TY - JOUR
T1 - Reproducible responses of geochemical and microbial successional patterns in the subsurface to carbon source amendment
AU - Michael, Jonathan P.
AU - Putt, Andrew D.
AU - Yang, Yunfeng
AU - Adams, Benjamin G.
AU - McBride, Kathryn R.
AU - Fan, Yupeng
AU - Lowe, Kenneth A.
AU - Ning, Daliang
AU - Jagadamma, Sindhu
AU - Moon, Ji Won
AU - Klingeman, Dawn M.
AU - Zhang, Ping
AU - Fu, Ying
AU - Hazen, Terry C.
AU - Zhou, Jizhong
N1 - Publisher Copyright:
© 2024
PY - 2024/5/15
Y1 - 2024/5/15
N2 - Carbon amendments designed to remediate environmental contamination lead to substantial perturbations when injected into the subsurface. For the remediation of uranium contamination, carbon amendments promote reducing conditions to allow microorganisms to reduce uranium to an insoluble, less mobile state. However, the reproducibility of these amendments and underlying microbial community assembly mechanisms have rarely been investigated in the field. In this study, two injections of emulsified vegetable oil were performed in 2009 and 2017 to immobilize uranium in the groundwater at Oak Ridge, TN, USA. Our objectives were to determine whether and how the injections resulted in similar abiotic and biotic responses and their underlying community assembly mechanisms. Both injections caused similar geochemical and microbial succession. Uranium, nitrate, and sulfate concentrations in the groundwater dropped following the injection, and specific microbial taxa responded at roughly the same time points in both injections, including Geobacter, Desulfovibrio, and members of the phylum Comamonadaceae, all of which are well established in uranium, nitrate, and sulfate reduction. Both injections induced a transition from relatively stochastic to more deterministic assembly of microbial taxonomic and phylogenetic community structures based on 16S rRNA gene analysis. We conclude that geochemical and microbial successions after biostimulation are reproducible, likely owing to the selection of similar phylogenetic groups in response to EVO injection.
AB - Carbon amendments designed to remediate environmental contamination lead to substantial perturbations when injected into the subsurface. For the remediation of uranium contamination, carbon amendments promote reducing conditions to allow microorganisms to reduce uranium to an insoluble, less mobile state. However, the reproducibility of these amendments and underlying microbial community assembly mechanisms have rarely been investigated in the field. In this study, two injections of emulsified vegetable oil were performed in 2009 and 2017 to immobilize uranium in the groundwater at Oak Ridge, TN, USA. Our objectives were to determine whether and how the injections resulted in similar abiotic and biotic responses and their underlying community assembly mechanisms. Both injections caused similar geochemical and microbial succession. Uranium, nitrate, and sulfate concentrations in the groundwater dropped following the injection, and specific microbial taxa responded at roughly the same time points in both injections, including Geobacter, Desulfovibrio, and members of the phylum Comamonadaceae, all of which are well established in uranium, nitrate, and sulfate reduction. Both injections induced a transition from relatively stochastic to more deterministic assembly of microbial taxonomic and phylogenetic community structures based on 16S rRNA gene analysis. We conclude that geochemical and microbial successions after biostimulation are reproducible, likely owing to the selection of similar phylogenetic groups in response to EVO injection.
KW - Community assembly
KW - Electron donor injection
KW - Groundwater contamination
KW - Microbial succession
UR - http://www.scopus.com/inward/record.url?scp=85188904043&partnerID=8YFLogxK
U2 - 10.1016/j.watres.2024.121460
DO - 10.1016/j.watres.2024.121460
M3 - Article
AN - SCOPUS:85188904043
SN - 0043-1354
VL - 255
JO - Water Research
JF - Water Research
M1 - 121460
ER -