The role of indirect interspecific effects in the stochastic dynamics of a simple trophic system.

IF 3.5 1区 环境科学与生态学 Q1 ECOLOGY Journal of Animal Ecology Pub Date : 2024-10-24 DOI:10.1111/1365-2656.14198
Laura Bartra-Cabré, Brage B Hansen, Aline M Lee, Kate Layton-Matthews, Maarten J J E Loonen, Eva Fuglei, Leif E Loe, Vidar Grøtan
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Abstract

Indirect interspecific effects (IIEs) occur when one species affects another through a third intermediary species. Understanding the role of IIEs in population dynamics is key for predicting community-level impacts of environmental change. Yet, empirically teasing apart IIEs from other interactions and population drivers has proven challenging and data-demanding, particularly in species-rich communities. We used stochastic population models parameterized with long-term time series of individual data to simulate population trajectories and examine IIEs in a simple high-arctic vertebrate food chain consisting of the wild Svalbard reindeer, its scavenger (the Arctic fox) and the barnacle goose, a migratory prey of the fox. We used the simulated population trajectories to explore co-fluctuations between the species within the food chain. Additionally, we adjusted the model in two ways: first, to isolate the impact of fluctuations in the abundance of a species by keeping its abundance constant; and second, to isolate the impact of a trophic interaction on the dynamics of other species by setting the abundance of the influencing species to zero. We found that fluctuations in reindeer carcasses shaped fox abundance fluctuations, which subsequently affected goose population dynamics. Reindeer and goose population growth rates were nevertheless only weakly correlated, probably in part due to demographic and environmental stochasticity, density dependence and lagged dynamics in the geese. However, removing the fluctuations in reindeer abundance or setting reindeer abundance to zero indeed demonstrated strong underlying IIEs on goose population dynamics and extinction probability. This study thus highlights the importance of species interactions, including IIEs, on species coexistence and communities in the long-term, that is beyond immediate effects and covariation in short-term fluctuations.

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种间间接效应在简单营养系统随机动力学中的作用。
当一个物种通过第三个中间物种影响另一个物种时,就会产生间接种间效应(IIEs)。了解种间间接效应在种群动态中的作用是预测环境变化对群落影响的关键。然而,事实证明,从其他相互作用和种群驱动因素中分离出 IIEs 既具有挑战性,又需要大量数据,尤其是在物种丰富的群落中。我们利用以长期个体数据时间序列为参数的随机种群模型模拟了种群轨迹,并研究了由野生斯瓦尔巴驯鹿、其清道夫(北极狐)和北极狐的迁徙猎物藤壶鹅组成的简单高纬度脊椎动物食物链中的IIEs。我们利用模拟的种群轨迹来探索食物链中物种之间的共同波动。此外,我们还对模型进行了两方面的调整:第一,通过保持某一物种的丰度不变来隔离丰度波动的影响;第二,通过将影响物种的丰度设为零来隔离营养相互作用对其他物种动态的影响。我们发现,驯鹿尸体的波动影响了狐狸数量的波动,而狐狸数量的波动又影响了鹅的种群动态。然而,驯鹿和鹅的种群增长率只有微弱的相关性,部分原因可能是人口和环境的随机性、密度依赖性和鹅的滞后动态。然而,消除驯鹿数量的波动或将驯鹿数量设为零,确实会对鹅的种群动态和灭绝概率产生强烈的潜在IIE。因此,这项研究强调了物种相互作用(包括 IIEs)对物种共存和群落长期存在的重要性,而不是短期波动的直接影响和共变。
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来源期刊
Journal of Animal Ecology
Journal of Animal Ecology 环境科学-动物学
CiteScore
9.10
自引率
4.20%
发文量
188
审稿时长
3 months
期刊介绍: Journal of Animal Ecology publishes the best original research on all aspects of animal ecology, ranging from the molecular to the ecosystem level. These may be field, laboratory and theoretical studies utilising terrestrial, freshwater or marine systems.
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