Litcius/Paper detail

Nitrate Bioreduction under Cr(VI) Stress: Crossroads of Denitrification and Dissimilatory Nitrate Reduction to Ammonium

Qian Wang, Yingxin Zhao, Zhihui Chen, Chenggong Zhang, Xulong Jia, Minghao Zhao, Yindong Tong, Yiwen Liu

2023Environmental Science & Technology57 citationsDOI

Abstract

This study explored the response of NO 3 – -N bioreduction to Cr(VI) stress, including reduction efficiency and the pathways involved (denitrification and dissimilatory nitrate reduction to ammonium (DNRA)). Different response patterns of NO 3 – -N conversion were proposed under Cr(VI) suppress (0, 0.5, 5, 15, 30, 50, and 80 mg/L) by evaluating Cr(VI) dose dependence, toxicity accumulation, bioelectron behavior, and microbial community structure. Cr(VI) concentrations of >30 mg/L rapidly inhibited NO 3 – -N removal and immediately induced DNRA. However, denitrification completely dominated the NO 3 – -N reduction pathway at Cr(VI) concentrations of <15 mg/L. Therefore, 30 and 80 mg/L Cr(VI) (R 4 and R 6 ) were selected to explore the selection of the different NO 3 – -N removal pathways. The pathway of NO 3 – -N reduction at 30 mg/L Cr(VI) exhibited continuous adaptation, wherein the coexistence of denitrification (51.7%) and DNRA (13.6%) was achieved by regulating the distribution of denitrifiers (37.6%) and DNRA bacteria (32.8%). Comparatively, DNRA gradually replaced denitrification at 80 mg/L Cr(VI). The intracellular Cr(III) accumulation in R 6 was 6.60-fold greater than in R 4, causing more severe oxidant injury and cell death. The activated NO 3 – -N reduction pathway depended on the value of nitrite reductase activity/nitrate reductase activity, with 0.84–1.08 associated with DNRA activation and 1.48–1.57 with DNRA predominance. Although Cr(VI) increased microbial community richness and improved community structure stability, the inhibition or death of nitrogen-reducing microorganisms caused by Cr(VI) decreased NO 3 – -N reduction efficiency.

Topics & Concepts

DenitrificationChemistryNitrate reductaseNitrateEnvironmental chemistryAmmoniumNitrite reductaseNitriteDenitrifying bacteriaNitrogenMicrobial population biologyBacteriaBiologyOrganic chemistryGeneticsWastewater Treatment and Nitrogen RemovalPhosphorus and nutrient managementChromium effects and bioremediation