Viability meets suitability: distribution of the extinction risk of an imperiled titi monkey (Callicebus barbarabrownae) under multiple threats

Ongoing environmental changes may reduce the population size and geographic distribution of many ecologically sensitive species. Predicting where populations will (or will not) be likely to resist these changes is crucial for planning their protection. The blond titi monkey ( Callicebus barbarabrown...

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Bibliographic Details
Published in:International journal of primatology 2022-02, Vol.43 (1), p.114-132
Main Authors: Barreto, Hamilton Ferreira, Jerusalinsky, Leandro, Eduardo, Anderson A., Alonso, André Chein, Júnior, Eduardo Marques Santos, Beltrão-Mendes, Raone, Ferrari, Stephen F., Gouveia, Sidney F.
Format: Article
Language:English
Subjects:
Animal Ecology
Animal Genetics and Genomics
Anthropology
Appropriateness
Biomedical and Life Sciences
Callicebus barbarabrownae
Climate change
Climate models
Conservation
Deforestation
Desertification
Dry forests
Endangered
Endangered & extinct species
Endangered species
Endemic species
Environmental changes
Environmental quality
Evolutionary Biology
Extinction
Forests
Geographic distribution
Geographical distribution
Human Genetics
Hunting
Life Sciences
Monkeys
Nature conservation
Optimism
Population decline
Population number
Population viability
Populations
Primates
Species extinction
Suitability
Threats
Viability
Zoology
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Summary:Ongoing environmental changes may reduce the population size and geographic distribution of many ecologically sensitive species. Predicting where populations will (or will not) be likely to resist these changes is crucial for planning their protection. The blond titi monkey ( Callicebus barbarabrownae ) is listed as Critically Endangered by the International Union for Conservation of Nature because of its small and declining population due to deforestation and hunting. The species is endemic to the Brazilian Caatinga dry forest, which has undergone extensive deforestation and climate-induced desertification. We address the extinction risk of this species in a spatially explicit context by predicting the geographic distribution of suitable areas that may permit the persistence of potentially viable populations over the next 50 years. We combined species distribution modeling with population viability analysis under more optimistic and pessimistic climate change scenarios and simulated forest loss, assessing how different populations will likely cope with these changes during the coming decades. Future models did not differ between the scenarios, but changes in the climatic suitability of the species’ habitat predicted a reduction of one-third of the currently suitable area. Viable populations in large forest remnants represent only a quarter of all known populations, and they also face a decline in climatic suitability. Smaller populations may be extirpated, regardless of the level of forest recovery. This species’ long-term persistence entails improving habitat quality and the connectivity of the large remnants to neighbor areas. Finally, the integration of spatial and temporal models is feasible and helpful to address threats and aid the conservation of primates.
ISSN:0164-0291
1573-8604
DOI:10.1007/s10764-021-00259-7