有时(经常?)可以从单一压力的影响中预测对多种压力的反应:使用基于代理的墨西哥湾大黄鱼种群模型进行案例研究

IF 1.8 3区 农林科学 Q2 FISHERIES
Kenneth A. Rose
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引用次数: 0

摘要

目标 世界海洋的快速变化使得评估鱼类种群对多种压力因素的反应变得越来越重要,尤其是在与管理相关的尺度上。我利用墨西哥湾北部大西洋大黄鱼(Micropogonias undulatus)现有的基于代理的空间显式模型,研究温度、缺氧和海洋酸化单独或组合如何影响长期种群动态。 方法 我进行了一个因子模拟实验,将每种压力因子分为三个等级,并分析了各种处理组合,以评估相互作用的加成性和多重性。响应变量为产卵种群生物量(SSB)的长期平衡值(最后一年)、新陈代谢量、龄重以及根据模型输出结果拟合的产卵者-新陈代谢关系得出的两种种群生产力测量值(每 SSB 新陈代谢量和最大新陈代谢量)。我利用实验中的单一胁迫效应来预测当所有三个胁迫因素都发生变化时,响应变量将如何变化。将单一胁迫效应合并为分数变化之和(加法标度)和变化比率之积(乘法标度),并与施加所有胁迫时的模拟反应进行比较。 结果 对双向和三向相互作用的因子设计进行分析表明,在加法尺度上存在许多相互作用,但在乘法尺度上却很少。因此,当把多种压力因素组合成乘法效应时,对多种压力因素的反应可以很好地从单一压力因素效应中预测出来。 在结论中,我讨论了缺乏强烈的相互作用可能是由于模型假设、模型结构或过度简化了压力源效应的表述。另一种情况是,模型和分析可能足够现实,乘法尺度上的微弱相互作用可能很常见。这将把复杂的多因素情况简化为一系列更容易理解的单因素效应。下一步的关键是确定我们如何先验地识别低交互作用的情况(即从单因子效应中可以预测的情况),而不必已经知道多因子的反应。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Sometimes (often?) responses to multiple stressors can be predicted from single-stressor effects: A case study using an agent-based population model of croaker in the Gulf of Mexico

Sometimes (often?) responses to multiple stressors can be predicted from single-stressor effects: A case study using an agent-based population model of croaker in the Gulf of Mexico

Objective

Rapid changes in the world's oceans make assessment of fish population responses to multiple stressors, especially on scales relevant to management, increasingly important. I used an existing agent-based, spatially explicit model of Atlantic Croaker Micropogonias undulatus in the northern Gulf of Mexico to examine how temperature, hypoxia, and ocean acidification, singly and in combinations, affect long-term population dynamics.

Methods

I performed a factorial simulation experiment with each stressor at three levels and analyzed various treatment combinations to assess the additivity and multiplicity of interactions. The response variables were long-term equilibrium (final year) values of spawning stock biomass (SSB), recruitment, weight at age, and two measures of stock productivity (recruits per SSB and maximum recruitment) derived from the spawner–recruit relationship fitted to model output. I used the single-stressor effects from the experiment to predict how the response variables would change when all three stressors were changed. Single-stressor effects were combined as the sum of the fractional changes (additive scale) and the product of ratios of changes (multiplicative scale) and compared to the responses in simulations with all stressors imposed.

Result

Analyzing the factorial design for two-way and three-way interactions showed that there were many interactions on the additive scale but very few on the multiplicative scale. Thus, the responses to multiple stressors were well predicted from single stressor effects when combined as multiplicative effects.

Conclusion

I discuss how the lack of strong interactions could be due to model assumptions, the structure of the model, or oversimplified representation of stressor effects. Alternatively, the model and analysis may be sufficiently realistic and weak interactions on the multiplicative scale may be common. This would reduce a complicated multi-factor situation to a series of more tractable single-factor effects. A critical next step is to determine how we can a priori identify situations of low interactions (i.e., predictable from single-stressor effects) without having to already know the multi-stressor response.

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来源期刊
Marine and Coastal Fisheries
Marine and Coastal Fisheries FISHERIES-MARINE & FRESHWATER BIOLOGY
CiteScore
3.40
自引率
5.90%
发文量
40
审稿时长
>12 weeks
期刊介绍: Marine and Coastal Fisheries: Dynamics, Management, and Ecosystem Science publishes original and innovative research that synthesizes information on biological organization across spatial and temporal scales to promote ecologically sound fisheries science and management. This open-access, online journal published by the American Fisheries Society provides an international venue for studies of marine, coastal, and estuarine fisheries, with emphasis on species'' performance and responses to perturbations in their environment, and promotes the development of ecosystem-based fisheries science and management.
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