Evaluating impacts of environmental stress and bioactive chemicals on the North Carolina blue crab population: An individual-based model

IF 1.8 3区 农林科学 Q2 FISHERIES
Alex J. Rocco, Jie Cao, Yan Li, Laura M. Lee
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Abstract

Objective

Recent estimates of the North Carolina blue crab Callinectes sapidus stock found that the stock is overfished and overfishing is occurring. Threats outlined in the 2018 stock assessment include climate change and estrogenic endocrine-disrupting chemicals (EEDCs). The objective of this study was to use an individual-based modeling approach to simulate the long-term effects of climate change and EEDCs on the North Carolina blue crab stock.

Methods

To do this, we built an individual-based model that simulated the life history of individual blue crabs, including but not limited to growth, reproduction, and mortality. We then tested our population of blue crabs against 30 different combinations of temperature and EEDC scenarios over 50 years to determine the long-term effects on the population.

Result

Our simulations suggested that the North Carolina blue crab population may be relatively resilient to climate change-related temperature shifts but that there may be significant impacts at the population level as summer temperatures become more extreme. Endocrine-disrupting chemical effects resulted in an alternative stable state of lower catch or the total extinction of the population.

Conclusion

These results suggest that management strategy changes may be necessary as temperatures become more extreme in the region. In addition, more research is necessary to fully understand the effects of EEDCs on blue crabs and other crustaceans at the individual and population level.

Abstract Image

评估环境压力和生物活性化学品对北卡罗来纳州蓝蟹种群的影响:基于个体的模型
目标 最近对北卡罗来纳州蓝蟹(Callinectes sapidus)种群的评估发现,该种群已被过度捕捞,过度捕捞正在发生。2018 年种群评估中概述的威胁包括气候变化和雌激素内分泌干扰化学品(EEDCs)。本研究的目的是使用基于个体的建模方法来模拟气候变化和 EEDCs 对北卡罗来纳州蓝蟹种群的长期影响。 为此,我们建立了一个基于个体的模型,模拟蓝蟹个体的生活史,包括但不限于生长、繁殖和死亡。然后,我们针对 30 种不同的温度和 EEDC 方案组合,对青蟹种群进行了长达 50 年的测试,以确定对种群的长期影响。 结果 我们的模拟结果表明,北卡罗来纳州的青蟹种群可能对与气候变化相关的温度变化具有相对较强的适应能力,但随着夏季温度变得更加极端,可能会对种群水平产生重大影响。内分泌干扰化学物质的影响导致了另一种稳定状态,即捕捞量减少或种群完全灭绝。 结论 这些结果表明,随着该地区气温变得更加极端,可能有必要改变管理策略。此外,有必要开展更多研究,以充分了解 EEDCs 在个体和种群层面对青蟹和其他甲壳类动物的影响。
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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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