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Increased Duration of Drying–Rewetting Cycles Increases Nitrate Removal in Woodchip Bioreactors

A previously reported experiment showed weekly drying–rewetting (DRW) cycles increase nitrate removal rates in woodchip-based denitrifying bioreactors. A follow-up experiment determined the effect of duration of unsaturated conditions on nitrate removal after rewetting. Three different levels of DRW...

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Bibliographic Details
Published in:Agricultural & environmental letters 2019, Vol.4 (1)
Main Authors: Maxwell, Bryan M., Birgand, François, Schipper, Louis A., Christianson, Laura E., Tian, Shiying, Helmers, Matthew J., Williams, David J., Chescheir, George M., Youssef, Mohamed A.
Format: Article
Language:English
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Summary:A previously reported experiment showed weekly drying–rewetting (DRW) cycles increase nitrate removal rates in woodchip-based denitrifying bioreactors. A follow-up experiment determined the effect of duration of unsaturated conditions on nitrate removal after rewetting. Three different levels of DRW duration were tested in a 105-d column experiment ( = 2), with woodchips left unsaturated once a week for either 2 h, 8 h, or 24 h. Increasing duration of unsaturated conditions significantly increased nitrate removal rates. The longest DRW duration of 24 h resulted in the greatest increase in nitrate removal rates, relative to constantly saturated woodchips, with mean rate increases reaching 172% by the end of the experiment. Results suggest nitrate removal in denitrifying bioreactors is carbon limited, with labile carbon made available during aerobic periods of DRW cycles the most likely cause of observed rate increases. Both studies show DRW cycles dramatically increase the nitrate removal efficiency of denitrifying bioreactors.
ISSN:2471-9625
2471-9625
DOI:10.2134/ael2019.07.0028