濒危黑狮狨在不同环境中的路线规划过程

IF 2 3区 生物学 Q1 ZOOLOGY
Felipe Bufalo, Olivier Kaisin, Anne-Sophie de Almeida E Silva, Rodrigo Gonçalves Amaral, Yness Messaoudi, Mirela Alcolea, Eduardo M Zanette, Gabriel Pavan Sabino, Luca Börger, Laurence Culot
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引用次数: 0

摘要

灵长类动物每天都要做出各种决定,确定移动的原因、时间和地点。然而,人们对影响和决定灵长类日常活动路线的因素知之甚少。我们研究了四组黑狮狨(BLT-Leontopithecus chrysopygus)与路线规划相关的决策过程。我们在其自然分布的四个不同环境中(即连续森林、500 公顷森林片段、100 公顷森林片段和河岸森林)研究了这些濒临灭绝的长尾猴。我们使用 "变化点测试"(Change Point Test)来确定重要的方向变化点(CPs),这些点可被视为BLT每日轨迹上的旅行目标,也是旅行规划的关键组成部分。考虑到水果和树胶在褐飞虱食物中的重要性,我们预测喂食树木将是影响其行进路线的主要因素(喂食 CPs-FCPs)。此外,鉴于之前有证据表明,板蓝根类动物将地标(即地形的特征)作为路线网络系统的节点(即连接惯常路线段的交叉点),我们预计CPs的一部分将位于交叉点附近,并与 "运动 "行为(LCPs)相关。通过分析四片森林中的61条日常路径,我们的结果表明,BLTs规划的路线是为了到达觅食树,这主要决定了路径的方向。正如假设的那样,运动是CP中最常见的行为,但只有在连片森林和河岸森林中才能观察到,LCP与FCP一样靠近交叉路口。有趣的是,这两个区域在使用面积、资源丰富程度和果树之间的距离方面呈现出最极端的数值(即分别较高和较低)。我们的研究结果表明,BLTs根据环境条件规划日常路线以达到旅行目标,很可能是为了最大限度地提高路线效率,以到达视线以外的果树觅食。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Route Planning Process by the Endangered Black Lion Tamarin in Different Environmental Contexts.

Daily, primates take a variety of decisions to establish why, when, and where to move. However, little is known about the factors influencing and shaping primate daily routes. We investigated the decision-making processes linked to route planning in four groups of black lion tamarins (BLT-Leontopithecus chrysopygus). We studied these endangered platyrrhines within four distinct environmental contexts across their natural distribution (i.e., a continuous forest, a 500-ha forest fragment, a 100-ha forest fragment, and a riparian forest). We used the Change Point Test to identify the points of significant direction change (CPs), which can be considered travel goals along BLT daily trajectories and are key components of travel planning. Considering the high importance of fruits and gum in BLT's diet, we predicted that feeding trees would be the main factor shaping their paths (feeding CPs-FCPs). Also, given previous evidence that platyrrhines use landmarks (i.e., characteristic features from the terrain) as nodes in route network systems (i.e., points of intersection connecting habitual route segments), we expected part of CPs to be located close to the intersection points and to be associated with "locomotion" behavior (LCPs). Analyzing 61 daily paths in four forest fragments, our results showed that BLTs planned routes to reach feeding trees, which primarily determined path orientation. As hypothesized, locomotion was the most frequent behavior observed in CPs, but only in the continuous and riparian forests, with LCPs located as close to intersections as FCPs. Interestingly, these two areas presented the most extreme values (i.e., higher and lower values, respectively) in terms of used area, richness of resources and distances traveled between fruit-feeding trees. Our results suggest that BLTs plan daily routes conditional on the environmental context to reach travel goals, likely to maximize route efficiency to reach out of sight feeding trees.

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来源期刊
CiteScore
4.50
自引率
8.30%
发文量
103
审稿时长
4-8 weeks
期刊介绍: The objective of the American Journal of Primatology is to provide a forum for the exchange of ideas and findings among primatologists and to convey our increasing understanding of this order of animals to specialists and interested readers alike. Primatology is an unusual science in that its practitioners work in a wide variety of departments and institutions, live in countries throughout the world, and carry out a vast range of research procedures. Whether we are anthropologists, psychologists, biologists, or medical researchers, whether we live in Japan, Kenya, Brazil, or the United States, whether we conduct naturalistic observations in the field or experiments in the lab, we are united in our goal of better understanding primates. Our studies of nonhuman primates are of interest to scientists in many other disciplines ranging from entomology to sociology.
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