@ARTICLE{TreeBASE2Ref18068,
author = {Debra A. Waters and Mark A. Buchheim and Richard A. Dewey and Russell L. Chapman},
title = {Preliminary inferences of the phylogeny of bryophytes from nuclear-encoded ribosomal RNA sequences.},
year = {1992},
keywords = {},
doi = {},
url = {},
pmid = {},
journal = {American Journal of Botany},
volume = {79},
number = {},
pages = {459--466},
abstract = {Ribosomal RNA sequences and cladistic analysis were used to infer a phylogeny for eight bryophyte taxa. Portions of the cytoplasmic large (26S-like) and small (18S-like) subunit ribosomal RNA genes were sequenced for three marchantioid liverworts (Asterella, Conocephalum, and Riccia), three mosses (Atrichum, Fissidens, and Plagiomnium), and two hornworts (Phaeoceros and Notothylas). Cladistic analysis of these data suggests that the hornworts are the sister group to the mosses, the mosses and hornworts form a clade that is sister to the tracheophytes, and the liverworts form a clade sister to the other land plants. These results differ from previous cladistic analyses based on morphology, ultrastructure, and biochemistry, wherein the mosses alone are sister group to the tracheophytes. We conclude that cladistic analysis of molecular data can provide an independent data set for the study of bryophyte phylogeny, but the differences between the molecular and morphological results are a topic for further investigation.}
}
Citation for Study 241
Citation title:
"Preliminary inferences of the phylogeny of bryophytes from nuclear-encoded ribosomal RNA sequences.".
This study was previously identified under the legacy study ID S2x7x96c15c33c46
(Status: Published).
Citation
Waters D., Buchheim M., Dewey R., & Chapman R. 1992. Preliminary inferences of the phylogeny of bryophytes from nuclear-encoded ribosomal RNA sequences. American Journal of Botany, 79: 459-466.
Authors
-
Waters D.
-
Buchheim M.
-
Dewey R.
-
Chapman R.
Abstract
Ribosomal RNA sequences and cladistic analysis were used to infer a phylogeny for eight bryophyte taxa. Portions of the cytoplasmic large (26S-like) and small (18S-like) subunit ribosomal RNA genes were sequenced for three marchantioid liverworts (Asterella, Conocephalum, and Riccia), three mosses (Atrichum, Fissidens, and Plagiomnium), and two hornworts (Phaeoceros and Notothylas). Cladistic analysis of these data suggests that the hornworts are the sister group to the mosses, the mosses and hornworts form a clade that is sister to the tracheophytes, and the liverworts form a clade sister to the other land plants. These results differ from previous cladistic analyses based on morphology, ultrastructure, and biochemistry, wherein the mosses alone are sister group to the tracheophytes. We conclude that cladistic analysis of molecular data can provide an independent data set for the study of bryophyte phylogeny, but the differences between the molecular and morphological results are a topic for further investigation.
About this resource
- Canonical resource URI:
http://purl.org/phylo/treebase/phylows/study/TB2:S241
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@ARTICLE{TreeBASE2Ref18068,
author = {Debra A. Waters and Mark A. Buchheim and Richard A. Dewey and Russell L. Chapman},
title = {Preliminary inferences of the phylogeny of bryophytes from nuclear-encoded ribosomal RNA sequences.},
year = {1992},
keywords = {},
doi = {},
url = {},
pmid = {},
journal = {American Journal of Botany},
volume = {79},
number = {},
pages = {459--466},
abstract = {Ribosomal RNA sequences and cladistic analysis were used to infer a phylogeny for eight bryophyte taxa. Portions of the cytoplasmic large (26S-like) and small (18S-like) subunit ribosomal RNA genes were sequenced for three marchantioid liverworts (Asterella, Conocephalum, and Riccia), three mosses (Atrichum, Fissidens, and Plagiomnium), and two hornworts (Phaeoceros and Notothylas). Cladistic analysis of these data suggests that the hornworts are the sister group to the mosses, the mosses and hornworts form a clade that is sister to the tracheophytes, and the liverworts form a clade sister to the other land plants. These results differ from previous cladistic analyses based on morphology, ultrastructure, and biochemistry, wherein the mosses alone are sister group to the tracheophytes. We conclude that cladistic analysis of molecular data can provide an independent data set for the study of bryophyte phylogeny, but the differences between the molecular and morphological results are a topic for further investigation.}
}
- Show RIS reference
TY - JOUR
ID - 18068
AU - Waters,Debra A.
AU - Buchheim,Mark A.
AU - Dewey,Richard A.
AU - Chapman,Russell L.
T1 - Preliminary inferences of the phylogeny of bryophytes from nuclear-encoded ribosomal RNA sequences.
PY - 1992
UR -
N2 - Ribosomal RNA sequences and cladistic analysis were used to infer a phylogeny for eight bryophyte taxa. Portions of the cytoplasmic large (26S-like) and small (18S-like) subunit ribosomal RNA genes were sequenced for three marchantioid liverworts (Asterella, Conocephalum, and Riccia), three mosses (Atrichum, Fissidens, and Plagiomnium), and two hornworts (Phaeoceros and Notothylas). Cladistic analysis of these data suggests that the hornworts are the sister group to the mosses, the mosses and hornworts form a clade that is sister to the tracheophytes, and the liverworts form a clade sister to the other land plants. These results differ from previous cladistic analyses based on morphology, ultrastructure, and biochemistry, wherein the mosses alone are sister group to the tracheophytes. We conclude that cladistic analysis of molecular data can provide an independent data set for the study of bryophyte phylogeny, but the differences between the molecular and morphological results are a topic for further investigation.
L3 -
JF - American Journal of Botany
VL - 79
IS -
SP - 459
EP - 466
ER -