Design Options, Implementation Issues and Evaluating Success of Ecologically Engineered Shorelines

1区生物学 Q1 Agricultural and Biological Sciences

Oceanography and Marine Biology Pub Date : 2019-08-02 DOI:10.1201/9780429026379-4

R. Morris, E. Heery, L. H. Loke, E. Lau, E. Strain, L. Airoldi, K. Alexander, M. Bishop, R. A. Coleman, Jeffery R. Cordell, Yun‐wei Dong, L. Firth, S. Hawkins, T. Heath, Michael Kokora, Shing Yip Lee, Jon K. Miller, S. Perkol‐Finkel, A. Rella, P. Steinberg, I. Takeuchi, Richard C. Thompson, P. Todd, K. Leung

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引用次数: 39

Abstract

Human population growth and accelerating coastal development have been the drivers for unprecedented construction of artificial structures along shorelines globally. Construction has been recently amplified by societal responses to reduce flood and erosion risks from rising sea levels and more extreme storms resulting from climate change. Such structures, leading to highly modified shorelines, deliver societal benefits, but they also create significant socioeconomic and environmental challenges. The planning, design and deployment of these coastal structures should aim to provide multiple goals through the application of ecoengineering to shoreline development. Such developments should be designed and built with the overarching objective of reducing negative impacts on nature, using hard, soft and hybrid ecological engineering approaches. The design of ecologically sensitive shorelines should be context-dependent and combine engineering, environmental and socioeconomic considerations. The costs and benefits of ecoengineered shoreline design options should be considered across all three of these disciplinary domains when setting objectives, informing plans for their subsequent maintenance and management and ultimately monitoring and evaluating their success. To date, successful ecoengineered shoreline projects have engaged with multiple stakeholders (e.g. architects, engineers, ecologists, coastal/port managers and the general public) during their conception and construction, but few have evaluated engineering, ecological and socioeconomic outcomes in a comprehensive manner. Increasing global awareness of climate change impacts (increased frequency or magnitude of extreme weather events and sea level rise), coupled with future predictions for coastal development (due to population growth leading to urban development and renewal, land reclamation and establishment of renewable energy infrastructure in the sea) will increase the demand for adaptive techniques to protect coastlines. In this review, we present an overview of current ecoengineered shoreline design options, the drivers and constraints that influence implementation and factors to consider when evaluating the success of such ecologically engineered shorelines.

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生态工程海岸线的设计方案、实施问题及成功评估

人口增长和沿海发展的加速推动了全球海岸线上前所未有的人工结构建设。最近，由于气候变化导致海平面上升和极端风暴加剧，社会为减少洪水和侵蚀风险做出了反应，建筑工程规模不断扩大。这种结构导致海岸线的高度改变，带来了社会效益，但也带来了重大的社会经济和环境挑战。这些海岸结构的规划、设计和部署应旨在通过生态工程在海岸线开发中的应用提供多种目标。这些发展项目的设计和建造应以减少对自然的负面影响为首要目标，采用硬、软和混合生态工程方法。生态敏感型海岸线的设计应与环境相关，并结合工程、环境和社会经济因素。在设定目标、制定后续维护和管理计划以及最终监测和评估其成功时，生态工程海岸线设计方案的成本和收益应考虑所有这三个学科领域。迄今为止，成功的生态工程海岸线项目在构思和建设过程中与多方利益相关者(如建筑师、工程师、生态学家、海岸/港口管理者和公众)进行了接触，但很少有人以全面的方式评估工程、生态和社会经济成果。全球对气候变化影响的认识日益提高(极端天气事件和海平面上升的频率或幅度增加)，再加上对沿海发展的未来预测(由于人口增长导致城市发展和更新、土地开垦和海洋可再生能源基础设施的建立)，将增加对适应性技术的需求，以保护海岸线。在这篇综述中，我们概述了当前的生态工程海岸线设计方案，影响实施的驱动因素和限制因素，以及评估此类生态工程海岸线成功时需要考虑的因素。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Oceanography and Marine Biology 生物-海洋学

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发文量

期刊介绍： With increasing interest in the field and its relevance in global environmental issues, Oceanography and Marine Biology: An Annual Review provides authoritative reviews that summarize results of recent research in basic areas of marine research, exploring topics of special and topical importance while adding to new areas as they arise