2016
DOI: 10.1111/gcb.13162
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Climate and land use changes will degrade the configuration of the landscape for titi monkeys in eastern Brazil

Abstract: Land use changes have profound effects on populations of Neotropical primates, and ongoing climate change is expected to aggravate this scenario. The titi monkeys from eastern Brazil (Callicebus personatus group) have been particularly affected by this process, with four of the five species now allocated to threatened conservation status categories. Here, we estimate the changes in the distribution of these titi monkeys caused by changes in both climate and land use. We also use demographic-based, functional l… Show more

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Cited by 58 publications
(44 citation statements)
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“…Our findings add to a relatively small but growing body of knowledge about the implications of climate change for nonhuman primates (Estrada et al., ; Graham, Matthews, & Turner, ; Korstjens & Hillyer, ). Much of the research in this area has focused on activity budget constraints (Korstjens, Lehmann, & Dunbar, ; Lehmann, Korstjens, & Dunbar, ; Majolo, McFarland, Young, & Qarro, ; McFarland, Barrett, Boner, Freeman, & Henzi, ) or species distribution models (Gouveia et al., ; Sesink Clee et al., ; Struebig et al., ). Few studies have examined climate effects on primate demography with the aim of understanding implications of future climate change (Campos et al., ; Dunham et al., , ; Wiederholt & Post, ), and none with the level of individual‐based detail and cross‐taxon scope of the present study.…”
Section: Discussionmentioning
confidence: 99%
“…Our findings add to a relatively small but growing body of knowledge about the implications of climate change for nonhuman primates (Estrada et al., ; Graham, Matthews, & Turner, ; Korstjens & Hillyer, ). Much of the research in this area has focused on activity budget constraints (Korstjens, Lehmann, & Dunbar, ; Lehmann, Korstjens, & Dunbar, ; Majolo, McFarland, Young, & Qarro, ; McFarland, Barrett, Boner, Freeman, & Henzi, ) or species distribution models (Gouveia et al., ; Sesink Clee et al., ; Struebig et al., ). Few studies have examined climate effects on primate demography with the aim of understanding implications of future climate change (Campos et al., ; Dunham et al., , ; Wiederholt & Post, ), and none with the level of individual‐based detail and cross‐taxon scope of the present study.…”
Section: Discussionmentioning
confidence: 99%
“…Although some species may cope with these changes either by migrating to more suitable conditions or by adapting in situ, dispersal or range shift is not always possible and may have highly negative consequences (Supplementary Text) ( 76 ). Forest fragmentation induced by climate change can affect the availability of dispersal routes ( 77 ). Climate change may also force individuals out of protected areas, making them more vulnerable to hunting and other anthropogenic impacts ( 78 ), and range shifts among interacting species can affect food supplies and introduce new predators, pathogens, and/or competitors ( 79 ).…”
Section: Factors That Threaten Primate Populationsmentioning
confidence: 99%
“…Outcomes of climate change challenge the conservation and persistence of many species (Gouveia et al, 2016), especially those considered to be endemic and threatened with higher extinction risks (Lambers, 2015). Climate change can lead to changes in characteristics of movement and species distribution (Lister, Brocki, & Ament, 2015), including range shifts, habitat contractions and expansions and fragmentation (Parmesan, 2006;Struebig et al, 2015).…”
Section: Introductionmentioning
confidence: 99%
“…The identification of refugia relies on recognition of the current and future distributions of species (Keppel et al, 2015). Habitat suitability assessments based on species distribution modeling (SDM) have been widely used to understand the species response to environmental changes (Gouveia et al, 2016) and to identify refugia (Keppel et al, 2012). Alternatively, climate change velocity can also be used to identify refugia, as these areas characterized by low climate change velocity (Keppel et al, 2015;Sandel et al, 2011).…”
Section: Introductionmentioning
confidence: 99%