# Population Genetics Provides Insights Into the Impact of Future Climate Change on the Genetic Structure and Distribution of Asian Warty Newts (Genus Paramesotriton)

**Authors:** Dung Van Tran, Tomoya Suzuki, Ibuki Fukuyama, Ricardo J. Vera, Kanto Nishikawa

PMC · DOI: 10.1002/ece3.71054 · Ecology and Evolution · 2025-04-03

## TL;DR

This study uses population genetics and climate modeling to predict how climate change will affect the genetic diversity and distribution of Asian warty newts in Vietnam.

## Contribution

The study integrates population genetics with ecological niche modeling to assess climate change impacts on amphibian genetic structure and distribution.

## Key findings

- Three genetic groups were identified in Asian warty newts, with distinct patterns of gene flow and genetic structure.
- Climate change is predicted to reduce suitable habitat areas and shift distributions to higher elevations.
- The East + Cao Bang genetic cluster may be less vulnerable due to genetic introgression, while others face decline.

## Abstract

Assessing population vulnerability to climate change is essential for informing management and conservation strategies, particularly for amphibians. We integrated population genetics and ecological niche modeling (ENM) to assess the effect of climate change on the distribution and genetic structure of two species of Asian warty newts (
Paramesotriton deloustali
 and 
P. guangxiensis
) in northern Vietnam. We analyzed population genetics using a genome‐wide SNP dataset generated with the MIG‐seq method. Additionally, we applied ensemble ecological niche modeling (ENM) to predict the potential distribution of warty newts under two climate change scenarios (SSP2‐4.5 and SSP5‐8.5) for the periods 2050 and 2090. Population genetics revealed three primary groups: West, East + Cao Bang (CB), and Quang Ninh (QN). CB exhibited discordance between mitochondrial DNA and single‐nucleotide nuclear DNA polymorphism data. Furthermore, gene flow within populations was restricted, particularly within West and QN. Spatial distribution analyses of genetic clusters conditioned by environmental variables predicted that the East + CB genetic cluster would expand, whereas those of West and QN would decrease. The introgression of genetic structures probably reduces the vulnerability of East + CB to climate change. ENM analysis revealed that these newts are susceptible to climate change, resulting in a reduction in their suitable habitat areas across all scenarios. We also observed a shift in the suitable distribution toward higher elevations. Our results suggest that the mountainous areas of northern Vietnam could serve as potential refugia for these newts as the effects of climate change intensify.

Population genetics reveals three groups of Asian warty newts in northern Vietnam. Genetic variation was incorporated in ecological niche models to predict the impact of climate change. Climate change may affect significantly both their genetic structure and distribution.

## Linked entities

- **Species:** Paramesotriton deloustali (taxon 164970)

## Full-text entities

- **Diseases:** Asian Warty Newts (MESH:D000073605)
- **Species:** Paramesotriton deloustali (Tam Dao newt, species) [taxon 164970]

## Full text

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## Figures

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## References

114 references — full list in the complete paper: https://tomesphere.com/paper/PMC11968420/full.md

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Source: https://tomesphere.com/paper/PMC11968420