clones are homothallic, capable of forming zygotes within a genetic clone. The existence of so many syngens suggests that considerable evolutionary diversification of the genes controlling gamete compatibility and intercross survival has occurred, here unaccompanied by significant morphological change. Within each syngen, genetic distance increases with geographic distance between collection sites. At least half the isolates studied must have been introduced northward since the Pleistocene. Although we probably know more about more characters in this group of algae than any other algal group, in part because they are so easy to culture, this still leaves us largely in ignorance of their niche in nature and any causes of its limits. The study of all these organisms, distributed throughout the world presumably by the activities of shorebirds, emphasizes the evolutionary role of mating genes in the inevitable formation of new, genetically isolated subclades in these eukaryotes, and provides initial data on their rate of appearance versus their rate of distribution over the earth.
L3 - 10.1046/j.1529-8817.2001.01043.x
JF - Journal of Phycology
VL - 37
IS -
SP - 836
EP - 851
ER -