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Microbial communities outperform extracellular polymeric substances in the reduction of hexavalent chromium by anaerobic granular sludge

Yun-Yun Sun, Qu-Sheng Li, Huimin Jiang, Yi-Hao Li, Mingshan Zhu, Lingke Miao, Huan-Zhan Zhou, Jia‐Wei Huang, Xiangxiang Fan, Junfeng Wang

2024Environmental Technology & Innovation11 citationsDOIOpen Access PDF

Abstract

The reduction of hexavalent chromium [Cr(VI)] by microbiota agents is a potential method for ecological remediation in heavily contaminated soil. This study investigated the contribution of microbial community and extracellular polymeric substances (EPS) to reduce Cr(VI) using lab-cultured anaerobic granular sludge (AGS). The AGS demonstrated an impressive reduction efficiency of 99.3% for Cr(VI) in soil, operating within an initial Cr(VI) concentration range of 500-3000 mg/kg. The distribution of typical electron acceptors, e.g., SO42-, NO3-, and Fe3+, had a negligible influence on microbial Cr(VI) reduction. The contribution of EPS on Cr(VI) reduction accounted for only 2.1% of the total Cr(VI) reduction, implying that Cr(VI) reduction driven by AGS was primarily caused by the direct effect of microbiota. High-throughput sequencing analysis confirmed that an increasing trend in the relative abundance of Cr reduction bacteria (Sphingopyxis: 0.40% to 5.54%, Thermonas: 0.41% to 5.70%, Edaphobaculum: 0.35% to 6.64%, etc.), and the stability (0.716 to 4.114) of microbial co-occurrence networks was significantly promoted by the end of the experiment. Materials characterization indicated that successful reduction of Cr(VI) to trivalent chromium [Cr(III)] and formed in Cr(OH)3, and functional groups, O-H, N-H, -CH, and -CH2, of AGS likely played a vital role in Cr(VI) reduction. Overall, these findings offer insights into the remediation technique of microbial Cr(VI) reduction in highly-contaminated soil based on the interaction network stability of the microbial community in AGS.

Topics & Concepts

Hexavalent chromiumEnvironmental remediationChromiumChemistryExtracellular polymeric substanceMicrobial population biologyEnvironmental chemistryAnaerobic exerciseContaminationBacteriaNuclear chemistryBiofilmBiologyEcologyOrganic chemistryPhysiologyGeneticsChromium effects and bioremediationEnvironmental remediation with nanomaterialsAdsorption and biosorption for pollutant removal
Microbial communities outperform extracellular polymeric substances in the reduction of hexavalent chromium by anaerobic granular sludge | Litcius