头部与身体头部的检查可能有助于阐明动物运动路径在多大程度上是由环境线索构成的?

IF 3.4 1区 生物学 Q2 ECOLOGY Movement Ecology Pub Date : 2023-10-27 DOI:10.1186/s40462-023-00432-y
Richard M Gunner, Rory P Wilson, Mark D Holton, Nigel C Bennett, Abdulaziz N Alagaili, Mads F Bertelsen, Osama B Mohammed, Tobias Wang, Paul R Manger, Khairi Ismael, D Michael Scantlebury
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摘要

理解决定动物如何将时间分配给空间的过程是一个重大挑战,尽管人们承认,动物随时间的运动路径必须定义时空使用。关键的问题是,是什么过程构成了这些途径?根据路径内的转弯可能基于环境决定的想法,我们为阿拉伯大羚羊配备了头部和身体安装的标签,以确定它们的头部方向——我们认为这表明它们评估环境——与它们的运动路径有关,以研究环境扫描在路径曲折中的作用。在模拟捕食者以验证大羚羊直接观察感兴趣的物体后,我们记录到,在日常运动中,> 60%的动物在被处决之前,头部航向的变化并没有立即反映在身体航向上:路径转弯角度(由身体航向指示)与头部航向的先前变化(头部航向由路径中的后续转弯反映)的相关性是由于动物采用相反方向的身体航向而发生路径转弯时的21倍头部航向的变化。尽管我们无法确定感兴趣的物体是什么,因此也无法确定转向的拟议原因,但我们认为这反映了使用头部感觉来检测有利的环境特征(如食物)或检测有害特征(如捕食者)。我们的试点研究结果表明,转弯可能会在动物路径中出现,我们认为,对高度解析的动物路径中的拐点的检查可以代表景观中的决策,对它们的检查可以增强我们对动物路径结构的理解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Examination of head versus body heading may help clarify the extent to which animal movement pathways are structured by environmental cues?

Understanding the processes that determine how animals allocate time to space is a major challenge, although it is acknowledged that summed animal movement pathways over time must define space-time use. The critical question is then, what processes structure these pathways? Following the idea that turns within pathways might be based on environmentally determined decisions, we equipped Arabian oryx with head- and body-mounted tags to determine how they orientated their heads - which we posit is indicative of them assessing the environment - in relation to their movement paths, to investigate the role of environment scanning in path tortuosity. After simulating predators to verify that oryx look directly at objects of interest, we recorded that, during routine movement, > 60% of all turns in the animals' paths, before being executed, were preceded by a change in head heading that was not immediately mirrored by the body heading: The path turn angle (as indicated by the body heading) correlated with a prior change in head heading (with head heading being mirrored by subsequent turns in the path) twenty-one times more than when path turns occurred due to the animals adopting a body heading that went in the opposite direction to the change in head heading. Although we could not determine what the objects of interest were, and therefore the proposed reasons for turning, we suggest that this reflects the use of cephalic senses to detect advantageous environmental features (e.g. food) or to detect detrimental features (e.g. predators). The results of our pilot study suggest how turns might emerge in animal pathways and we propose that examination of points of inflection in highly resolved animal paths could represent decisions in landscapes and their examination could enhance our understanding of how animal pathways are structured.

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来源期刊
Movement Ecology
Movement Ecology Agricultural and Biological Sciences-Ecology, Evolution, Behavior and Systematics
CiteScore
6.60
自引率
4.90%
发文量
47
审稿时长
23 weeks
期刊介绍: Movement Ecology is an open-access interdisciplinary journal publishing novel insights from empirical and theoretical approaches into the ecology of movement of the whole organism - either animals, plants or microorganisms - as the central theme. We welcome manuscripts on any taxa and any movement phenomena (e.g. foraging, dispersal and seasonal migration) addressing important research questions on the patterns, mechanisms, causes and consequences of organismal movement. Manuscripts will be rigorously peer-reviewed to ensure novelty and high quality.
期刊最新文献
Satellite telemetry reveals complex mixed movement strategies in ibis and spoonbills of Australia: implications for water and wetland management. The timing and spatial distribution of mother-offspring interactions in an obligate hider. Identifying signals of memory from observations of animal movements. Time synchronisation for millisecond-precision on bio-loggers. Migratory strategies across an ecological barrier: is the answer blowing in the wind?
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