有什么证据表明在浅水热带珊瑚礁中建造的建筑物对生态和物理的影响?系统的地图协议

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2023-09-15 DOI:10.1186/s13750-023-00313-2
Avery B. Paxton, Todd M. Swannack, Candice D. Piercy, Safra Altman, Leanne Poussard, Brandon J. Puckett, Curt D. Storlazzi, T. Shay Viehman
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引用次数: 0

摘要

热带浅层珊瑚礁面临着海岸开发和污染导致的栖息地退化、风暴和海平面上升的影响,以及爆破捕鱼、采矿、疏浚和船舶搁浅等脉冲干扰,这些都会降低珊瑚礁的高度和变异性。从这些威胁中恢复珊瑚礁结构的一种方法是部署建造的结构。建筑结构的范围从工程模块和重新利用的材料到水下雕塑和故意放置的天然岩石。恢复从业者和海岸管理者越来越多地考虑将建筑结构,包括基于自然的解决方案,纳入珊瑚礁相关应用。然而,在各种情况下(例如,修复、海岸保护、缓解、旅游),关于建筑结构干预措施的生态和物理性能的综合证据并不容易获得,无法指导决策。为了帮助管理决策,我们的目标是记录基于浅层(≤30米)热带(北纬35°至南纬35°)珊瑚生态系统中建筑结构的生态和物理性能的全球证据。基于使用案例和相关生态和物理结果的已建结构干预的整理证据可以帮助为未来在珊瑚礁恢复设计、选址和实施中考虑已建结构提供信息。方法通过索引平台、书目数据库、开放发现引文索引、基于web的搜索引擎、新型文献发现工具和组织网站检索原始文献,以发现建筑结构在珊瑚礁相关应用(如修复、缓解和海岸保护)中的性能证据。搜索的地理范围是全球性的,没有时间范围的限制。主要文献将首先在标题和摘要水平上进行筛选,然后在全文水平上根据确定的人群、干预、研究类型和感兴趣的结果的资格标准进行筛选。元数据将从通过两个筛选级别的研究中提取。将对所得数据进行分析,以确定证据的分布和丰富程度。研究结果将公开,并以系统的地图形式报告,其中包括叙述性描述,确定证据集群和差距,并概述在珊瑚礁相关应用中使用建筑结构的未来研究方向。
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What evidence exists on the ecological and physical effects of built structures in shallow, tropical coral reefs? A systematic map protocol
Abstract Background Shallow, tropical coral reefs face compounding threats from habitat degradation due to coastal development and pollution, impacts from storms and sea-level rise, and pulse disturbances like blast fishing, mining, dredging, and ship groundings that reduce coral reefs’ height and variability. One approach toward restoring coral reef structure from these threats is deploying built structures. Built structures range from engineered modules and repurposed materials to underwater sculptures and intentionally placed natural rocks. Restoration practitioners and coastal managers increasingly consider incorporating built structures, including nature-based solutions, into coral reef-related applications. Yet, synthesized evidence on the ecological and physical performance of built structure interventions across a variety of contexts (e.g., restoration, coastal protection, mitigation, tourism) is not readily available to guide decisions. To help inform management decisions, here we aim to document the global evidence base on the ecological and physical performance of built structures in shallow (≤ 30 m) tropical (35° N to 35° S latitude) coral ecosystems. The collated evidence base on use cases and associated ecological and physical outcomes of built structure interventions can help inform future consideration of built structures in reef restoration design, siting, and implementation. Method To discover evidence on the performance of built structures in coral reef-related applications, such as restoration, mitigation, and coastal protection, primary literature will be searched across indexing platforms, bibliographic databases, open discovery citation indexes, a web-based search engine, a novel literature discovery tool, and organizational websites. The geographic scope of the search is global, and there is no limitation to temporal scope. Primary literature will be screened first at the level of title and abstract and then at the full text level against defined eligibility criteria for the population, intervention, study type, and outcomes of interest. Metadata will be extracted from studies that pass both screening levels. The resulting data will be analyzed to determine the distribution and abundance of evidence. Results will be made publicly available and reported in a systematic map that includes a narrative description, identifies evidence clusters and gaps, and outlines future research directions on the use of built structures in coral reef-related applications.
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