4.6 Article

Biostimulation effect of different amendments on Cr(VI) recovering microbial community

Journal

NEW BIOTECHNOLOGY
Volume 78, Issue -, Pages 29-41

Publisher

ELSEVIER
DOI: 10.1016/j.nbt.2023.09.007

Keywords

Groundwater; Hexavalent chromium; Electron donors; Native bacteria; High-throughput sequencing; Functional prediction

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This study investigated the effects of lactate and yeast extract on the bacterial community in Cr(VI)-polluted microcosms. Results showed that providing electron donors led to the proliferation of specific bacterial species and a decrease in species richness and evenness. Lactate promoted the enrichment of fermentative bacteria, while yeast extract enriched Shewanella. Yeast extract resulted in the quickest Cr(VI) reduction, while lactate supported a slower yet considerable removal of the pollutant.
The present study used Cr(VI)-polluted microcosms amended with lactate or yeast extract, and nonamended microcosms as control, to investigate how a native bacterial community varied in response to the treatment and during the pollutant removal. Results suggested that providing electron donors resulted in a proliferation of a few bacterial species, with the consequent decrease in observed species richness and evenness, and was a driving force for the bacterial compositional shift. Lactate promoted, in the first instance, the enrichment of fermentative bacteria belonging to Chromobacteriaceae, including Paludibacterium, and Micrococcaceae as observed after 4 days. When the rate of Cr(VI) removal was maximum in microcosms amended with lactate, the most represented taxa were Pseudarcicella and Azospirillum. Using yeast extract as a carbon source and electron donor led instead to the significant enrichment of Shewanella, followed by Vogesella and Acinetobacter on the 4th day, corresponding to 90% of Cr(VI) removed from the system. After the complete Cr(VI) removal, achieved in 7 days in the presence of yeast extract, alpha-diversity was notably increased. The amendment-specific turnover of the enriched bacterial taxa resulted in a different kinetic of pollutant removal. In particular, yeast extract promoted the quickest Cr(VI) reduction, while lactate supported a slower, but also considerable, pollutant removal from water. Since it is reasonable to assume that a macroscopic effect, such as the observed Cr(VI) removal, involved the overrepresented taxa, deepening the knowledge of the native bacterial community and its changes were used to hypothesize the possible microbial pathways involved.

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