Combined effects of temperature and fishing mortality on the Barents Sea ecosystem stability

IF 1.9 2区 农林科学 Q2 FISHERIES
Elliot Sivel, Benjamin Planque, Ulf Lindstrøm, Nigel G. Yoccoz
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引用次数: 1

Abstract

Temporal variability in abundance and composition of species in marine ecosystems results from a combination of internal processes, external drivers, and stochasticity. One way to explore the temporal variability in an ecosystem is through temporal stability, measured using the inverse of the coefficient of variation for biomass of single species. The effect of temperature and fisheries on the variability of the Barents Sea food web is still poorly understood. To address this question, we simulate the possible dynamics of Barents Sea food web under different temperature and fishery scenarios using a simple food-web model (Non-Deterministic Network Dynamic [NDND]). The NDND model, which is based on chance and necessity (CaN), defines the state space of the ecosystem using its structural constraints (necessity) and explores it stochastically (chance). The effects of temperature and fisheries on stability are explored both separately and combined. The simulation results suggest that increasing temperature has a negative effect on species biomass and increasing fisheries triggers compensatory dynamics of fish species. There is a major intra-scenario variability in temporal stability, while individual scenarios of temperature and fisheries display a weak negative impact and no effect on stability, respectively. However, combined scenarios indicate that fisheries amplify the effects of temperature on stability, while increasing temperature leads to a shift from synergistic to antagonistic effects between these two drivers.

Abstract Image

温度和捕捞死亡率对巴伦支海生态系统稳定性的综合影响
海洋生态系统中物种丰度和组成的时间变化是内部过程、外部驱动因素和随机性的综合结果。探索生态系统中时间变异性的一种方法是通过时间稳定性,使用单个物种生物量变异系数的倒数来测量。温度和渔业对巴伦支海食物网变化的影响仍然知之甚少。为了解决这个问题,我们使用一个简单的食物网模型(Non-Deterministic Network Dynamic [nnd])模拟了不同温度和渔业情景下巴伦支海食物网的可能动态。基于偶然性和必然性(CaN)的nnd模型,利用生态系统的结构约束(必然性)定义生态系统的状态空间,并对其进行随机探索(偶然性)。分别探讨了温度和渔业对稳定性的影响。模拟结果表明,温度升高对物种生物量有负面影响,增加渔业会触发鱼类的补偿动态。时间稳定性存在主要的情景内变率,而温度和渔业的个别情景分别对稳定性表现出微弱的负面影响,没有影响。然而,综合情景表明,渔业放大了温度对稳定性的影响,而温度升高导致这两个驱动因素之间从协同效应转向拮抗效应
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来源期刊
Fisheries Oceanography
Fisheries Oceanography 农林科学-海洋学
CiteScore
5.00
自引率
7.70%
发文量
50
审稿时长
>18 weeks
期刊介绍: The international journal of the Japanese Society for Fisheries Oceanography, Fisheries Oceanography is designed to present a forum for the exchange of information amongst fisheries scientists worldwide. Fisheries Oceanography: presents original research articles relating the production and dynamics of fish populations to the marine environment examines entire food chains - not just single species identifies mechanisms controlling abundance explores factors affecting the recruitment and abundance of fish species and all higher marine tropic levels
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