Predator–prey space use and landscape features influence movement behaviors in a large-mammal community

IF 4.4 2区 环境科学与生态学 Q1 ECOLOGY Ecology Pub Date : 2024-10-14 DOI:10.1002/ecy.4448
Sarah B. Bassing, Lauren Satterfield, Taylor R. Ganz, Melia DeVivo, Brian N. Kertson, Trent Roussin, Aaron J. Wirsing, Beth Gardner
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Abstract

Predator hunting strategies, such as stalking versus coursing behaviors, are hypothesized to influence antipredator behaviors of prey and can describe the movement behaviors of predators themselves. Predators and prey may alter their movement in relation to predator hunting modes, yet few studies have evaluated how these strategies influence movement behaviors of free-ranging animals in a multiple-predator, multiple-prey system. We fit hidden Markov models (HMM) with movement data derived from >400 GPS-collared ungulates and large predators in eastern Washington, USA. We used these models to test our hypotheses that stalking (cougars [Puma concolor]) and coursing (gray wolves [Canis lupus]) predators would exhibit different broad-scale movement behaviors consistent with their respective hunting strategies in areas that increased the likelihood of encountering or capturing ungulate prey (e.g., habitats selected by deer [Odocoileus spp.]). Similarly, we expected that broadscale movement behaviors of prey would change in response to background levels of predation risk associated with each predator's hunting strategy. We found that predators and ungulate prey adjusted their broadscale movements in response to one another's long-term patterns of habitat selection but not based on differences in predator-hunting strategies. Predators changed their movement behaviors based on the type of prey, whereas ungulates generally reduced movement in areas associated with large predators, regardless of the predator's hunting strategy. Both predator and prey movements varied in response to landscape features but not necessarily based on habitat that would facilitate specific hunting behaviors. Our results suggest that predators and prey adjust their movements at broad temporal scales in relation to long-term patterns of risk and resource distributions, potentially influencing their encounter rates with one another at finer spatiotemporal scales. Habitat features further influenced changes in movement, resulting in a complex combination of movement behaviors in multiple-predator, multiple-prey systems.

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捕食者-猎物空间利用和地貌特征影响大型哺乳动物群落的移动行为。
据推测,捕食者的狩猎策略(如跟踪与追逐行为)会影响猎物的反捕食行为,并能描述捕食者自身的运动行为。捕食者和猎物可能会根据捕食者的狩猎模式改变自己的运动,但很少有研究评估这些策略如何影响多捕食者、多猎物系统中自由活动动物的运动行为。我们将隐马尔可夫模型(HMM)与来自美国华盛顿州东部超过 400 只佩戴 GPS 颈圈的蹄类动物和大型捕食者的运动数据进行了拟合。我们用这些模型来验证我们的假设:在增加遇到或捕获蹄类动物猎物的可能性的区域(如鹿选择的栖息地),跟踪型(美洲狮)和追捕型(灰狼)捕食者会表现出不同的大范围移动行为,这与它们各自的捕猎策略是一致的。同样,我们预计猎物的大范围移动行为也会随着与每种捕食者狩猎策略相关的捕食风险背景水平的变化而变化。我们发现,捕食者和蹄类动物会根据彼此对栖息地的长期选择模式而调整它们的大范围运动,但并不是根据捕食者狩猎策略的差异。捕食者会根据猎物的类型改变其运动行为,而有蹄类动物则会减少在与大型捕食者相关区域的运动,无论捕食者的狩猎策略如何。捕食者和猎物的运动都会随着地貌特征的变化而变化,但并不一定是根据有利于特定捕猎行为的栖息地而变化。我们的研究结果表明,捕食者和猎物会根据风险和资源分布的长期模式在大的时间尺度上调整它们的运动,这可能会影响它们在更细的时空尺度上的相遇率。栖息地特征进一步影响了捕食者的运动变化,从而导致了多捕食者、多猎物系统中运动行为的复杂组合。
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来源期刊
Ecology
Ecology 环境科学-生态学
CiteScore
8.30
自引率
2.10%
发文量
332
审稿时长
3 months
期刊介绍: Ecology publishes articles that report on the basic elements of ecological research. Emphasis is placed on concise, clear articles documenting important ecological phenomena. The journal publishes a broad array of research that includes a rapidly expanding envelope of subject matter, techniques, approaches, and concepts: paleoecology through present-day phenomena; evolutionary, population, physiological, community, and ecosystem ecology, as well as biogeochemistry; inclusive of descriptive, comparative, experimental, mathematical, statistical, and interdisciplinary approaches.
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