Temperature and Substrate Control Woodchip Bioreactor Performance in Reducing Tile Nitrate Loads in East-Central Illinois.
@article{David2016TemperatureAS,
title={Temperature and Substrate Control Woodchip Bioreactor Performance in Reducing Tile Nitrate Loads in East-Central Illinois.},
author={Mark B. David and Lowell E. Gentry and Richard A. C. Cooke and Stephanie M Herbstritt},
journal={Journal of environmental quality},
year={2016},
volume={45 3},
pages={
822-9
}
}Tile drainage is the major source of nitrate in the upper Midwest, and end-of-tile removal techniques such as wood chip bioreactors have been installed that allow current farming practices to continue, with nitrate removed through denitrification. There have been few multiyear studies of bioreactors examining controls on nitrate removal rates. We evaluated the nitrate removal performance of two wood chip bioreactors during the first 3 yr of operation and examined the major factors that…
60 Citations
Improving the nutrient removal capabilities of woodchip bioreactors
- Engineering
- 2018
Intensive farming, fertilizer application, and the mineralization of soil organic matter in the Upper Midwestern United States, coupled with an extensive subsurface tile drainage, has contributed to…
Temperature sensitivity of nitrate removal in woodchip bioreactors increases with woodchip age and following drying–rewetting cycles
- Engineering
- 2020
Woodchip bioreactors are a beneficial management practice with increasing use for the sustainable reduction of nitrate in waters discharged from agriculture and urban landscapes. Previous research…
Impact of hydraulic residence time on nitrate removal in pilot-scale woodchip bioreactors.
- EngineeringJournal of environmental management
- 2019
Performance of a Woodchip Bioreactor for the Treatment of Nitrate-Laden Agricultural Drainage Water in Northeastern Germany
- Engineering
- 2020
Reactive barriers, such as denitrifying bioreactors, have been identified as a clean-up option for nutrient-laden agriculture runoff. Here we tested a 20 m long, 3.75 m wide and 2.2 m deep woodchip…
Impact of hydraulic residence time on nitrate removal in pilot-scale woodchip bioreactors
- Engineering
- 2019
Nitrate (NO3−N) export from row crop agricultural systems with subsurface tile drainage continues to be a major water quality concern. Woodchip bioreactors are an effective edge-of-field practice…
Impact of temperature and hydraulic retention time on pathogen and nutrient removal in woodchip bioreactors
- Engineering
- 2018
Impact of temperature and hydraulic retention time on pathogen and nutrient removal in woodchip bioreactors
- Engineering
- 2018
Woodchip denitrification bioreactors are an important edge-of-field practice for treating agricultural drainage; however, their ability to filter microbial pollutants has primarily been explored in…
Nitrogen removal and nitrous oxide emissions from woodchip bioreactors treating agricultural drainage waters
- Engineering
- 2021
Nitrate Removal Performance of Denitrifying Woodchip Bioreactors in Tropical Climates
- Engineering, Environmental ScienceWater
- 2021
In Australia, declining water quality in the Great Barrier Reef (GBR) is a threat to its marine ecosystems and nitrate (NO3−) from sugar cane-dominated agricultural areas in the coastal catchments of…
Evaluation of passive reduction of nitrate from greenhouse effluent by planted bioreactors
- Engineering, Biology
- 2017
The near-complete denitrification developed provided a nitrate-limiting environment as evidenced by an average 21.5% nitrate reduction and low outflow BOD 5 near the end of the experiment, indicating carbon limitation in these bioreactors.
References
SHOWING 1-10 OF 54 REFERENCES
Denitrification activity, wood loss, and N2O emissions over 9 years from a wood chip bioreactor
- Engineering
- 2010
Nitrogen balance in and export from agricultural fields associated with controlled drainage systems and denitrifying bioreactors
- Environmental Science
- 2010
Denitrification in wood chip bioreactors at different water flows.
- EngineeringJournal of environmental quality
- 2009
Wood chip bioreactors may be successful at removing significant quantities of nitrate-nitrogen, and reducing NO(3)-N concentration from water moving to subsurface drainage at flow rates observed in central Iowa subsoil.
Characterizing the Performance of Denitrifying Bioreactors during Simulated Subsurface Drainage Events.
- EngineeringJournal of environmental quality
- 2015
Although concentrations of dissolved reactive phosphorus and dissolved organic carbon in the bioreactor effluent increased relative to the influent by an order of magnitude during initial tests, within 1 mo of operation they stabilized at nearly equal values.
Performance Evaluation of Four Field-Scale Agricultural Drainage Denitrification Bioreactors in Iowa
- Engineering, Biology
- 2012
Nitrate removal performance from four existing bioreactors in Iowa was analyzed, paying particular attention to potential performance-affecting factors including retention time, influent nitrate concentration, temperature, flow rate, age, length-to-width ratio, and cross-sectional shape.
Estimation of flow and transport parameters for woodchip- based bioreactors: I. laboratory-scale bioreactor
- Engineering
- 2009
Evaluating the potential role of denitrifying bioreactors in reducing watershed-scale nitrate loads: A case study comparing three Midwestern (USA) watersheds
- Engineering, Environmental Science
- 2015