迈向零废物:水产养殖中的可持续废物管理

Hijran Yavuzcan Yıldız, S. Pulatsü
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引用次数: 0

摘要

由于对水产食品的需求增加,水产养殖产量增加,导致水产养殖废水量增加。这种情况突出了在可持续水产养殖中有效处理废水的必要性。今天,在处理水产养殖废水方面,已开始采用生态系统敏感型和面向副产品的系统,而不是传统的物理和化学方法。零浪费方法的主要原理是回收废水中的营养物质以生产另一种食物。在这种新的创新方法中,利用综合多营养系统(如鱼菜共生)中的水产养殖废水生产来自不同营养水平的其他生物,可以回收营养物质。综合多营养系统(IMTA)既可用于环境友好型废水处理,又可将废水中的营养物质转化为生物质,因此被认为更有价值。水产养殖废水中的氮、磷等营养物质可以通过IMTA产生两种生物(即鱼+贻贝)或三种生物(即鱼+贻贝+海藻)。水产养殖废水可用于减少人工湿地和植物泻湖的营养物质,是可持续水产养殖和废水处理的合理途径。本文综述了水产养殖废水可持续处理的创新途径,并对现有技术和创新技术进行了综述。有人强调,建议为可持续水产养殖需要采用环境友好型废水处理技术,如鱼菜共生、扩大人工湿地或在实践中增加使用综合多营养生产系统(IMTA)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Towards zero waste: Sustainable waste management in aquaculture
Increases in aquaculture production due to higher demand for aquatic foods result in an increase in the amount of aquaculture wastewater. This situation highlights the need for the effective treatment of wastewater in sustainable aquaculture. Today, instead of traditional physical and chemical methods in the treatment of wastewater originating from aquaculture, ecosystem-sensitive and by-product-oriented systems have begun to be adopted. The main principle of the zero-waste approach is the recycling of the nutrients in the wastewater to produce another food. In this new innovative approach, the production of other organisms from the different trophic levels using the wastewater of aquaculture in the integrated multi-trophic systems (such as aquaponics) is possible to recycle the nutrients. It has been considered the integrated multi-trophic systems (IMTA) more valuable as these systems can be used both in environment-friendly wastewater treatment and in the conversion of nutrients in wastewater to biomass. The nutrients such as nitrogen and phosphorus in aquaculture wastewater can be utilized to produce two organisms (i.e. fish+mussel) or three organisms (i.e. fish+mussel+seaweed) through IMTA. Aquaculture wastewater can be used to reduce the nutrients in constructed wetlands and plant lagoons representing the reasonable approach for sustainable aquaculture and wastewater treatment. Here, the innovative approach to sustainable aquaculture wastewater treatment was reviewed for the current and innovative technologies. It was emphasized that the need for environment-friendly wastewater treatment Technologies such as aquaponics, enlargement of constructed wetlands, or increase in using the integrated multi-trophic production systems (IMTA) in practice are recommended for sustainable aquaculture.
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