TY - JOUR
T1 - Electroactive microorganism-assisted remediation of groundwater contamination
T2 - Advances and challenges
AU - Feng, Huajun
AU - Yang, Wanyue
AU - Zhang, Yifeng
AU - Ding, Yangcheng
AU - Chen, Long
AU - Kang, Ying
AU - Huang, Huan
AU - Chen, Ruya
N1 - Copyright © 2023. Published by Elsevier Ltd.
PY - 2023
Y1 - 2023
N2 - Groundwater contamination has become increasingly prominent; therefore, the development of efficient remediation technology is crucial for improving groundwater quality. Bioremediation is cost-effective and environmentally friendly, while coexisting ion stress can affect microbial processes, and the heterogeneous character of groundwater medium can induce bioavailability limitations and electron donor/acceptor imbalances. Electroactive microorganisms (EAMs) are advantageous in contaminated groundwater because of their unique bidirectional electron transfer mechanism, which allows them to use solid electrodes as electron donors/acceptors. However, the relatively low-conductivity groundwater environment is unfavorable for electron transfer, which becomes a bottleneck problem that limits the remediation efficiency of EAMs. Therefore, this study reviews the recent advances and challenges of EAMs applied in the groundwater environment with complex coexisting ions, heterogeneity, and low conductivity and proposes corresponding future directions.
AB - Groundwater contamination has become increasingly prominent; therefore, the development of efficient remediation technology is crucial for improving groundwater quality. Bioremediation is cost-effective and environmentally friendly, while coexisting ion stress can affect microbial processes, and the heterogeneous character of groundwater medium can induce bioavailability limitations and electron donor/acceptor imbalances. Electroactive microorganisms (EAMs) are advantageous in contaminated groundwater because of their unique bidirectional electron transfer mechanism, which allows them to use solid electrodes as electron donors/acceptors. However, the relatively low-conductivity groundwater environment is unfavorable for electron transfer, which becomes a bottleneck problem that limits the remediation efficiency of EAMs. Therefore, this study reviews the recent advances and challenges of EAMs applied in the groundwater environment with complex coexisting ions, heterogeneity, and low conductivity and proposes corresponding future directions.
KW - Groundwater
KW - Electroactive microorganisms
KW - Coexisting ion stress
KW - Heterogeneity
KW - Low conductivity
U2 - 10.1016/j.biortech.2023.128916
DO - 10.1016/j.biortech.2023.128916
M3 - Review
C2 - 36940880
SN - 0960-8524
VL - 377
JO - Bioresource Technology
JF - Bioresource Technology
M1 - 128916
ER -