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使用个体生物能量模型预测干扰对种群的综合影响:以喙鲸和海军声纳为例的案例研究。

Using individual-based bioenergetic models to predict the aggregate effects of disturbance on populations: A case study with beaked whales and Navy sonar.

机构信息

Institute for Biodiversity and Ecosystem Dynamics, University of Amsterdam, Amsterdam, The Netherlands.

Wageningen Marine Research, IJmuiden, The Netherlands.

出版信息

PLoS One. 2023 Aug 31;18(8):e0290819. doi: 10.1371/journal.pone.0290819. eCollection 2023.

DOI:10.1371/journal.pone.0290819
PMID:37651444
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10470956/
Abstract

Anthropogenic activities can lead to changes in animal behavior. Predicting population consequences of these behavioral changes requires integrating short-term individual responses into models that forecast population dynamics across multiple generations. This is especially challenging for long-lived animals, because of the different time scales involved. Beaked whales are a group of deep-diving odontocete whales that respond behaviorally when exposed to military mid-frequency active sonar (MFAS), but the effect of these nonlethal responses on beaked whale populations is unknown. Population consequences of aggregate exposure to MFAS was assessed for two beaked whale populations that are regularly present on U.S. Navy training ranges where MFAS is frequently used. Our approach integrates a wide range of data sources, including telemetry data, information on spatial variation in habitat quality, passive acoustic data on the temporal pattern of sonar use and its relationship to beaked whale foraging activity, into an individual-based model with a dynamic bioenergetic module that governs individual life history. The predicted effect of disturbance from MFAS on population abundance ranged between population extinction to a slight increase in population abundance. These effects were driven by the interaction between the temporal pattern of MFAS use, baseline movement patterns, the spatial distribution of prey, the nature of beaked whale behavioral response to MFAS and the top-down impact of whale foraging on prey abundance. Based on these findings, we provide recommendations for monitoring of marine mammal populations and highlight key uncertainties to help guide future directions for assessing population impacts of nonlethal disturbance for these and other long-lived animals.

摘要

人为活动会导致动物行为发生变化。要预测这些行为变化对种群的影响,需要将短期的个体反应整合到能够跨多代预测种群动态的模型中。对于寿命较长的动物来说,这尤其具有挑战性,因为涉及到不同的时间尺度。喙鲸是一组深潜齿鲸,当暴露于军事中频主动声纳(MFAS)时会表现出行为反应,但这些非致命反应对喙鲸种群的影响尚不清楚。本研究评估了两种喙鲸种群在美军训练区的聚集暴露对种群的影响,这些区域经常使用 MFAS。我们的方法整合了广泛的数据源,包括遥测数据、栖息地质量空间变化的信息、关于声纳使用时间模式及其与喙鲸觅食活动关系的被动声学数据,以及一个具有动态生物能量模块的个体基础模型,该模块控制个体的生活史。MFAS 干扰对种群丰度的预测影响范围从种群灭绝到种群丰度略有增加。这些影响是由 MFAS 使用的时间模式、基线运动模式、猎物的空间分布、喙鲸对 MFAS 的行为反应的性质以及鲸鱼觅食对猎物丰度的自上而下的影响之间的相互作用驱动的。基于这些发现,我们为海洋哺乳动物种群监测提供了建议,并强调了关键的不确定性,以帮助指导评估这些和其他长寿动物的非致命干扰对种群影响的未来方向。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b67e/10470956/044c6c01f3a1/pone.0290819.g009.jpg
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