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Auteurs principaux: Abedin, Imon, Das, Kulendra Chandra, Kang, Hey-Eun, Kim, Ah Ran, Lee, Soo Rin, Singha, Hilloljyoti, Woo-Kim, Hyun, Kundu, Shantanu
Format: Artículo científico
Langue:en
Publié: Scientific reports 2026
Accès en ligne:https://pubmed.ncbi.nlm.nih.gov/41857154/
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author Abedin, Imon
Das, Kulendra Chandra
Kang, Hey-Eun
Kim, Ah Ran
Lee, Soo Rin
Singha, Hilloljyoti
Woo-Kim, Hyun
Kundu, Shantanu
author_facet Abedin, Imon
Das, Kulendra Chandra
Kang, Hey-Eun
Kim, Ah Ran
Lee, Soo Rin
Singha, Hilloljyoti
Woo-Kim, Hyun
Kundu, Shantanu
Abedin, Imon
Das, Kulendra Chandra
Kang, Hey-Eun
Kim, Ah Ran
Lee, Soo Rin
Singha, Hilloljyoti
Woo-Kim, Hyun
Kundu, Shantanu
collection PubMed - marine biology
contents Conservation insights for the Critically Endangered Black Softshell Turtle (Nilssonia nigricans) through landscape genetics approach in South Asia. Abedin, Imon Das, Kulendra Chandra Kang, Hey-Eun Kim, Ah Ran Lee, Soo Rin Singha, Hilloljyoti Woo-Kim, Hyun Kundu, Shantanu The application of advanced molecular and ecological approaches has emerged as a globally recognized and robust framework for effective biodiversity conservation planning and management. Prior to this study, aside from taxonomic investigations, no comprehensive assessment integrating genetic and ecological data had been undertaken for the Critically Endangered Black Softshell Turtle (). The mitochondrial and gene data generated in this study clearly distinguish from its congeners, corroborating morphology-based species identification. Furthermore, the integration of four mitochondrial genes (, , , and ) and three nuclear genes (, , and ) through uncorrected -distance analyses provides a robust understanding of population-level genetic divergence. The species distribution modelling identified only 12.81% (21,127 km²) of the area as suitable habitat for under current climatic conditions, while the connectivity analysis revealed four major corridors (Terai Landscape, Western Brahmaputra, Kaziranga–Dhansiri, and Eastern Brahmaputra) within its extended distribution range. Under future climate scenarios, the extent of suitable habitat is projected to expand remarkably by more than 64% across all future climatic scenarios and time periods. Notably, the connectivity is expected to decline within the identified corridors under all future projections. The Mantel analyses showed no significant association between genetic distance and landscape resistance, whereas significant isolation by distance was detected for some loci, indicating that geographic separation better explains genetic differentiation in . These patterns likely reflect historical demographic processes and possible human-mediated movements rather than contemporary landscape-driven connectivity. Furthermore, the delineation of priority conservation districts across eastern and northeastern India, northeastern Bangladesh, and eastern Nepal underscores the critical transboundary regions essential for sustaining the habitat requirements of the species. Overall, this study presents a novel approach to identify conservation priority areas and potential reintroduction sites for . The findings offer crucial insights for developing adaptive management strategies that incorporate both the present genetic status and the anticipated environmental changes influencing this species. The online version contains supplementary material available at 10.1038/s41598-026-44769-x.
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publishDate 2026
publisher Scientific reports
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spellingShingle Conservation insights for the Critically Endangered Black Softshell Turtle (Nilssonia nigricans) through landscape genetics approach in South Asia.
Abedin, Imon
Das, Kulendra Chandra
Kang, Hey-Eun
Kim, Ah Ran
Lee, Soo Rin
Singha, Hilloljyoti
Woo-Kim, Hyun
Kundu, Shantanu
Conservation insights for the Critically Endangered Black Softshell Turtle (Nilssonia nigricans) through landscape genetics approach in South Asia. Abedin, Imon Das, Kulendra Chandra Kang, Hey-Eun Kim, Ah Ran Lee, Soo Rin Singha, Hilloljyoti Woo-Kim, Hyun Kundu, Shantanu The application of advanced molecular and ecological approaches has emerged as a globally recognized and robust framework for effective biodiversity conservation planning and management. Prior to this study, aside from taxonomic investigations, no comprehensive assessment integrating genetic and ecological data had been undertaken for the Critically Endangered Black Softshell Turtle (). The mitochondrial and gene data generated in this study clearly distinguish from its congeners, corroborating morphology-based species identification. Furthermore, the integration of four mitochondrial genes (, , , and ) and three nuclear genes (, , and ) through uncorrected -distance analyses provides a robust understanding of population-level genetic divergence. The species distribution modelling identified only 12.81% (21,127 km²) of the area as suitable habitat for under current climatic conditions, while the connectivity analysis revealed four major corridors (Terai Landscape, Western Brahmaputra, Kaziranga–Dhansiri, and Eastern Brahmaputra) within its extended distribution range. Under future climate scenarios, the extent of suitable habitat is projected to expand remarkably by more than 64% across all future climatic scenarios and time periods. Notably, the connectivity is expected to decline within the identified corridors under all future projections. The Mantel analyses showed no significant association between genetic distance and landscape resistance, whereas significant isolation by distance was detected for some loci, indicating that geographic separation better explains genetic differentiation in . These patterns likely reflect historical demographic processes and possible human-mediated movements rather than contemporary landscape-driven connectivity. Furthermore, the delineation of priority conservation districts across eastern and northeastern India, northeastern Bangladesh, and eastern Nepal underscores the critical transboundary regions essential for sustaining the habitat requirements of the species. Overall, this study presents a novel approach to identify conservation priority areas and potential reintroduction sites for . The findings offer crucial insights for developing adaptive management strategies that incorporate both the present genetic status and the anticipated environmental changes influencing this species. The online version contains supplementary material available at 10.1038/s41598-026-44769-x.
title Conservation insights for the Critically Endangered Black Softshell Turtle (Nilssonia nigricans) through landscape genetics approach in South Asia.
url https://pubmed.ncbi.nlm.nih.gov/41857154/