Interaction mechanisms of agricultural waste-driven denitrification and V(V) reduction: Internal electron competition, sequential transfer and activation of vanadium

化学 环境化学 污染物 反硝化 电子转移 生物修复 电子传输链 竞赛(生物学) 污染 无机化学 生态学 氮气 生物化学 光化学 生物 有机化学
作者
Haishuang Wang,Nan Chen,Chuanping Feng,Yang Deng,Jibo Qin
出处
期刊:Chemical Engineering Journal [Elsevier BV]
卷期号:478: 147471-147471 被引量:1
标识
DOI:10.1016/j.cej.2023.147471
摘要

The co-contamination of NO3− and V(V) has now become an urgent environmental issue. However, current understanding of the contaminants degradation pathways, the electron competition sequence, and the stability and activation mechanisms of the products in co-pollutant system is relatively limited. In this study, vanadium was found to lead to the accumulation of NO and N2O. NO3− and NO2− were found to promote V activation, while NH4+ facilitated vanadium fixation. Additionally, it was localized that the V reduction products mainly distribute on the cell membrane using TEM-EDX method, facilitating vanadium recovery. The electron competition experiments proved the existence of the electron competition relationship under non-carbon-limiting conditions, confirming the electron competition sequence of NO3− > NO2− > V(V). Based on the continuous feeding data for 320 days, the total removal amounts of NO3− and V(V) was calculated to be 2149.27 mg and 34.80 mg, respectively. Carbon metabolism analysis identified that complete glycolysis, pentose phosphate and TCA cycle pathways provided sufficient electrons and energy for pollutants reduction. These findings provide in-depth insights into the interaction mechanisms of N, V, and C metabolism in groundwater systems and have significant implications for the bioremediation of co-contaminated groundwater by NO3− and V(V).

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