稻田共作模式中重金属的污染特征及有效性控制研究

Research on the pollution characteristics and effective control of heavy metals in co-cultivation rice field

  • 摘要: 近年来, 新兴的共作生态农业模式发展迅速。但长期过量饲料、化肥和农药的混施, 不达标废水的灌溉等不当处理造成了共作农业系统中重金属的累积, 通过食物链的放大作用甚至对人类造成威胁。本研究通过系统综述不同类型的稻田共作农业系统中土壤、水体环境介质的有机质、pH值、氧化还原电位(Eh)以及微生物活动等理化生性质的变化, 重点剖析了单作农业系统与稻鸭、稻虾共作农业系统中重金属转化和累积程度的差异, 尝试建立这些差异与其中重金属的赋存形态和生物有效性间的关联。研究结果表明, 共作农业模式中有利于减轻重金属风险的环境条件主要包括: 饲料、鸭粪和虾壳能增加共作系统环境介质中的有机质含量, 通过吸附、络合作用可将游离态重金属转化为结合态; 鸭尿、虾壳和外加石灰可通过升高环境介质的pH值, 增加的OH与碱土金属易形成难溶沉淀物; 田间养鸭可升高土壤的Eh, 增强铁锰氧化物对可溶性重金属的吸附沉淀; 鸭和虾的活动可改善土壤质地, 降低重金属的迁移性和生物有效性; 微生物群落丰度和多样性的提高, 且其分泌的胞外聚合物能够降低重金属的可利用度。根据上述分析, 本文还提出了减量、代替化肥饲料的重金属污染源头控制策略, 为共作农业模式的农艺管理、重金属监测和食品安全保障提供科学依据。

     

    Abstract: The emergent collaborative ecological agricultural models have thrived across the globe in recent years, displaying robust growth momentum. However, longstanding agricultural practices involving the excessive combined use of feed, chemical fertilizers, and pesticides, along with improper treatments such as irrigation with substandard wastewater, have led to significant accumulation of heavy metals within these agricultural systems. These heavy metals, magnified through the food chain, could pose serious health threats to humans. This study, through a systematic review of the variations in the physicochemical and biological properties such as organic matter content, pH levels, redox potential (Eh), and microbial activity in different types of paddy-based co-cultivation systems, delves into the differences in heavy metal transformation and accumulation between monoculture systems and those integrating rice with ducks or shrimp. Particularly, the research attempts to establish a correlation between these differences and the speciation and bioavailability of heavy metals, aiming to provide a scientific basis for heavy metal risk management in ecological agriculture. The results indicate that the co-cultivation model fosters a series of environmental conditions conducive to mitigating the risk of heavy metals. Firstly, feed, duck manure, and shrimp shells significantly increase the organic content in the environmental media of the co-cultivation system, transforming free-state heavy metals into bound forms through adsorption and complexation. Additionally, duck urine, shrimp shells, and the application of lime can elevate the medium’s pH value, promoting the formation of insoluble precipitates with alkaline earth metals. Moreover, field activities involving ducks enhance the soil’s Eh value, improving the adsorption and precipitation of soluble heavy metals by iron and manganese oxides. Furthermore, the movement of ducks and shrimp not only ameliorates soil texture but also reduces the mobility and bioavailability of heavy metals, thereby diminishing their transfer risk in the food chain. Such improvement in soil structure impedes the mobility of heavy metals and their uptake by plants, subsequently reducing their transmission risk through the food chain. Simultaneously, an increase in the abundance and diversity of microbial communities, along with the extracellular polymers they secrete, can decrease the bioavailability of heavy metals, further mitigating the threat to the environment and health. Based on these analyses, this paper also proposes strategies for reducing the input of heavy metals, substituting chemical fertilizers and feed, thus controlling pollution at its source, which provides scientific guidance for agronomic management, heavy metal monitoring, and food safety assurance in co-cultivation agricultural models. Future research is necessary to further study and optimize these agricultural modules, promoting the healthy development of collaborative ecological agriculture globally.

     

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