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This article in JEQ

  1. Vol. 38 No. 1, p. 230-237
    Received: Feb 23, 2008

    * Corresponding author(s): wroberts@sciborg.uwaterloo.ca
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In-Stream Bioreactor for Agricultural Nitrate Treatment

  1. W. D. Robertson *a and
  2. L. C. Merkleyb
  1. a Dep. of Earth and Environmental Sciences, Univ. of Waterloo, Waterloo, ON, N2L 3G1,Canada
    b Upper Thames River Conservation Authority, London, ON, Canada


Nitrate from agricultural activity contributes to nutrient loading in surface water bodies such as the Mississippi River. This study demonstrates a novel in-stream bioreactor that uses carbonaceous solids (woodchips) to promote denitrification of agricultural drainage. The reactor (40 m3) was trenched into the bottom of an existing agricultural drainage ditch in southern Ontario (Avon site), and flow was induced through the reactor by construction of a gravel riffle in the streambed. Over the first 1.5 yr of operation, mean influent NO3–N of 4.8 mg L−1 was attenuated to 1.04 mg L−1 at a mean reactor flow rate of 24 L min−1 A series of flow-step tests, facilitated by an adjustable height outlet pipe, demonstrated that nitrate mass removal generally increased with increasing flow rate. When removal rates were not nitrate-limited, areal mass removal ranged from 11 mg N m−2 h−1 at 3°C to 220 mg N m−2 h−1 at 14°C (n = 27), exceeding rates reported for some surface-flow constructed wetlands in this climatic region by a factor of about 40. Over the course of the field trial, reactor flow rates decreased as a result of silt accumulation on top of the gravel infiltration gallery. Design modifications are currently being implemented to mitigate the effects of siltation. In-stream reactors have the potential to be scaled larger and could be more manageable than attempting to address nitrate loading from individual tile drains. They could also work well in combination with other nitrate control techniques.

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