有机肥连续施用对菜田重金属行为的影响——基于地球化学模型研究  被引量：6

作　　者：徐岩[1,2] 李静 方文[3] XU Yan;LI Jing;FANG Wen(Key Laboratory of Ecosystem Network Observation and Modeling,Institute of Geographical Sciences and Natural Resources Research,Chinese Academy of Sciences,Beijing 100101,China;University of Chinese Academy of Sciences,Beijing 100049,China;State Key Laboratory of Pollution and Resource Reuse,School of the Environment,Nanjing University,Nanjing 210023,China)

机构地区：[1]中国科学院地理科学与资源研究所,生态系统网络观测与模拟重点实验室,北京100101 [2]中国科学院大学,北京100049 [3]南京大学环境学院,污染控制与资源化研究国家重点实验室,南京210023

出　　处：《生态学报》2022年第4期1512-1526,共15页Acta Ecologica Sinica

基　　金：中国科学院战略性先导科技专项A类(XDA26050202,XDA23050101);中国科学院青年创新促进会(2017073);国家重点研发计划(2017YFD0801404)。

摘　　要：2017年起,农业部连续多年出台化肥减量增效行动工作方案,要求适当增加有机肥投入,发展循环农业。但连续施用的有机肥进入土壤后,会对土壤pH、有机质和重金属含量等产生影响,改变土壤重金属行为。科学评估有机肥料施用的影响至关重要。仅通过总含量评估重金属污染风险被认为是片面的,不同化学提取剂提取的重金属含量不能完全代表实际污染状况。地球化学模型具有良好的适用性,比传统的提取方法能够更全面地解释重金属的行为。在集约化农业种植区黄淮海平原,多次施用不同比例的粪源有机肥于旱地菜田,并引入地球化学模型,结合pH依赖性浸出试验,明确连续施肥对菜田土壤重金属行为的主要影响机制。研究发现,有机肥中的铜锌含量远高于土壤中的含量,施用后,它们在土壤中的淋溶浓度随着施用比例增加而显著增加,最多可超过十倍以上,并且活性大大增加,与施肥后溶解性有机物含量的升高呈正相关。不同处理条件下的土壤重金属浸出趋势相似:在中性pH下浸出浓度最低,然后逐渐向强酸和强碱增加,呈现出V型变化。地球化学模型LeachXS展示出较好的模拟结果,其模拟值与实测浓度具有良好的相关性(71.02%)。模拟结果显示,有机肥的施用不会明显改变重金属在土壤固相表面的主要吸附过程,但可以通过提高液相中溶解性有机物和重金属含量,增加重金属在土壤中的浸出,从而提升重金属的活性。有机物,铁铝(氢)氧化物,粘土矿物等决定了几乎所有重金属的浸出特性,其中土壤有机物(包括溶解性有机物和颗粒有机物)对重金属的吸附和络合作用大于其他物质,是影响重金属在土壤固液相间行为的最主要因素,随着有机肥添加比例提高,POM络合态重金属含量明显升高,并高于其他固相态,尤其是Cu、Zn、Cr,而DOM络合态重金属含量的升高直接导致了它们的�Since 2017, the Ministry of Agriculture and Rural Affairs of China has introduced the action plan of chemical fertilizer reduction and efficiency improvement, which required an appropriate increase in organic fertilizer input and the development of circular agriculture. However, the continuous application of organic fertilizers into the soil will affect the soil pH, organic matter and heavy metal content, and change the soil heavy metal behavior. It is essential for scientific evaluation of the impact of organic fertilizer application. It is considered to be unilateral to evaluate the pollution risk only by the total content. The heavy metal content extracted by different chemical extractants cannot completely represent the actual pollution situation. The geochemical model has good applicability and can explain the behavior of heavy metals more comprehensively than the traditional extraction.In the Huang-Huai-Hai Plain, an intensive agricultural planting area, different proportions of manure-source organic fertilizer were continuously applied to dryland vegetable fields. A geochemical model was introduced, combined with a pH-dependent leaching test, to determine the main influence mechanism of continuous fertilization on soil heavy metal behavior. It found that the content of Cu and Zn in organic fertilizer was much higher than that in soil. After application, their leaching concentration in the soil increased significantly as the proportion of application increased, up to more than ten times, and the activity greatly increased, which was positively correlated with the increase in dissolved organic matter(DOM) content after fertilization. The soil under different treatments showed similar leaching trends. The leaching concentration of heavy metals appeared at a minimum at neutral pH, and gradually increased toward the strong acid and alkali(V-shaped). The geochemical model(LeachXS) showed good simulation results, and its estimated value had a good correlation(71.02%) with the measured concentration. The simulatio

关 键 词：有机肥连续施用 土壤重金属 地球化学模型 pH依赖性浸出 污染风险 

分 类 号：X142[环境科学与工程—环境科学] S141[农业科学—肥料学]