Studies of endangered animals on border of China and Vietnam stress need for transboundary conservation
As climate change forces species to migrate across borders, scientists recommend coordinated approaches to prevent biodiversity loss
- Date:
- March 22, 2022
- Source:
- American Museum of Natural History
- Summary:
- A series of studies on endangered species that make their homes on the border of Vietnam and China underscores the growing importance of transboundary conservation efforts in the face of climate change. As the world warms, many plant and animal species migrate from their traditional habitats, increasing the likelihood of local and global extinctions.
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A series of studies on endangered species that make their homes on the border of Vietnam and China underscores the growing importance of transboundary conservation efforts in the face of climate change. As the world warms, many plant and animal species migrate from their traditional habitats, increasing the likelihood of local and global extinctions. A special issue of the journal Frontiers of Biogeography co-edited by the American Museum of Natural History's Director of Biodiversity Informatics Research Mary Blair stresses that strategic, coordinated approaches toward managing transboundary species and landscapes is essential to preventing biodiversity loss.
"Biodiversity is undergoing dramatic loss on the global level, and we know that it is essential to human health and wellbeing -- and that one of the most complex and challenging threats to biodiversity is climate change," said Blair, who works in the Museum's Center for Biodiversity and Conservation and co-edited the special issue along with collaborators Minh Le from Vietnam National University and Ming Xu from Henan University in China. "There's an urgent need for more information about how climate change is already affecting the distributions of key endangered species and habitats to inform conservation action planning, especially in areas where there may be limited capacity or resources for management, such as Southeast Asia."
Globally, more than half of all terrestrial birds, mammals, and amphibians have distributions that cross national borders. In addition to threats such as deforestation and hunting, these species may be harmed by the construction of border infrastructure and the lack of coordination of conservation activities on either side of the border. These threats are likely to be exacerbated by climate change. A previously conducted study predicts that most areas climatically suitable as habitat for about one-third of mammal and bird species will have shifted to a different country by the 2070s.
To further investigate this issue, in 2018, with funding from the Prince Albert II of Monaco Foundation, Blair, Le, and Xu began a project focused on a suite of ecologically and culturally important species that live near the China-Vietnam border and are at risk from climate change. These include one of the most endangered animals in the world, the Cao Vit gibbon, which is found in only one small forest patch; one of the world's most threatened trees, Magnolia grandis, with a total population of fewer than 120 adult trees; and the Francois' langur, a monkey that thrives in a special type of forest that grows over limestone.
"Our analyses show that suitable habitat for species like the Cao Vit gibbon and the Owston's civet will significantly shrink and become highly fragmented, whereas habitat for the endangered crocodile lizard will substantially shift under future climate scenarios. The results of the study will play a crucial role in formulating appropriate transboundary conservation measures," said Minh Le. "The special issue is published almost concurrently with the approval of the new Vietnam National Biodiversity Strategy and Action Plan, which highlights the importance of assessing impacts of climate change on biodiversity, especially highly endangered species, in the country and designing transboundary conservation measures in collaboration with neighboring countries."
"The project is also timely and important to China's national biodiversity conservation plan. China is reforming its protected areas by establishing a more efficient conservation network to better protect species and ecosystems in the country, including the 'new immigrants' expected to arrive under future climate change," said Ming Xu. "Results of the project have also been used to support China's National Spatial Planning Initiative, which requires delimitation and implementation along three control lines, namely the ecological protection boundaries, permanently protected farmlands, and urban development boundaries."
The special journal issue includes these detailed studies as well as commentary from the three editors on best practices for using species distribution models (SDMs), which can identify how a species' range might shift under climate change. They authors agree that, especially in transboundary conservation contexts, SDMs should be collaboratively developed from the outset with all of the stakeholders.
"Borders often exemplify complex sociopolitical contexts and histories between countries," Blair said. "So conservation scientists, practitioners, and managers have an obligation to understand those contexts and know how they relate to our work and the goals of conservation. As global changes, including climate change, continue, we will have to increasingly work across borders to achieve biodiversity conservation goals and to do better science."
This project benefitted from the support of the Prince Albert II of Monaco Foundation. Technical support was received from Cologne Zoo, Fauna and Flora International, and the Center for Plan Conservation, among others.
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Journal Reference:
- Hai Ngoc Ngo, Huy Quoc Nguyen, Tien Quang Phan, Truong Quang Nguyen, Laurenz R. Gewiss, Dennis Rödder, Thomas Ziegler. Modeling the environmental refugia of the endangered Lichtenfelder’s Tiger Gecko (Goniurosaurus lichtenfelderi) towards implementation of transboundary conservation. Frontiers of Biogeography, 2022; 14 (1) DOI: 10.21425/F5FBG51167
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