Methods for implementing integrated step-selection functions with incomplete data.

IF 3.4 1区 生物学 Q2 ECOLOGY Movement Ecology Pub Date : 2024-05-09 DOI:10.1186/s40462-024-00476-8
David D Hofmann, Gabriele Cozzi, John Fieberg
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Abstract

Integrated step-selection analyses (iSSAs) are versatile and powerful frameworks for studying habitat and movement preferences of tracked animals. iSSAs utilize integrated step-selection functions (iSSFs) to model movements in discrete time, and thus, require animal location data that are regularly spaced in time. However, many real-world datasets are incomplete due to tracking devices failing to locate an individual at one or more scheduled times, leading to slight irregularities in the duration between consecutive animal locations. To address this issue, researchers typically only consider bursts of regular data (i.e., sequences of locations that are equally spaced in time), thereby reducing the number of observations used to model movement and habitat selection. We reassess this practice and explore four alternative approaches that account for temporal irregularity resulting from missing data. Using a simulation study, we compare these alternatives to a baseline approach where temporal irregularity is ignored and demonstrate the potential improvements in model performance that can be gained by leveraging these additional data. We also showcase these benefits using a case study on a spotted hyena (Crocuta crocuta).

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利用不完整数据实现综合阶跃选择功能的方法。
综合阶跃选择分析(iSSA)是研究追踪动物栖息地和运动偏好的多功能且强大的框架。iSSA利用综合阶跃选择函数(iSSF)来模拟离散时间内的运动,因此需要时间上有规律间隔的动物位置数据。然而,现实世界中的许多数据集都不完整,原因是追踪设备未能在一个或多个预定时间找到个体,导致连续动物位置之间的持续时间略有不规则。为了解决这个问题,研究人员通常只考虑有规律的突发数据(即时间间隔相等的位置序列),从而减少了用于建立运动和栖息地选择模型的观测数据的数量。我们重新评估了这种做法,并探索了四种可替代的方法,以考虑因数据缺失而导致的时间不规则性。通过模拟研究,我们将这些替代方法与忽略时间不规则性的基准方法进行了比较,并展示了利用这些额外数据对模型性能的潜在改进。我们还通过对斑纹鬣狗(Crocuta crocuta)的案例研究展示了这些优势。
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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.
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