Integrating in situ environmental covariates in an American lobster catch model to improve impact assessment

IF 2.2 2区 农林科学 Q2 FISHERIES
Everett J. Rzeszowski , Kathleen M. Reardon , Damian C. Brady
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引用次数: 0

Abstract

The installation and operation of floating offshore wind power is an integral component of societal transition to renewable energy generation where fixed bottom offshore wind is not possible. However, it will cause unique ecosystem changes. To disentangle the effects of offshore wind installations from the concurrent effects of climate change and the fishing practices on commercially significant resources, we must develop detailed characterizations of the resources before development occurs. In the Gulf of Maine, American lobster is the most commercially and culturally important fishery. At the time of writing, this is the largest fishery by value in North America. Our understanding of baseline localized parameters (such as catch per trap at the spatial scale of individual turbines) should be informed by relationships to environmental, biological, and survey-specific functional drivers of catch. A more mechanistic understanding of catch will allow for strategic adjustments to Post-Deployment fishery responses and ultimately, the development of research- and commercial-scale floating offshore wind development. Here, we used survey data from the New England Aqua Ventus Pre-Construction Commercial Trapping Survey to develop Generalized Additive Models describing seasonal catch per trap for legal and sublegal lobsters. We found fall catch to be nearly twice that of spring. Bottom temperature dynamics could be used to predict catch, and the Fall survey was associated with a warmer temperature regime. By using analytical tools that incorporate environmental heterogeneity, we developed monitoring methods from pre-construction baseline data that will be applicable over the post-construction operating period of an offshore wind farm.

将原地环境协变量纳入美国龙虾捕获模型以改进影响评估
浮动式海上风力发电的安装和运行是社会向可再生能源发电过渡的一个组成部分,因为固定底部的海上风力发电是不可能实现的。然而,它将引起独特的生态系统变化。为了将海上风电设施的影响与同时发生的气候变化和捕鱼方式对重要商业资源的影响区分开来,我们必须在开发之前对资源进行详细描述。在缅因湾,美国龙虾是最具商业和文化价值的渔业资源。在撰写本报告时,按价值计算,这是北美最大的渔业。我们对基线局部参数(如单个涡轮机空间尺度上每个捕集器的捕获量)的理解应参考捕获量的环境、生物和特定调查功能驱动因素之间的关系。对渔获量的更多机制性理解将有助于对 "部署后渔业响应 "进行战略调整,并最终促进研究和商业规模的浮式海上风电开发。在此,我们利用新英格兰 Aqua Ventus 施工前商业诱捕调查的调查数据,建立了描述合法和次合法龙虾每个诱捕器季节性捕获量的广义加法模型。我们发现秋季的捕获量几乎是春季的两倍。底层温度动态可用于预测捕获量,而秋季调查与温度较高的环境有关。通过使用包含环境异质性的分析工具,我们从施工前的基线数据中开发出了适用于海上风电场施工后运营期的监测方法。
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来源期刊
Fisheries Research
Fisheries Research 农林科学-渔业
CiteScore
4.50
自引率
16.70%
发文量
294
审稿时长
15 weeks
期刊介绍: This journal provides an international forum for the publication of papers in the areas of fisheries science, fishing technology, fisheries management and relevant socio-economics. The scope covers fisheries in salt, brackish and freshwater systems, and all aspects of associated ecology, environmental aspects of fisheries, and economics. Both theoretical and practical papers are acceptable, including laboratory and field experimental studies relevant to fisheries. Papers on the conservation of exploitable living resources are welcome. Review and Viewpoint articles are also published. As the specified areas inevitably impinge on and interrelate with each other, the approach of the journal is multidisciplinary, and authors are encouraged to emphasise the relevance of their own work to that of other disciplines. The journal is intended for fisheries scientists, biological oceanographers, gear technologists, economists, managers, administrators, policy makers and legislators.
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