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Auteurs principaux: Song, Xiaohan, Yao, Jianting, Roleda, Michael Y, Liang, Yanshuo, Xu, Rui, Lin, Yude, Gonzaga, Shienna Mae C, Du, Yuqun, Duan, Delin
Format: Artículo científico
Langue:en
Publié: Plants (Basel, Switzerland) 2025
Accès en ligne:https://pubmed.ncbi.nlm.nih.gov/40431065/
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author Song, Xiaohan
Yao, Jianting
Roleda, Michael Y
Liang, Yanshuo
Xu, Rui
Lin, Yude
Gonzaga, Shienna Mae C
Du, Yuqun
Duan, Delin
author_facet Song, Xiaohan
Yao, Jianting
Roleda, Michael Y
Liang, Yanshuo
Xu, Rui
Lin, Yude
Gonzaga, Shienna Mae C
Du, Yuqun
Duan, Delin
Song, Xiaohan
Yao, Jianting
Roleda, Michael Y
Liang, Yanshuo
Xu, Rui
Lin, Yude
Gonzaga, Shienna Mae C
Du, Yuqun
Duan, Delin
collection PubMed - marine biology
contents Genetic Diversity and Connectivity of Reef-Building in the Indo-Pacific Region. Song, Xiaohan Yao, Jianting Roleda, Michael Y Liang, Yanshuo Xu, Rui Lin, Yude Gonzaga, Shienna Mae C Du, Yuqun Duan, Delin Understanding population genetic connectivity is crucial for the sustainability and persistence of marine biodiversity. As a fundamental reef-building macroalga of the coastal ecosystem, Decaisne is one of the dominant intertidal seaweeds in the Indo-Pacific region. However, its genetic structure and population connectivity have been poorly recognized. Here, we explored the population genetic structure and genetic connectivity of using chloroplast A, 3-14, and L. Our results indicated low genetic diversity and shallow population genetic structure at the intraspecific level, uncovering five genetic groups with six subdivided lineages in A and two genetic clusters in 3-14. We detected demographic expansion in the last glacial period of the Pleistocene and significantly asymmetric gene flow among different geographical units. We suggest that the southwestward ocean currents under the influence of northeast monsoon in the Indo-Pacific region are the main factor in shaping the present genetic structure, and the asexual reproduction of also plays an important role of the low genetic diversity pattern; in addition, the divergence between genetic clusters might be related to the historical isolation led by the paleoclimate oscillation in the Pleistocene. The Xisha Islands in the northern South China Sea might serve as a potential refugium of , which needs extra attention to conservation management. Given the limitation of sample size, we need to conduct more field work and carry out further research at a larger scale in the future. Our study provided new insights into the theory of population connectivity in the Indo-Pacific region and provided scientific basis for tropical costal seaweed conservation.
format Artículo científico
id pubmed_40431065
institution PubMed
language en
publishDate 2025
publisher Plants (Basel, Switzerland)
record_format pubmed
spellingShingle Genetic Diversity and Connectivity of Reef-Building in the Indo-Pacific Region.
Song, Xiaohan
Yao, Jianting
Roleda, Michael Y
Liang, Yanshuo
Xu, Rui
Lin, Yude
Gonzaga, Shienna Mae C
Du, Yuqun
Duan, Delin
Genetic Diversity and Connectivity of Reef-Building in the Indo-Pacific Region. Song, Xiaohan Yao, Jianting Roleda, Michael Y Liang, Yanshuo Xu, Rui Lin, Yude Gonzaga, Shienna Mae C Du, Yuqun Duan, Delin Understanding population genetic connectivity is crucial for the sustainability and persistence of marine biodiversity. As a fundamental reef-building macroalga of the coastal ecosystem, Decaisne is one of the dominant intertidal seaweeds in the Indo-Pacific region. However, its genetic structure and population connectivity have been poorly recognized. Here, we explored the population genetic structure and genetic connectivity of using chloroplast A, 3-14, and L. Our results indicated low genetic diversity and shallow population genetic structure at the intraspecific level, uncovering five genetic groups with six subdivided lineages in A and two genetic clusters in 3-14. We detected demographic expansion in the last glacial period of the Pleistocene and significantly asymmetric gene flow among different geographical units. We suggest that the southwestward ocean currents under the influence of northeast monsoon in the Indo-Pacific region are the main factor in shaping the present genetic structure, and the asexual reproduction of also plays an important role of the low genetic diversity pattern; in addition, the divergence between genetic clusters might be related to the historical isolation led by the paleoclimate oscillation in the Pleistocene. The Xisha Islands in the northern South China Sea might serve as a potential refugium of , which needs extra attention to conservation management. Given the limitation of sample size, we need to conduct more field work and carry out further research at a larger scale in the future. Our study provided new insights into the theory of population connectivity in the Indo-Pacific region and provided scientific basis for tropical costal seaweed conservation.
title Genetic Diversity and Connectivity of Reef-Building in the Indo-Pacific Region.
url https://pubmed.ncbi.nlm.nih.gov/40431065/