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Bioremediation of Groundwater Contaminated with Agricultural Chemicals

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Title: Bioremediation of Groundwater Contaminated with Agricultural Chemicals


1
Bioremediation of Groundwater Contaminated
with Agricultural Chemicals
Paul Davidson
University of Illinois at Urbana-Champaign,
Department of Agricultural and Biological
Engineering, pdavidso_at_uiuc.edu
Results
  • Why is this research important?
  • The infiltration and runoff of contaminants into
    surface and groundwater are of much concern when
    considering water quality.
  • Nitrogen , atrazine, and alachlor enter
    groundwater and contaminate the water sources.
  • In the presence of available phosphorus,
    nitrate-N causes excessive algal growth, leading
    to eutrophication.
  • Health Problems
  • Nitrate-N (10 ppm) Blue Baby Syndrome, Cancer
  • Atrazine (3 ppb) Cardiovascular damage, Cancer
  • Alachlor (2 ppb) Kidney and liver damage, Cancer
  • Objectives
  • Properly designed biofilters have the potential
    to reduce the concentration of agricultural
    chemicals. The biofilters provide essential
    nutrients to microorganisms to degrade these
    chemicals. The hypothesis of this research is
    that nitrate-N, atrazine and alachlor
    concentrations in the groundwater will be reduced
    if treated with biofilters.
  • The overall objective of this research is to
    investigate and evaluate the effectiveness of a
    biofilter for reducing concentrations of
    agricultural chemicals in subsurface water.
  • Conclusions
  • Biodegradations of all three chemicals
    (nitrate-N, atrazine, and alachlor) have been
    achieved using woodchip biofilters.
  • Depth does not have any significant effect.
  • Preliminary testing showed that
  • Biodegradation of Nitrate-N concentration has
    been significant in the presence of atrazine and
    alachlor.
  • Results indicate that current agricultural
    management practices may need alterations for
    optimum yield and safer environment.

Figure 2. Soil columns used for research project.
Figure 4. Concentrations of chemicals in
subsurface samples.
  • How did I approach my research?
  • Research was performed in a controlled laboratory
    environment, where weather did not play a role in
    the experiments.
  • Six soil columns were used (3 height, 15
    diameter).
  • Three of the columns contained Drummer silty-clay
    loam, while the other three contained Thorp silt
    loam soil.
  • Nitrogen, atrazine, and alachlor were applied
    separately, and in various combinations, to each
    of the columns.
  • Tests were run to determine various properties of
    the biofilter, and to determine the amount of
    contaminants leaching through the soil profiles
    containing the biofilter.
  • An experiment was run to determine the
    effectiveness of the woodchip biofilter.

References Cooke, R.A, A.M. Doheny and M.C.
Hirschi. 2001. Bio-reactors for edge-of- field
treatment of tile outflow. ASAE Paper No.
01- 2018. St.Joseph,MI. Doheny, Adrian. 2002.
Bio-reactors for edge-of-field treatment of tile
flow. M.S. thesis, Agricultural Engineering
Dept., University of Illinois,
Urbana. Eastburn, R.P. and W.F. Ritter. 1988. A
review of denitrification in on-site wastewater
treatment systems. Environmental Pollution
5149-61. Illinois Department of Public Health.
2005. Environmental Health Fact Sheet-Alachlor
and atrazine in groundwater. http//www.idph.stat
e.il.us/envhealth/factsheets/alachlor-atrazine.htm
April 4, 2005. Kadlec, R.H. and R.L. Knight.
1996. Treatment Wetlands. Boca Raton, FL CRC
Press, Inc. Nitrate Removal Technologies, LLC,
2001. Why are nitrates a problem?
http//www.nitrateremoval.com/whyare.htm
February 8, 2002. Schipper, L. and M.
Vojvodic-Vukovic. 2001. Five years of nitrate
removal, denitrification and carbon dynamics in
a denitrification wall. Water Resources 35(14)
3473-3477. U.S. Environmental Protection Agency.
2005. Consumer Fact Sheet on NITRATES/NITRITES.
http//www.epa.gov/safewater/contaminants/dw_con
tamfs/nitrates.html April 6, 2005 Wildman,
T.A. 2002. Design of field-scale bioreactors for
bioremediation of nitrate-N in tile drainage
effluent. 2002. Unpublished MS thesis,
University of Illinois, Urbana.
  • These results show that the biofilter does reduce
    the concentrations of the contaminants.
  • The biofilter at a shallow depth seems to be most
    effective, but a biofilter at any depth should be
    sufficient for lowering the concentrations below
    the Maximum Contaminant Level (MCL).

Table 1. Chemical concentration reductions by
biofilter densities.
Figure 3. Schematic diagram of the three
different columns of each soil type.
Figure 1. Woodchip biofilters.
  • What to look For?
  • What concentration of each contaminant leaches
    through the soil?
  • Does the depth of the biofilter affect the rates
    of biodegradation of chemicals?
  • Does the concentration of the leachates vary when
    various chemicals are applied in combination?

Application Schedule - NO3 (25 ppm), Atz. (25
ppb), Al. (25 ppb) week 1 NO3 week 4
Al. week 2 NO3 Atz. week 5 Atz.
Al. week 3 Atz. week 6 NO3 Atz. Al.
Atrazine C8H14ClN5
Alachlor C14H20ClNO2
Nitrate-N NO3
This research project was supported in part by
the Environmental Council at the University of
Illinois.
IMPORTANT The nitrate-N concentration was
reduced from 25 ppm to only 4.6 ppm when in the
presence of atrazine and alachlor. There was no
soil or biofilter media present in this case.
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