Predicted ecological consequences of wave energy extraction and climate-related changes in wave exposure on rocky shore communities

IF 3.1 2区 农林科学 Q1 FISHERIES
Andrew Want, Simon Waldman, Michael T Burrows, Jonathan C Side, Vengatesan Venugopal, Michael C Bell
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Abstract

Wave energy has the potential to contribute in the transition to decarbonized electricity generation. Extracting wave energy might be expected to have ecological impacts on rocky shore intertidal communities where exposure is one of the most important factors determining species structure and composition. With global climatic change, coastal exposure is predicted to increase with greater significant wave height. The wave-exposed west coast of Orkney, Scotland, UK, is the site of pre-commercial wave device testing. Surveys of 39 rocky shore sites along this coast identified key species and abundances, and quantified exposure-modifying topographic variables. A spectral wave model was constructed to compare baseline, wave extraction, climate change, and combined scenarios. Generalized additive modelling was used to describe the relationship between species, topography, and exposure. Results show that individual species differentially respond to exposure changes with ‘winners’ and ‘losers’ at site level. Overall, community responses are expected to be far greater following predicted climatic change than to industrial-scale wave energy extraction, depending on spatial scale. In combination, energy extraction may reduce the effects of climate-change-related increases in wave exposure of rocky shores. Predicting how location-specific biotic assemblages respond to changes in wave energy as a result of long-term forcing agents provides a valuable marine resource management tool.
波浪能提取和与气候有关的波浪暴露变化对岩岸群落生态后果的预测
波浪能有可能有助于向去碳化发电过渡。提取波浪能可能会对岩石海岸潮间带群落的生态产生影响,因为潮间带群落的暴露是决定物种结构和组成的最重要因素之一。据预测,随着全球气候变化,海岸暴露将随着显著波高的增加而增加。英国苏格兰奥克尼西海岸的波浪暴露是商业化前波浪装置测试的地点。对沿岸 39 个岩石海岸点的调查确定了主要物种和丰度,并量化了影响地形的暴露变量。建立了一个波谱模型,以比较基线、波浪提取、气候变化和综合情景。使用广义加法模型来描述物种、地形和暴露之间的关系。结果表明,单个物种对暴露变化的反应不同,在地点层面有 "赢家 "和 "输家 "之分。总体而言,根据空间尺度的不同,预计群落对预测气候变化的反应远大于对工业规模波浪能开采的反应。综合来看,能源开采可能会减少与气候变化相关的岩石海岸波浪暴露增加所产生的影响。预测特定地点的生物群落如何应对波浪能的变化,为长期的强迫因素提供了宝贵的海洋资源管理工具。
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来源期刊
ICES Journal of Marine Science
ICES Journal of Marine Science 农林科学-海洋学
CiteScore
6.60
自引率
12.10%
发文量
207
审稿时长
6-16 weeks
期刊介绍: The ICES Journal of Marine Science publishes original articles, opinion essays (“Food for Thought”), visions for the future (“Quo Vadimus”), and critical reviews that contribute to our scientific understanding of marine systems and the impact of human activities on them. The Journal also serves as a foundation for scientific advice across the broad spectrum of management and conservation issues related to the marine environment. Oceanography (e.g. productivity-determining processes), marine habitats, living resources, and related topics constitute the key elements of papers considered for publication. This includes economic, social, and public administration studies to the extent that they are directly related to management of the seas and are of general interest to marine scientists. Integrated studies that bridge gaps between traditional disciplines are particularly welcome.
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