Conservation genetics and phylogeography of endangered and endemic shrub <it>Tetraena mongolica </it>(Zygophyllaceae) in Inner Mongolia, China

Conservation genetics and phylogeography of endangered and endemic shrub <it>Tetraena mongolica </it>(Zygophyllaceae) in Inner Mongolia, China

<p>Abstract</p> <p>Background</p> <p><it>Tetraena mongolica </it>(Zygophyllaceae), an endangered endemic species in western Inner Mongolia, China. For endemic species with a limited geographical range and declining populations, historical patterns of demogra...

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Main Authors: Hung Kuo-Hsiang, Huang Wei-Hsiang, Huang Chi-Chun, Liu Zin-Huang, Hwang Chi-Chuan, Ge Xue-Jun, Wang Wei-Kuang, Chiang Tzen-Yuh
Format: Article
Language:English
Published: BMC 2011-01-01
Series:BMC Genetics
Online Access:http://www.biomedcentral.com/1471-2156/12/1
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spelling doaj-7c2f56236fdd404e91950cd38ca22eb52020-11-25T03:54:59ZengBMCBMC Genetics1471-21562011-01-01121110.1186/1471-2156-12-1Conservation genetics and phylogeography of endangered and endemic shrub <it>Tetraena mongolica </it>(Zygophyllaceae) in Inner Mongolia, ChinaHung Kuo-HsiangHuang Wei-HsiangHuang Chi-ChunLiu Zin-HuangHwang Chi-ChuanGe Xue-JunWang Wei-KuangChiang Tzen-Yuh<p>Abstract</p> <p>Background</p> <p><it>Tetraena mongolica </it>(Zygophyllaceae), an endangered endemic species in western Inner Mongolia, China. For endemic species with a limited geographical range and declining populations, historical patterns of demography and hierarchical genetic structure are important for determining population structure, and also provide information for developing effective and sustainable management plans. In this study, we assess genetic variation, population structure, and phylogeography of <it>T. mongolica </it>from eight populations. Furthermore, we evaluate the conservation and management units to provide the information for conservation.</p> <p>Results</p> <p>Sequence variation and spatial apportionment of the <it>atp</it>B-<it>rbc</it>L noncoding spacer region of the chloroplast DNA were used to reconstruct the phylogeography of <it>T. mongolica</it>. A total of 880 bp was sequenced from eight extant populations throughout the whole range of its distribution. At the cpDNA locus, high levels of genetic differentiation among populations and low levels of genetic variation within populations were detected, indicating that most seed dispersal was restricted within populations.</p> <p>Conclusions</p> <p>Demographic fluctuations, which led to random losses of genetic polymorphisms from populations, due to frequent flooding of the Yellow River and human disturbance were indicated by the analysis of BEAST skyline plot. Nested clade analysis revealed that restricted gene flow with isolation by distance plus occasional long distance dispersal is the main evolutionary factor affecting the phylogeography and population structure of <it>T</it>. <it>mongolica</it>. For setting a conservation management plan, each population of <it>T</it>. <it>mongolica </it>should be recognized as a conservation unit.</p> http://www.biomedcentral.com/1471-2156/12/1
collection DOAJ
language English
format Article
sources DOAJ
author Hung Kuo-Hsiang
Huang Wei-Hsiang
Huang Chi-Chun
Liu Zin-Huang
Hwang Chi-Chuan
Ge Xue-Jun
Wang Wei-Kuang
Chiang Tzen-Yuh
spellingShingle Hung Kuo-Hsiang
Huang Wei-Hsiang
Huang Chi-Chun
Liu Zin-Huang
Hwang Chi-Chuan
Ge Xue-Jun
Wang Wei-Kuang
Chiang Tzen-Yuh
Conservation genetics and phylogeography of endangered and endemic shrub <it>Tetraena mongolica </it>(Zygophyllaceae) in Inner Mongolia, China
BMC Genetics
author_facet Hung Kuo-Hsiang
Huang Wei-Hsiang
Huang Chi-Chun
Liu Zin-Huang
Hwang Chi-Chuan
Ge Xue-Jun
Wang Wei-Kuang
Chiang Tzen-Yuh
author_sort Hung Kuo-Hsiang
title Conservation genetics and phylogeography of endangered and endemic shrub <it>Tetraena mongolica </it>(Zygophyllaceae) in Inner Mongolia, China
title_short Conservation genetics and phylogeography of endangered and endemic shrub <it>Tetraena mongolica </it>(Zygophyllaceae) in Inner Mongolia, China
title_full Conservation genetics and phylogeography of endangered and endemic shrub <it>Tetraena mongolica </it>(Zygophyllaceae) in Inner Mongolia, China
title_fullStr Conservation genetics and phylogeography of endangered and endemic shrub <it>Tetraena mongolica </it>(Zygophyllaceae) in Inner Mongolia, China
title_full_unstemmed Conservation genetics and phylogeography of endangered and endemic shrub <it>Tetraena mongolica </it>(Zygophyllaceae) in Inner Mongolia, China
title_sort conservation genetics and phylogeography of endangered and endemic shrub <it>tetraena mongolica </it>(zygophyllaceae) in inner mongolia, china
publisher BMC
series BMC Genetics
issn 1471-2156
publishDate 2011-01-01
description <p>Abstract</p> <p>Background</p> <p><it>Tetraena mongolica </it>(Zygophyllaceae), an endangered endemic species in western Inner Mongolia, China. For endemic species with a limited geographical range and declining populations, historical patterns of demography and hierarchical genetic structure are important for determining population structure, and also provide information for developing effective and sustainable management plans. In this study, we assess genetic variation, population structure, and phylogeography of <it>T. mongolica </it>from eight populations. Furthermore, we evaluate the conservation and management units to provide the information for conservation.</p> <p>Results</p> <p>Sequence variation and spatial apportionment of the <it>atp</it>B-<it>rbc</it>L noncoding spacer region of the chloroplast DNA were used to reconstruct the phylogeography of <it>T. mongolica</it>. A total of 880 bp was sequenced from eight extant populations throughout the whole range of its distribution. At the cpDNA locus, high levels of genetic differentiation among populations and low levels of genetic variation within populations were detected, indicating that most seed dispersal was restricted within populations.</p> <p>Conclusions</p> <p>Demographic fluctuations, which led to random losses of genetic polymorphisms from populations, due to frequent flooding of the Yellow River and human disturbance were indicated by the analysis of BEAST skyline plot. Nested clade analysis revealed that restricted gene flow with isolation by distance plus occasional long distance dispersal is the main evolutionary factor affecting the phylogeography and population structure of <it>T</it>. <it>mongolica</it>. For setting a conservation management plan, each population of <it>T</it>. <it>mongolica </it>should be recognized as a conservation unit.</p>
url http://www.biomedcentral.com/1471-2156/12/1
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