底层鱼类供应链能否实现更高的资源利用率?冰岛和挪威的现状与挑战

IF 12.4 Q1 ENVIRONMENTAL SCIENCES
Andrea Viken Strand , Shraddha Mehta , Magnus Stoud Myhre , Guðrún Ólafsdóttir , Nina Maria Saviolidis
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引用次数: 0

摘要

挪威和冰岛捕捞的大部分底层鱼类来自可持续但已充分开发的鱼类种群。因此,增加捕捞量被认为不是满足未来全球海产品需求的可行方案。同时,在底栖鱼类供应链中存在大量未充分利用的其余原材料(RRM),如鱼头、鱼皮、内脏以及普遍存在的食物损失和浪费(FLW)。在这项工作中,我们查阅了相关文献,并对行业代表进行了访谈,以确定造成食物损失和浪费的驱动因素和原因,以及挪威和冰岛有关底层渔业的数据采集和现行法规方面的信息。在这些研究结果的基础上,我们根据物质流和信息流建模技术(MIFMT)建立了底栖鱼类供应链概念模型。我们的研究结果表明,捕捞和零售过程中的损失最大,而加工阶段的损失最少。然而,目前还没有定期生成的国家级数据,这被认为是绘制 FLW 数量图的一个重要知识缺口。我们的研究结果表明,在捕捞过程中进行监管干预和提高 RRM 可追溯性可提高底层鱼类供应链中 RRM 的利用率。捕鱼船队、海产品加工商和海洋配料部门之间的信息共享与合作,可通过更好的供需管理提高资源利用率。此外,开发船上加工和储存技术也被认为是一个潜在的改进领域。目前,由于某些监管、经济和制度方面的原因,冰岛底层鱼类部门的利用率高于挪威。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Can higher resource utilization be achieved in demersal fish supply chains? Status and challenges from Iceland and Norway

Most of the harvested demersal fish from Norway and Iceland is from sustainable, but fully exploited fish stocks. Increasing the harvest is therefore not considered a feasible option to meet the future global demand of seafood. Simultaneously, there are significant amounts of under-utilized​ rest raw materials (RRM) during harvesting, such as heads, skins, viscera, as well as prevalent food loss and waste (FLW) in the demersal fish supply chains. In this work we reviewed literature and conducted interviews with industry representatives to identify drivers and causes for FLW, as well as information on data capturing and current regulations in Norway and Iceland governing demersal fisheries. Based on these findings we have created a conceptual model of the demersal fish supply chain based on material and information flows modelling technique (MIFMT). The findings of our review indicates that losses during harvest and retail are the highest while the processing stage has the least volume of losses. However, there is currently no national level data generated on a regular basis which is identified as an important knowledge gap in mapping amounts of FLW. Our findings show that regulatory interventions during catch and improved RRM traceability could enhance the utilization of RRM in demersal fish supply chains. Information sharing and collaboration between the fishing fleet, seafood processors and the marine ingredient sector would allow improved resource utilization through better management of supply and demand. Furthermore, development of technology for on-board processing and storage is identified as a potential area of improvement. Currently, Iceland has a higher rate of utilization in the demersal fish sector than Norway due to certain regulatory, economic, and institutional aspects.

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来源期刊
Resources Environment and Sustainability
Resources Environment and Sustainability Environmental Science-Environmental Science (miscellaneous)
CiteScore
15.10
自引率
0.00%
发文量
41
审稿时长
33 days
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