@ARTICLE{TreeBASE2Ref17930,
author = {Roeland C. H. J. van Ham and Henk 't Hart},
title = {Evolution of Sedum series Rupestria (Crassulaceae): Evidence from chloroplast DNA and biosystematic data.},
year = {1994},
keywords = {},
doi = {10.1007/BF00937855},
url = {},
pmid = {},
journal = {Plant Systematics and Evolution},
volume = {190},
number = {},
pages = {1--20},
abstract = {Evolutionary relationships within the comparium Sedum series Rupestria (Crassulaceae) were investigated by phylogenetic analyses of restriction site variation of the chloroplast genome and morphological variation. DNAs were digested with 21 restriction enzymes and hybridized with S. album cpDNA probes covering the entire genome. A total of 141 ingroup variable restriction sites was identified. Morphological variation was observed in a total of 66 characters. Both datasets were analysed using parsimony methods and compared with evidence from cytology, artificial hybridization and biogeography to infer evolutionary relationships. The results 1) indicate a relatively high level of nucleotide sequence divergence within S. ser. Rupestria; 2) indicate three main lines of plastome differentiation, which are in agreement with morphology, basic chromosome numbers, and centres of diversity; 3) do not provide a compelling solution for basal relationships; 4) support an earlier hypothesis on reticulation and provide evidence for a third case of allopolyploidy in the series; 5) suggest that interspecific gene flow in S. ser. Rupestria is funnelled through the presumably allopolyploid S. rupestre subsp. erectum.}
}
Citation for Study 192
Citation title:
"Evolution of Sedum series Rupestria (Crassulaceae): Evidence from chloroplast DNA and biosystematic data.".
This study was previously identified under the legacy study ID S2x3x96c17c34c03
(Status: Published).
Citation
Van ham R., & Hart H. 1994. Evolution of Sedum series Rupestria (Crassulaceae): Evidence from chloroplast DNA and biosystematic data. Plant Systematics and Evolution, 190: 1-20.
Authors
Abstract
Evolutionary relationships within the comparium Sedum series Rupestria (Crassulaceae) were investigated by phylogenetic analyses of restriction site variation of the chloroplast genome and morphological variation. DNAs were digested with 21 restriction enzymes and hybridized with S. album cpDNA probes covering the entire genome. A total of 141 ingroup variable restriction sites was identified. Morphological variation was observed in a total of 66 characters. Both datasets were analysed using parsimony methods and compared with evidence from cytology, artificial hybridization and biogeography to infer evolutionary relationships. The results 1) indicate a relatively high level of nucleotide sequence divergence within S. ser. Rupestria; 2) indicate three main lines of plastome differentiation, which are in agreement with morphology, basic chromosome numbers, and centres of diversity; 3) do not provide a compelling solution for basal relationships; 4) support an earlier hypothesis on reticulation and provide evidence for a third case of allopolyploidy in the series; 5) suggest that interspecific gene flow in S. ser. Rupestria is funnelled through the presumably allopolyploid S. rupestre subsp. erectum.
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- Canonical resource URI:
http://purl.org/phylo/treebase/phylows/study/TB2:S192
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- Show BibTeX reference
@ARTICLE{TreeBASE2Ref17930,
author = {Roeland C. H. J. van Ham and Henk 't Hart},
title = {Evolution of Sedum series Rupestria (Crassulaceae): Evidence from chloroplast DNA and biosystematic data.},
year = {1994},
keywords = {},
doi = {10.1007/BF00937855},
url = {},
pmid = {},
journal = {Plant Systematics and Evolution},
volume = {190},
number = {},
pages = {1--20},
abstract = {Evolutionary relationships within the comparium Sedum series Rupestria (Crassulaceae) were investigated by phylogenetic analyses of restriction site variation of the chloroplast genome and morphological variation. DNAs were digested with 21 restriction enzymes and hybridized with S. album cpDNA probes covering the entire genome. A total of 141 ingroup variable restriction sites was identified. Morphological variation was observed in a total of 66 characters. Both datasets were analysed using parsimony methods and compared with evidence from cytology, artificial hybridization and biogeography to infer evolutionary relationships. The results 1) indicate a relatively high level of nucleotide sequence divergence within S. ser. Rupestria; 2) indicate three main lines of plastome differentiation, which are in agreement with morphology, basic chromosome numbers, and centres of diversity; 3) do not provide a compelling solution for basal relationships; 4) support an earlier hypothesis on reticulation and provide evidence for a third case of allopolyploidy in the series; 5) suggest that interspecific gene flow in S. ser. Rupestria is funnelled through the presumably allopolyploid S. rupestre subsp. erectum.}
}
- Show RIS reference
TY - JOUR
ID - 17930
AU - van Ham,Roeland C. H. J.
AU - Hart,Henk 't
T1 - Evolution of Sedum series Rupestria (Crassulaceae): Evidence from chloroplast DNA and biosystematic data.
PY - 1994
UR - http://dx.doi.org/10.1007/BF00937855
N2 - Evolutionary relationships within the comparium Sedum series Rupestria (Crassulaceae) were investigated by phylogenetic analyses of restriction site variation of the chloroplast genome and morphological variation. DNAs were digested with 21 restriction enzymes and hybridized with S. album cpDNA probes covering the entire genome. A total of 141 ingroup variable restriction sites was identified. Morphological variation was observed in a total of 66 characters. Both datasets were analysed using parsimony methods and compared with evidence from cytology, artificial hybridization and biogeography to infer evolutionary relationships. The results 1) indicate a relatively high level of nucleotide sequence divergence within S. ser. Rupestria; 2) indicate three main lines of plastome differentiation, which are in agreement with morphology, basic chromosome numbers, and centres of diversity; 3) do not provide a compelling solution for basal relationships; 4) support an earlier hypothesis on reticulation and provide evidence for a third case of allopolyploidy in the series; 5) suggest that interspecific gene flow in S. ser. Rupestria is funnelled through the presumably allopolyploid S. rupestre subsp. erectum.
L3 - 10.1007/BF00937855
JF - Plant Systematics and Evolution
VL - 190
IS -
SP - 1
EP - 20
ER -
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