Molecular Systematics And Biogeography Of Wisteria Inferred From Nucleotide Sequences Of Nuclear And Plastid Genes

Previous molecular phylogenetic studies of Fabaceae indicated that species of Wisteria, an intercontinental disjunct genus between eastern Asia and eastern North America, formed a clade derived from within Callerya. However, interspecific relationships were not well resolved or supported. In this st...

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Published in:Journal of Systematics and Evolution
Main Authors: Li, Jianhua, Jiang, Jin-Huo, Fu, Cheng-Xin, Tang, Shao-Qing
Format: Text
Language:unknown
Published: Hope College Digital Commons 2014
Subjects:
Afgekia
Callerya
Eastern Asian-north American Disjunction
Matk
Nrdna
Its
Eastern North-america
Leguminosae
Evolution
Millettieae
Fabaceae
Papilionoideae
Hemisphere
Phylogeny
Patterns
Tertiary
Biology
Life Sciences
Bering Land Bridge
Online Access:https://digitalcommons.hope.edu/faculty_publications/1099
https://doi.org/10.1111/jse.12061
id fthopecollege:oai:digitalcommons.hope.edu:faculty_publications-2152
record_format openpolar
spelling fthopecollege:oai:digitalcommons.hope.edu:faculty_publications-2152 2023-05-15T15:42:41+02:00 Molecular Systematics And Biogeography Of Wisteria Inferred From Nucleotide Sequences Of Nuclear And Plastid Genes Li, Jianhua Jiang, Jin-Huo Fu, Cheng-Xin Tang, Shao-Qing 2014-01-01T08:00:00Z https://digitalcommons.hope.edu/faculty_publications/1099 https://doi.org/10.1111/jse.12061 unknown Hope College Digital Commons https://digitalcommons.hope.edu/faculty_publications/1099 http://dx.doi.org/10.1111/jse.12061 Faculty Publications Afgekia Callerya Eastern Asian-north American Disjunction Matk Nrdna Its Eastern North-america Leguminosae Evolution Millettieae Fabaceae Papilionoideae Hemisphere Phylogeny Patterns Tertiary Biology Life Sciences text 2014 fthopecollege https://doi.org/10.1111/jse.12061 2022-10-06T17:34:33Z Previous molecular phylogenetic studies of Fabaceae indicated that species of Wisteria, an intercontinental disjunct genus between eastern Asia and eastern North America, formed a clade derived from within Callerya. However, interspecific relationships were not well resolved or supported. In this study, we used sequences of the nuclear ribosomal DNA internal transcribed spacer region and the chloroplast gene matK to examine interspecific relationships and explore implications of the phylogeny for the systematics and biogeography of Wisteria. Our results showed that Wisteria with deciduous leaves and racemose inflorescences formed a strongly supported clade derived from within the paraphyletic Callerya. Afgekia was also found to be included within Callerya. Therefore, our data support the merger of Afgekia, Callerya, and Wisteria. The phylogenetic pattern suggested that the deciduousness in Wisteria may be a derived trait likely in response to temperate climate, and the racemose inflorescences in the Afgekia-Callerya-Wisteria clade may have evolved from panicles. Our study also provided strong support for the sister relationship of the North American and eastern Asian species of Wisteria. In the Asian clade, Wisteria brachybotrys Siebold & Zucc. of Japan was sister to the clade containing W. floribunda (Willd.) DC of Japan and Korea, and W. sinensis (Sims) Sweet of China. However, our data offered weak support for the sister relationship of W. floribunda and W. sinensis. Our divergence time and biogeographic analyses suggested that the eastern Asian-North American disjunction in Wisteria may have occurred through a dispersal event in the middle Miocene (13.4 Mya) from the Old World to the New World across the Bering land bridge followed by vicarianc Text Bering Land Bridge Digital Commons@Hope College Journal of Systematics and Evolution 52 1 40 50
institution Open Polar
collection Digital Commons@Hope College
op_collection_id fthopecollege
language unknown
topic Afgekia
Callerya
Eastern Asian-north American Disjunction
Matk
Nrdna
Its
Eastern North-america
Leguminosae
Evolution
Millettieae
Fabaceae
Papilionoideae
Hemisphere
Phylogeny
Patterns
Tertiary
Biology
Life Sciences
spellingShingle Afgekia
Callerya
Eastern Asian-north American Disjunction
Matk
Nrdna
Its
Eastern North-america
Leguminosae
Evolution
Millettieae
Fabaceae
Papilionoideae
Hemisphere
Phylogeny
Patterns
Tertiary
Biology
Life Sciences
Li, Jianhua
Jiang, Jin-Huo
Fu, Cheng-Xin
Tang, Shao-Qing
Molecular Systematics And Biogeography Of Wisteria Inferred From Nucleotide Sequences Of Nuclear And Plastid Genes
topic_facet Afgekia
Callerya
Eastern Asian-north American Disjunction
Matk
Nrdna
Its
Eastern North-america
Leguminosae
Evolution
Millettieae
Fabaceae
Papilionoideae
Hemisphere
Phylogeny
Patterns
Tertiary
Biology
Life Sciences
description Previous molecular phylogenetic studies of Fabaceae indicated that species of Wisteria, an intercontinental disjunct genus between eastern Asia and eastern North America, formed a clade derived from within Callerya. However, interspecific relationships were not well resolved or supported. In this study, we used sequences of the nuclear ribosomal DNA internal transcribed spacer region and the chloroplast gene matK to examine interspecific relationships and explore implications of the phylogeny for the systematics and biogeography of Wisteria. Our results showed that Wisteria with deciduous leaves and racemose inflorescences formed a strongly supported clade derived from within the paraphyletic Callerya. Afgekia was also found to be included within Callerya. Therefore, our data support the merger of Afgekia, Callerya, and Wisteria. The phylogenetic pattern suggested that the deciduousness in Wisteria may be a derived trait likely in response to temperate climate, and the racemose inflorescences in the Afgekia-Callerya-Wisteria clade may have evolved from panicles. Our study also provided strong support for the sister relationship of the North American and eastern Asian species of Wisteria. In the Asian clade, Wisteria brachybotrys Siebold & Zucc. of Japan was sister to the clade containing W. floribunda (Willd.) DC of Japan and Korea, and W. sinensis (Sims) Sweet of China. However, our data offered weak support for the sister relationship of W. floribunda and W. sinensis. Our divergence time and biogeographic analyses suggested that the eastern Asian-North American disjunction in Wisteria may have occurred through a dispersal event in the middle Miocene (13.4 Mya) from the Old World to the New World across the Bering land bridge followed by vicarianc
format Text
author Li, Jianhua
Jiang, Jin-Huo
Fu, Cheng-Xin
Tang, Shao-Qing
author_facet Li, Jianhua
Jiang, Jin-Huo
Fu, Cheng-Xin
Tang, Shao-Qing
author_sort Li, Jianhua
title Molecular Systematics And Biogeography Of Wisteria Inferred From Nucleotide Sequences Of Nuclear And Plastid Genes
title_short Molecular Systematics And Biogeography Of Wisteria Inferred From Nucleotide Sequences Of Nuclear And Plastid Genes
title_full Molecular Systematics And Biogeography Of Wisteria Inferred From Nucleotide Sequences Of Nuclear And Plastid Genes
title_fullStr Molecular Systematics And Biogeography Of Wisteria Inferred From Nucleotide Sequences Of Nuclear And Plastid Genes
title_full_unstemmed Molecular Systematics And Biogeography Of Wisteria Inferred From Nucleotide Sequences Of Nuclear And Plastid Genes
title_sort molecular systematics and biogeography of wisteria inferred from nucleotide sequences of nuclear and plastid genes
publisher Hope College Digital Commons
publishDate 2014
url https://digitalcommons.hope.edu/faculty_publications/1099
https://doi.org/10.1111/jse.12061
genre Bering Land Bridge
genre_facet Bering Land Bridge
op_source Faculty Publications
op_relation https://digitalcommons.hope.edu/faculty_publications/1099
http://dx.doi.org/10.1111/jse.12061
op_doi https://doi.org/10.1111/jse.12061
container_title Journal of Systematics and Evolution
container_volume 52
container_issue 1
container_start_page 40
op_container_end_page 50
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