Abstract

Habitat fragmentation and anthropogenic disturbances are of major concern to the conservation of endangered species because of their potentially negative impact on animal populations. Both processes can impose physiological stress (i.e. increased glucocorticoid output) on animals, and chronically elevated stress levels can have detrimental effects on the long-term viability of animal populations. Here, we investigated the effect of fragment size and human impact (logging and hunting pressure) on glucocorticoid levels of two sympatric Neotropical primates, the red howler monkey (Alouatta seniculus) and the critically endangered brown spider monkey (Ateles hybridus). These two species have been reported to contrast strongly in their ability to cope with anthropogenic disturbances. We collected faecal samples from eight spider monkey groups and 31 howler monkey groups, living in seven and 10 different forest fragments in Colombia, respectively. We measured faecal glucocorticoid metabolite (FGCM) levels in both species using previously validated methods. Surprisingly, fragment size did not influence FGCM levels in either species. Spider monkeys showed elevated FGCMs in fragments with the highest level of human impact, whereas we did not find this effect in howler monkeys. This suggests that the two species differ in their physiological responsiveness to anthropogenic changes, further emphasizing why brown spider monkeys are at higher extinction risk than red howler monkeys. If these anthropogenic disturbances persist in the long term, elevated FGCM levels can potentially lead to a state of chronic stress, which might limit the future viability of populations. We propose that FGCM measurements should be used as a tool to monitor populations living in disturbed areas and to assess the success of conservation strategies, such as corridors connecting forest fragments.

Highlights

  • IntroductionHabitat fragmentation, and anthropogenic disturbances that accompany these processes (e.g. logging, increased hunting pressure) are of major concern to the conservation of endangered species due to their role in population declines (Peres, 2001; Fahrig, 2003)

  • Habitat loss, habitat fragmentation, and anthropogenic disturbances that accompany these processes are of major concern to the conservation of endangered species due to their role in population declines (Peres, 2001; Fahrig, 2003)

  • Spider monkeys living in fragments with both kinds of human influence had faecal glucocorticoid metabolites (FGCMs) levels that were more than twice as high as those found in animals living in fragments with no disturbance or only one type of disturbance ­(mean ± SEM = 137.16 ± 45.5 ng/g; PMCMC = 0.04)

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Summary

Introduction

Habitat fragmentation, and anthropogenic disturbances that accompany these processes (e.g. logging, increased hunting pressure) are of major concern to the conservation of endangered species due to their role in population declines (Peres, 2001; Fahrig, 2003). The pervasive process of anthropogenic disturbances of natural ecosystems (Hannah et al, 1995; Foley et al, 2005) emphasizes the need to understand the proximate effects that these alterations have on the health and survival of animal populations. Species respond to fragmentation and disturbances differently depending on factors such as life history, geographical range, ecological niche, and dispersal ability (Purvis et al, 2000; Henle et al, 2004; Cardillo et al, 2005). Some species manage to adjust aspects of their behaviour and social system (Menon and Poirier, 1996; Sumner et al, 1999; González-Solís et al, 2001; Blumstein et al, 2005; Umapathy et al, 2011), whereas species that cannot adjust face local extinction (Cosson et al, 1999; Peres, 2001)

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