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Interference of manganese removal by biologically-mediated reductive release of manganese from MnO x(s) coated filtration media
Discontinuing application of pre-filter chlorine is a common water treatment plant practice to permit a bioactive filtration process for the removal of soluble Mn. However, soluble Mn desorption has sometimes been observed following cessation of chlorine addition, where filter effluent Mn concentrat...
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Published in: | Water research X 2018-12, Vol.1, p.100009 |
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Main Authors: | , , , |
Format: | Article |
Language: | English |
Online Access: | Get full text |
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Summary: | Discontinuing application of pre-filter chlorine is a common water treatment plant practice to permit a bioactive filtration process for the removal of soluble Mn. However, soluble Mn desorption has sometimes been observed following cessation of chlorine addition, where filter effluent Mn concentration exceeds the influent Mn concentration. In this paper it is hypothesized that Mn-reducing bacteria present in a biofilm on the filter media may be a factor in this Mn-release phenomenon. The primary objective of this research was to assess the role of Mn-reducing microorganisms in the release of soluble Mn from MnO
-coated filter media following interruption of pre-filtration chlorination. Bench-scale filter column studies were inoculated with
MR-1 to investigate the impacts of a known Mn-reducing bacterium on release of soluble Mn from MnO
coatings.
vial assays were developed to gain insight into the impacts of MnO
age on bioavailability to Mn-reducing microorganisms and a quantitative polymerase chain reaction (qPCR) method was developed to quantify gene copies of the
gene, which is involved in Mn-reduction. Results demonstrated that microbially-mediated Mn release was possible above a threshold equivalent of 2 × 10
MR-1 CFU per gram of MnO
coated media and that those organisms contributed to Mn desorption and release. Further, detectable
gene copies were associated with observed Mn desorption. Lastly, MnO
age appeared to play a role in Mn reduction and subsequent release, where MnO
solids of greater age indicated lower bioavailability. These findings can help inform means of preventing soluble Mn release from drinking water treatment plant filters. |
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ISSN: | 2589-9147 |