水溶性有机物电子转移能力及其生态效应  被引量：12

作　　者：毕冉[1,2] 周顺桂[2] 袁田[2] 庄莉[2] 袁勇[2] 

机构地区：[1]中国科学院广州地球化学研究所,广州510640 [2]广东省生态环境与土壤研究所,广州510650

出　　处：《生态学报》2013年第1期45-52,共8页Acta Ecologica Sinica

基　　金：国家自然科学基金项目(40171157;41101211;21177030)

摘　　要：水溶性有机物(Dissolved organic matter,DOM)是生态系统最为活跃的有机物组分,参与众多物理、化学及生物过程。DOM具有电子转移能力,主要原因在于结构中包含的醌基官能团,通过醌、半醌和氢醌之间的可逆转化完成电子转移过程。DOM作为电子穿梭体,循环参与电子转移的能力是其发挥生态效应的重要体现。研究表明,DOM可以通过氧化还原反应介导环境中Cr(Ⅵ)、Hg(Ⅱ)等重金属及卤代烃、硝基芳香化合物等持久性有机污染物降解转化。综述了DOM电子转移能力机理、途径及可循环性,电子转移能力测定方法,以及DOM电子转移能力的生态效应并展望研究方向。Dissolved organic matter （DOM） represents one of the most mobile and reactive organic matter fractions, controlling a number of physical, chemical and biological processes in ecosystem. Both laboratory and field studies show that litter and humus are the most important source of DOM in soils. Due to the complex molecules structure, a general chemical definition of DOM is impossible. DOM is often defined operationally as a continuum of organic molecules of different sizes, structures and functional properties that is able to pass through a filter with a pore size of 0.45 p,m. DOM consists of low molecular weight substances, such as organic acids and amino acids, as well as complex molecules of high molecular weight, such as humic substances and enzymes. Earlier researchers primarily focused on the complexation and adsorption properties of DOM with heavy metals and organic pollutants, by which their behaviors in soils, such as the adsorption, desorption, and transportation, were greatly affected. Recently, discoveries on the redox reactivity of humus have illuminated a new thought that DOM may also have the same mechanisms. With the aid of numerous analytical techniques, there were multiple lines of evidence for the redox reactivity of DOM. Quinine groups have main contribution to the electron transfer of DOM. Quinones are a versatile class of biomolecules found in numerous substances such as living cells, extracellular material and so forth. Quinones can be cycled among three redox states ： oxidized, semiquinone radical, and reduced, thus, the electron transfer processes reversibly take place with the transformation among benzoquinone, semiquinone and hydroquinone. The benzoquinone of DOM can undergo either one-electron reduction to the semiquinone or two-electron reduction to the hydroquinone. DOM can accept electrons from other species when electron donors, especially the humic-reducing bacteria, are available in the environment. Alternatively, the reduced DOM could be oxidized by those substances with hi

关 键 词：水溶性有机物 电子转移能力 测定方法 生态效应 

分 类 号：X13[环境科学与工程—环境科学]