2020 article

Effects of drying and rewetting cycles on denitrification and greenhouse gas emissions in normally saturated organic substrate

Birgand, F., Maxwell, B., Thomas, A., Schipper, L., Williams, D., Christianson, L., … Youssef, M. (2020, March 23). (Vol. 3). Vol. 3.

By: F. Birgand, B. Maxwell, A. Thomas, L. Schipper, D. Williams, L. Christianson, S. Tian, M. Helmers, C. Chescheir, M. Youssef

Source: ORCID
Added: September 8, 2021

<p>The effects of intermittent drying of normally saturated organic systems such as peatlands, swamps, or wetlands has not been reported quite as often as those of wetting and drying cycles of normally dry soils. We report here the effects of weekly drying and rewetting events on saturated woodchips used as denitrification bed. We used denitrification rates and gas effluxes as indicators of the response of normally saturated organic substrate to intermittent aerobic conditions. We used replicated eight upflow columns in the lab fed with nitrated water, and undergoing variable duration of intermittent aerobic conditions (none, 2, 8, and 24 hours) over a 400d experiment.  We used high-frequency sensors to measure in- and outflow nitrate and DOC concentrations on a 2-hour basis, from which we calculated denitrification rates. We also measured the CO2 and N2O effluxes in the headspace on an hourly basis. The results show a burst of respiration activity during drying events and for several days after rewetting. Isotopic data suggest that respiration was bacterial denitrification. Intermittent aerobic conditions seem to provide the conditions conducive to the generation of more and better quality DOC, which microbes use during subsequent saturated conditions. Our results suggest that intermittent aerobic conditions may have lasting impacts on microbial respiration in wetlands.</p>