水淹条件下水稻土中砷的生物化学行为研究进展  被引量：23

作　　者：钟松雄 何宏飞[4] 陈志良[2] 尹光彩[4] 林亲铁[4] 黄玲[2] 王欣[2] 刘德玲[2] 

机构地区：[1]中国科学院广州地球化学研究所,广州510640 [2]环境保护部华南环境科学研究所,广州510655 [3]中国科学院大学,北京100049 [4]广东工业大学环境科学与工程学院,广州510006

出　　处：《土壤学报》2018年第1期1-17,共17页Acta Pedologica Sinica

基　　金：广东省科技计划项目(2017B020203001); 广州市科技计划项目(201607010393,201604030017)资助

摘　　要：水稻土中砷的氧化还原和甲基化等生物化学过程是影响水稻砷毒性的主要作用机制;同时,水淹厌氧条件是驱动水稻土中砷的生物化学过程关键环节,且是导致水稻对砷大量吸收累积的主要原因,对以水稻为主食的人们造成健康威胁。本文综述了水稻土中砷的氧化还原和甲基化现象、砷的生物化学作用机制以及影响水稻土砷迁移转化的关键因素,并探讨了水淹厌氧条件对水稻土砷代谢微生物群落、微生物基因表达水平以及对砷归趋的影响。最后,展望了未来的研究方向,以期识别不同水管理模式下土壤微环境对水稻土中砷代谢微生物群落结构与基因表达水平的影响机制,为深入理解砷的生物化学行为和降低水稻对砷的吸收累积提供科学的理论参考。Oxidation,reduction and methylation of arsenic in paddy soil are the key factors regulating transportation,transformation,and crop uptake of the element. Flooding is a common farming practice in rice cultivation,forming an anaerobic environment in the paddy soil,which not only affects the biochemical behavior of arsenic significantly,but also is often associated with enhanced uptake of arsenic by rice,thus further posing a health risk to those who consume rice as staple food. Studies in the past focused mainly on those behaviors of soil arsenic in flooded anaerobic paddy soil and their relevant mechanisms,but a comprehensive review of the studies is yet to be prepared. In this study,the biochemical behaviors of arsenic in paddy soil is summarized,and their relevant mechanisms and influential factors,including iron oxides,organic matter,redox potential（Eh）and p H are discussed. Besides,the paper also elaborates discussed how the anaerobic condition in the flooded paddy field during the paddy rice growing season affects those biochemical behaviors. Generally speaking,the iron and arsenic reducing microbes in the soil are mainly anaerobic microbes,e.g. Geobacter,Shewanella and Myxobacter,while the iron and arsenic oxidizing microbes are predominantly aerobic microbes. Therefore,the development of an anaerobic reducing condition in flooded paddy fields favors microbial iron and arsenic reduction,and what is more,as iron oxides are the most effective scavenger of arsenic in paddy soil,the flooded anaerobic environment also favors release of arsenic. It is noteworthy that arsenic desorbed from iron oxides is more prone to bioreduction. Studies in the past indicate that adsorption of arsenic by iron oxides like ferrihydrite,goethite and hematite,especially ferrihydrite,the most abundant amorphous iron oxide in paddy soil,retards bioreduction of arsenic. Another contributor to enhanced bioreduction and release of arsenic is organic matter,which serves as nutritional substance and electron donor for microbes in metabo

关 键 词：水稻土 水淹条件 砷 生物化学行为 氧化还原 甲基化 

分 类 号：X53[环境科学与工程—环境工程]