Circular and lower impact mussel and seaweed aquaculture by a shift towards bio-based ropes

IF 8.8 1区 农林科学 Q1 FISHERIES Reviews in Aquaculture Pub Date : 2023-03-28 DOI:10.1111/raq.12816
Leire Arantzamendi, Marga Andrés, Oihane C. Basurko, María José Suárez
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引用次数: 4

Abstract

Worldwide, current mussel and seaweed aquaculture practices contribute to the increase of fossil fuel-based plastic gears at sea, leading to marine litter and microplastics generation. Smart aquaculture has a great potential for shifting towards the use of lower impact bio-based and biodegradable gears. This review defines the value chain of biogears as more sustainable gears for mussel and seaweed aquaculture, and sustainability issues covering technology, environmental impacts, economy-market, policy, and social drivers for their potential implementation. Fit to purpose durability and functionality attributes, end-of-life (EoL) options and environmental benefits are key features for competitiveness of biogears versus conventional fossil fuel-based aquaculture gears. EoL management for collection, sorting and logistics of biogears to recycling facilities is needed for the up cycling of bio-based materials thus ensuring application of principles of circularity. The selection of the biopolymers for recyclability, improvement of the polymerisation and recycling processes together with the enhanced deployment of recycling facilities are considered as key factors for eco-designing of circular biogears. Current policies supporting bio-based plastics in marine applications and social benefits, as environmental sustainability, healthy products, and circular business opportunities, are likewise added value for the development and use of biogears. Overall, biogears can reduce environmental negative impacts in mussel and seaweed productions, while enabling circular use of bio-based materials and sustainable circular bioeconomy.

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通过向生物基绳索的转变,循环和低影响的贻贝和海藻养殖
在世界范围内,目前的贻贝和海藻养殖做法导致海洋中化石燃料塑料齿轮的增加,导致海洋垃圾和微塑料的产生。智能水产养殖在转向使用影响较低的生物基和可生物降解齿轮方面具有很大的潜力。本综述将生物齿轮的价值链定义为贻贝和海藻养殖的更具可持续性的齿轮,以及可持续性问题,包括技术、环境影响、经济市场、政策和潜在实施的社会驱动因素。与传统的化石燃料水产养殖装备相比,生物装备的耐用性和功能属性、报废(EoL)选项和环境效益是其竞争力的关键特征。为了提高生物基材料的循环利用率,需要对生物齿轮的收集、分类和物流进行EoL管理,从而确保循环原则的应用。选择可回收的生物聚合物,改进聚合和回收过程,以及加强回收设施的部署,被认为是循环生物齿轮生态设计的关键因素。目前支持生物基塑料在海洋应用的政策和社会效益,如环境可持续性、健康产品和循环商业机会,同样是开发和使用生物齿轮的附加价值。总体而言,生物齿轮可以减少贻贝和海藻生产对环境的负面影响,同时实现生物基材料的循环使用和可持续的循环生物经济。
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来源期刊
CiteScore
24.80
自引率
5.80%
发文量
109
审稿时长
>12 weeks
期刊介绍: Reviews in Aquaculture is a journal that aims to provide a platform for reviews on various aspects of aquaculture science, techniques, policies, and planning. The journal publishes fully peer-reviewed review articles on topics including global, regional, and national production and market trends in aquaculture, advancements in aquaculture practices and technology, interactions between aquaculture and the environment, indigenous and alien species in aquaculture, genetics and its relation to aquaculture, as well as aquaculture product quality and traceability. The journal is indexed and abstracted in several databases including AgBiotech News & Information (CABI), AgBiotechNet, Agricultural Engineering Abstracts, Environment Index (EBSCO Publishing), SCOPUS (Elsevier), and Web of Science (Clarivate Analytics) among others.
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