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Effects of climate change have mostly been studied in large, long-lived species with low reproductive output. Small mammals with high reproductive rates can usually adapt well to changing environmental conditions, so they have been little studied in the context of climate change. Claudia Fichtel and Peter Kappeler from the German Primate Center – Leibniz Institute for Primate Research (DPZ) have been researching lemurs on Madagascar for many years and have thus built up a unique data set to fill this knowledge gap.
Over a period of 26 years, from 1994 to 2020, Peter Kappeler and Claudia Fichtel studied the demographic structure of a mouse lemur population at the DPZ research station in Madagascar. Climate data from the same period show that the rainy season in this region became increasingly drier and the dry season increasingly warmer. They have now analyzed these data together with Arpat Ozgul, professor of population ecology at the University of Zurich, and found an increasing mortality with rising reproductive rates. "These opposing trends have prevented a collapse of the mouse lemur population, but have nevertheless led to a destabilization of the population, as the already fast life cycle of the animals has been further accelerated," says Claudia Fichtel.
Fluctuating population sizes due to climate change pose a major threat to the animals and could lead to extinction of the species. "Our results show that even an animal species that is supposedly able to adapt easily to changing environmental conditions thanks to a high reproductive rate is threatened in its survival by climate changes," says Peter Kappeler. This is bad news, given that the lemurs that only occur in Madagascar are the world's most endangered mammals. "In the future, data on the demographic stability of a population should also be included when classifying the risk of extinction of an animal species. Since this requires data from long-term observations, this is not yet possible for many animal species," says Claudia Fichtel.
Ozgul A, Fichtel C, Paniw M, Kappeler PM (2023) Destabilising effect of climate change on the persistence of a short-lived primate. Proceedings of the National Academy of Sciences USA, Vol. 120, DOI: 10.1073/pnas.2214244120, https://doi.org/10.1073/pnas.2214244120
