Towards transient space-use dynamics: re-envisioning models of utilization distribution and their applications.

IF 3.4 1区生物学 Q2 ECOLOGY

Movement Ecology Pub Date : 2025-02-28 DOI:10.1186/s40462-025-00538-5

Yun Tao, Valeria Giunta, Luca Börger, Mark Q Wilber

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引用次数: 0

Abstract

Background: Models of utilization distribution in the form of partial differential equations have long contributed to our understanding of organismal space use patterns. In studies of infectious diseases, they are also being increasingly adopted in support of epidemic forecasting and scenario planning. However, as movement research shifts its focus towards large data collection and statistical modeling of movement trajectories, the development of such models has notably slowed.

Methods: Here, we demonstrate the continued importance of modeling utilization distribution to predict variation in space-use patterns over time. We highlight the considerable, yet largely untapped, potential of such models, which have historically been limited by the steady-state assumption due to longstanding technical constraints. Now, by adapting existing computational tools primarily developed for material science and engineering, we can probe beyond the steady states and unlock from them a broad spectrum of complex, transient space-use dynamics. Our approach requires little experience in numerical analysis and is readily accessible to model practitioners in ecology and epidemiology across diverse systems where movement is a critical feature.

Results: We illustrated our approach using a mix of canonical and novel case studies, covering topics from wildlife translocation to vaccine deployment. First, we revisited a classical model of canid territorial formation driven by scent-mediated conspecific avoidance. Transient space-use analysis uncovered previously hidden spatial dynamics that are ecologically informative. Next, we applied our approach to long-distance movement on realistic landscapes. Habitat and land-use heterogeneities markedly affected the transient space-use dynamics and short-term forecasts, even when the steady state remained unchanged, with direct implications for conservation management. Finally, we modeled transient space-use dynamics as both a response to and a driver of transient population dynamics. The importance of this interdependence was shown in the context of epidemiology, in a scenario where the movement of healthcare personnel is influenced by local outbreak conditions that are stochastically evolving.

Conclusions: By facilitating transient space-use analysis, our approach could lead to reevaluations of foundational ecological concepts such as home range and territory, replacing static with dynamic definitions that more accurately reflect biological realities. Furthermore, we contend that a growing interest in transient space-use dynamics, spurred by this work, could have transformative effects, stimulating new research avenues in ecology and epidemiology.

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走向暂态空间利用动力学：利用分布模型及其应用的再设想。

背景：长期以来，偏微分方程形式的利用分布模型有助于我们对有机空间利用模式的理解。在传染病研究中，也越来越多地采用它们来支持流行病预测和情景规划。然而，随着运动研究的重点转向大数据收集和运动轨迹的统计建模，这些模型的发展明显放缓。方法：在这里，我们证明了建模利用分布对预测空间利用模式随时间变化的持续重要性。由于长期的技术限制，这些模型在历史上受到稳态假设的限制，我们强调了这些模型的巨大潜力，但在很大程度上尚未开发。现在，通过调整现有的主要为材料科学和工程开发的计算工具，我们可以探索稳定状态之外的东西，并从中解锁复杂的、瞬态的空间使用动态的广泛范围。我们的方法需要很少的数值分析经验，并且很容易被生态学和流行病学的模型实践者在不同的系统中使用，其中运动是一个关键特征。结果：我们使用规范和新颖案例研究的混合说明了我们的方法，涵盖了从野生动物易位到疫苗部署的主题。首先，我们重新审视了由气味介导的同种回避驱动的犬科动物领土形成的经典模型。短暂的空间利用分析揭示了以前隐藏的空间动态，这些动态具有生态信息。接下来，我们将我们的方法应用于现实景观的长距离运动。生境和土地利用异质性显著影响了空间利用的瞬态动态和短期预测，即使在稳定状态保持不变的情况下也是如此，这对保护管理具有直接影响。最后，我们将暂态空间利用动态建模为对暂态人口动态的响应和驱动。在流行病学的背景下，这种相互依存的重要性得到了体现，在这种情况下，卫生保健人员的流动受到随机演变的当地疫情条件的影响。结论：通过促进瞬时空间利用分析，我们的方法可以导致对基本生态概念（如家园范围和领土）的重新评估，用更准确地反映生物现实的动态定义取代静态定义。此外，我们认为，在这项工作的推动下，对瞬态空间利用动力学的兴趣日益增长，可能会产生变革性的影响，刺激生态学和流行病学的新研究途径。

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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来源期刊

Movement Ecology Agricultural and Biological Sciences-Ecology, Evolution, Behavior and Systematics

CiteScore

6.60

自引率

4.90%

发文量

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.