1. Camera Traps Clarify the Distribution Boundary between the Crested Black Macaque (Macaca nigra) and Gorontalo Macaque (Macaca nigrescens) in North Sulawesi
- Author
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Harry Hilser, Rivo Rahasia, Matthew Linkie, Alfons Patandung, Iwan Hunowu, Wulan Pusparini, Caspian L. Johnson, Noviar Andayani, and Andrew E. Bowkett
- Subjects
0106 biological sciences ,education.field_of_study ,biology ,Range (biology) ,Ecology ,05 social sciences ,Population ,Macaca nigrescens ,biology.organism_classification ,010603 evolutionary biology ,01 natural sciences ,Critically endangered ,Geography ,Habitat ,Abundance (ecology) ,Animal ecology ,Threatened species ,0501 psychology and cognitive sciences ,Animal Science and Zoology ,050102 behavioral science & comparative psychology ,education ,Ecology, Evolution, Behavior and Systematics - Abstract
Primates are among the most threatened taxa of mammals in the world. Tracking the status of primates requires continually assessing population distribution, abundance, and threats, which in turn requires the extent of a species’ occurrence to be known. Defining this important parameter in practice can be difficult. In this article we demonstrate how camera traps can be used to address this with a case study involving two macaque species on the northernmost peninsula of Sulawesi, Indonesia. We deployed 83 camera traps across the suspected interface between the Critically Endangered Macaca nigra and the Vulnerable Macaca nigrescens. Using spatially explicit photographic records of both species, we found the boundary between the two species is 14.85 km farther west than previously defined. We estimate that the additional area encompassed by this new boundary location equates to 224 km2 of suitable habitat for M. nigra, an increase of 7.5%. This has important implications for more accurately assessing the threatened status of both species in the future. As camera traps become cheaper, their deployment at broader spatial scales is becoming more feasible, which in turn provides opportunities to enhance our ecological understanding of species. Here, we demonstrate an additional insight that can be gained from such technology, by showing how the range extent of a Critically Endangered primate can be accurately demarcated. Accordingly, we encourage primatologists to think more broadly about the possible applications of camera traps and to include them as tools in their conservation inventories.
- Published
- 2019