Past environmental changes affected lemur population dynamics prior to human impact in Madagascar

Quaternary climatic changes have been invoked as important drivers of species diversification worldwide. However, the impact of such changes on vegetation and animal population dynamics in tropical regions remains debated. To overcome this uncertainty, we integrated high-resolution paleoenvironmenta...

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Bibliographic Details
Published in:Communications biology 2021-09, Vol.4 (1), p.1084-1084, Article 1084
Main Authors: Teixeira, Helena, Montade, Vincent, Salmona, Jordi, Metzger, Julia, Bremond, Laurent, Kasper, Thomas, Daut, Gerhard, Rouland, Sylvie, Ranarilalatiana, Sandratrinirainy, Rakotondravony, Romule, Chikhi, Lounès, Behling, Hermann, Radespiel, Ute
Format: Article
Language:English
Subjects:
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Animals
Anthropogenic factors
Biodiversity
Biodiversity and Ecology
Biology
Biomedical and Life Sciences
Cheirogaleidae - physiology
Climate change
Demographics
Ecosystem
Environmental changes
Environmental Sciences
Human impact
Life Sciences
Madagascar
Population
Population decline
Population Dynamics
Tropical environment
Wildlife
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Summary:Quaternary climatic changes have been invoked as important drivers of species diversification worldwide. However, the impact of such changes on vegetation and animal population dynamics in tropical regions remains debated. To overcome this uncertainty, we integrated high-resolution paleoenvironmental reconstructions from a sedimentary record covering the past 25,000 years with demographic inferences of a forest-dwelling primate species ( Microcebus arnholdi ), in northern Madagascar. Result comparisons suggest that climate changes through the African Humid Period (15.2 – 5.5 kyr) strongly affected the demographic dynamics of M. arnholdi . We further inferred a population decline in the last millennium which was likely shaped by the combination of climatic and anthropogenic impacts. Our findings demonstrate that population fluctuations in Malagasy wildlife were substantial prior to a significant human impact. This provides a critical knowledge of climatically driven, environmental and ecological changes in the past, which is essential to better understand the dynamics and resilience of current biodiversity. Teixeira et al. combine genomic and palaeoecological datasets to infer the demographic history of a forest-dwelling lemur in Madagascar. Their findings indicate that historical environmental changes drove population demographic changes prior to anthropogenic impact, which was detected in the study region during the last millennium.
ISSN:2399-3642
2399-3642
DOI:10.1038/s42003-021-02620-1