内在和外在因素共同影响狒狒在自然和城市环境中的移动

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-07-27 DOI:10.1016/j.anbehav.2024.07.002
Anna M. Bracken , Charlotte Christensen , M. Justin O'Riain , Ines Fürtbauer , Andrew J. King
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引用次数: 0

摘要

由于内在因素(个体表型)和外在因素(如景观的变化和与人类互动的增加)的影响,野生动物在城市环境中的运动可能与在自然环境中的运动有很大不同。在这里,我们使用配备了 1 Hz GPS 的追踪项圈,研究了南非开普敦查克马狒狒(Papio ursinus)在自然和城市环境中的精细运动变化(个体步长、路径曲折度和停留时间)。我们发现,狒狒在平均运动(内在因素:行为类型)方面的个体间差异有限,但在不同环境(外在因素:行为可塑性)方面的差异很大,与自然空间相比,在城市空间中,所有狒狒都走得更快、更直,在一个地点停留的时间更短。我们发现,狒狒的运动在个体内部存在很大差异(行为可预测性),这表明有些个体的运动比其他个体表现出更大的一致性。最后,我们发现个体(ID)和环境(城市)之间在所有指标上都存在交互作用,即个体在城市空间中的运动变化程度与在自然空间中的运动变化程度存在差异。运动变化最大的个体往往是等级较高、有社会关系的狒狒,这也是城市狒狒管理计划的重点,该计划旨在将狒狒赶出城区。因此,我们认为,狒狒在自然和城市空间之间的活动变化,部分是人类与狒狒之间互动的结果。总之,我们的研究结果表明,动物个体的运动会受到环境变化的影响,对某些狒狒表型的影响比对其他狒狒的影响更大。
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Intrinsic and extrinsic factors combine to affect baboon movements across natural and urban environments

Wildlife movement in urban environments can differ significantly from that in natural environments due to intrinsic factors (individual phenotype) as well as extrinsic factors (such as changes to the landscape and increased interactions with people). Here, we used tracking collars equipped with 1 Hz GPS to investigate the variation in fine-scale movement (individual step lengths, path tortuosity and residence times) of chacma baboons, Papio ursinus, across natural and urban environments in Cape Town, South Africa. We showed that the baboons exhibited limited interindividual differences in average movement (intrinsic factor: behavioural type), but large differences across environment (extrinsic factor: behavioural plasticity), where all baboons travelled faster and straighter, and spent less time in one location, when in urban space compared to natural space. We showed large intraindividual differences in baboon movement (behavioural predictability), indicating that some individuals exhibit greater consistency in movement than others. Finally, we showed an interaction between individual (ID) and environment (urban) for all metrics, where individuals differed in how much their movement in urban space changed compared to their movement in natural space. The individuals that changed their movement the most tended to be higher-ranking, socially connected baboons, which are the focus of the city's baboon management programme, seeking to keep baboons out of urban areas. We therefore suspect these changes in movement between natural and urban space to be partly a result of human–baboon interactions. Taken together, our results show how individual animal movement can be impacted by changing environments, affecting certain baboon phenotypes more than others.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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