@ARTICLE{TreeBASE2Ref21639,
author = {Masato Ohtani and Toshiaki Kondo and Naoki Tani and Saneyoshi Ueno and Leong Soon Lee and Kevin Kit Siong Ng and Norwati Muhammad and Reiner Finkeldey and Mohamad Na'iem and Sapto Indrioko and Koichi Kamiya and Ko Harada and Bibian Diway and Eyen Khoo and Kensuke Kawamura and Yoshihiko Tsumura},
title = {Nuclear and chloroplast DNA phylogeography reveals Pleistocene divergence and subsequent secondary contact of two genetic lineages of the tropical rainforest tree species Shorea leprosula (Dipterocarpaceae) in Southeast Asia},
year = {2013},
keywords = {Sundaland; migration; EST-SSR; microsatellite; chloroplast DNA},
doi = {},
url = {http://},
pmid = {},
journal = {Molecular Ecology},
volume = {},
number = {},
pages = {},
abstract = {Tropical rainforests in Southeast Asia have been affected by climatic fluctuations during past glacial eras. To examine how the accompanying changes in land areas and temperature have affected the genetic properties of rainforest trees in the region, we investigated the phylogeographic patterns of a widespread dipterocarp species, Shorea leprosula. Two types of DNA markers were used: expressed sequence tag-based simple sequence repeats (EST-SSRs) and chloroplast DNA (cpDNA) sequence variations. Both sets of markers revealed clear genetic differentiation between populations in Borneo and those in the Malay Peninsula and Sumatra (Malay/Sumatra). However, in the southwestern part of Borneo genetic admixture of the lineages was observed in the two marker types. Coalescent simulation based on cpDNA sequence variation suggested that the two lineages arose 0.28 to 0.09 million years before present, and that following their divergence migration from Malay/Sumatra to Borneo strongly exceeded migration in the opposite direction. We conclude that the genetic structure of S. leprosula was largely formed during the middle Pleistocene and was subsequently modified by eastward migration across the subaerially exposed Sunda Shelf.}
}
Citation for Study 13763
Citation title:
"Nuclear and chloroplast DNA phylogeography reveals Pleistocene divergence and subsequent secondary contact of two genetic lineages of the tropical rainforest tree species Shorea leprosula (Dipterocarpaceae) in Southeast Asia".
Study name:
"Nuclear and chloroplast DNA phylogeography reveals Pleistocene divergence and subsequent secondary contact of two genetic lineages of the tropical rainforest tree species Shorea leprosula (Dipterocarpaceae) in Southeast Asia".
This study is part of submission 13763
(Status: Published).
Citation
Ohtani M., Kondo T., Tani N., Ueno S., Lee L.S., Ng K.K., Muhammad N., Finkeldey R., Na'iem M., Indrioko S., Kamiya K., Harada K., Diway B., Khoo E., Kawamura K., & Tsumura Y. 2013. Nuclear and chloroplast DNA phylogeography reveals Pleistocene divergence and subsequent secondary contact of two genetic lineages of the tropical rainforest tree species Shorea leprosula (Dipterocarpaceae) in Southeast Asia. Molecular Ecology, .
Authors
-
Ohtani M.
-
Kondo T.
-
Tani N.
-
Ueno S.
-
Lee L.S.
-
Ng K.K.
-
Muhammad N.
-
Finkeldey R.
-
Na'iem M.
-
Indrioko S.
-
Kamiya K.
-
Harada K.
-
Diway B.
-
Khoo E.
-
Kawamura K.
-
Tsumura Y.
Abstract
Tropical rainforests in Southeast Asia have been affected by climatic fluctuations during past glacial eras. To examine how the accompanying changes in land areas and temperature have affected the genetic properties of rainforest trees in the region, we investigated the phylogeographic patterns of a widespread dipterocarp species, Shorea leprosula. Two types of DNA markers were used: expressed sequence tag-based simple sequence repeats (EST-SSRs) and chloroplast DNA (cpDNA) sequence variations. Both sets of markers revealed clear genetic differentiation between populations in Borneo and those in the Malay Peninsula and Sumatra (Malay/Sumatra). However, in the southwestern part of Borneo genetic admixture of the lineages was observed in the two marker types. Coalescent simulation based on cpDNA sequence variation suggested that the two lineages arose 0.28 to 0.09 million years before present, and that following their divergence migration from Malay/Sumatra to Borneo strongly exceeded migration in the opposite direction. We conclude that the genetic structure of S. leprosula was largely formed during the middle Pleistocene and was subsequently modified by eastward migration across the subaerially exposed Sunda Shelf.
Keywords
Sundaland; migration; EST-SSR; microsatellite; chloroplast DNA
External links
About this resource
- Canonical resource URI:
http://purl.org/phylo/treebase/phylows/study/TB2:S13763
- Other versions:
Nexus
NeXML
- Show BibTeX reference
@ARTICLE{TreeBASE2Ref21639,
author = {Masato Ohtani and Toshiaki Kondo and Naoki Tani and Saneyoshi Ueno and Leong Soon Lee and Kevin Kit Siong Ng and Norwati Muhammad and Reiner Finkeldey and Mohamad Na'iem and Sapto Indrioko and Koichi Kamiya and Ko Harada and Bibian Diway and Eyen Khoo and Kensuke Kawamura and Yoshihiko Tsumura},
title = {Nuclear and chloroplast DNA phylogeography reveals Pleistocene divergence and subsequent secondary contact of two genetic lineages of the tropical rainforest tree species Shorea leprosula (Dipterocarpaceae) in Southeast Asia},
year = {2013},
keywords = {Sundaland; migration; EST-SSR; microsatellite; chloroplast DNA},
doi = {},
url = {http://},
pmid = {},
journal = {Molecular Ecology},
volume = {},
number = {},
pages = {},
abstract = {Tropical rainforests in Southeast Asia have been affected by climatic fluctuations during past glacial eras. To examine how the accompanying changes in land areas and temperature have affected the genetic properties of rainforest trees in the region, we investigated the phylogeographic patterns of a widespread dipterocarp species, Shorea leprosula. Two types of DNA markers were used: expressed sequence tag-based simple sequence repeats (EST-SSRs) and chloroplast DNA (cpDNA) sequence variations. Both sets of markers revealed clear genetic differentiation between populations in Borneo and those in the Malay Peninsula and Sumatra (Malay/Sumatra). However, in the southwestern part of Borneo genetic admixture of the lineages was observed in the two marker types. Coalescent simulation based on cpDNA sequence variation suggested that the two lineages arose 0.28 to 0.09 million years before present, and that following their divergence migration from Malay/Sumatra to Borneo strongly exceeded migration in the opposite direction. We conclude that the genetic structure of S. leprosula was largely formed during the middle Pleistocene and was subsequently modified by eastward migration across the subaerially exposed Sunda Shelf.}
}
- Show RIS reference
TY - JOUR
ID - 21639
AU - Ohtani,Masato
AU - Kondo,Toshiaki
AU - Tani,Naoki
AU - Ueno,Saneyoshi
AU - Lee,Leong Soon
AU - Ng,Kevin Kit Siong
AU - Muhammad,Norwati
AU - Finkeldey,Reiner
AU - Na'iem,Mohamad
AU - Indrioko,Sapto
AU - Kamiya,Koichi
AU - Harada,Ko
AU - Diway,Bibian
AU - Khoo,Eyen
AU - Kawamura,Kensuke
AU - Tsumura,Yoshihiko
T1 - Nuclear and chloroplast DNA phylogeography reveals Pleistocene divergence and subsequent secondary contact of two genetic lineages of the tropical rainforest tree species Shorea leprosula (Dipterocarpaceae) in Southeast Asia
PY - 2013
KW - Sundaland; migration; EST-SSR; microsatellite; chloroplast DNA
UR - http://dx.doi.org/
N2 - Tropical rainforests in Southeast Asia have been affected by climatic fluctuations during past glacial eras. To examine how the accompanying changes in land areas and temperature have affected the genetic properties of rainforest trees in the region, we investigated the phylogeographic patterns of a widespread dipterocarp species, Shorea leprosula. Two types of DNA markers were used: expressed sequence tag-based simple sequence repeats (EST-SSRs) and chloroplast DNA (cpDNA) sequence variations. Both sets of markers revealed clear genetic differentiation between populations in Borneo and those in the Malay Peninsula and Sumatra (Malay/Sumatra). However, in the southwestern part of Borneo genetic admixture of the lineages was observed in the two marker types. Coalescent simulation based on cpDNA sequence variation suggested that the two lineages arose 0.28 to 0.09 million years before present, and that following their divergence migration from Malay/Sumatra to Borneo strongly exceeded migration in the opposite direction. We conclude that the genetic structure of S. leprosula was largely formed during the middle Pleistocene and was subsequently modified by eastward migration across the subaerially exposed Sunda Shelf.
L3 -
JF - Molecular Ecology
VL -
IS -
ER -