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Effects of Soil Compaction and Macropores on Water Infiltration Rates
By Lanre Adekola
Problems
• Soil becomes hard like concrete when construction equipment is driven repeatedly over soil
• There is a decrease in vegetative growth• Poor infiltration rates lead to runoff– Nitrates– Phosphates– Oils and greases– Salts from ice removal
Study Site: Lake Minnetonka Regional Park
Methods: Infiltration Rates
Modified Philip-Dunne Infiltrometer (MPD)
Methods: Laying out Study Area
Goals: Compaction Study
To determine the soil type at the
study site
MethodsDetermining Soil Type
MethodsDetermining Soil Type
MethodsDetermining Soil Type
CaCO3
Content
Results for Soil Type
• Sandy Loam– Brown, R. B. "Soil Texture." Electronic Data Information Source. 2008.
University of Florida. 6 Oct. 2008 <http://edis.ifas.ufl.edu/ss169>.
Goals: Compaction Study
To determine the soil type at the
study site
To measure infiltration rates of the compacted soil
Results: Infiltration vs. Frequency
Results: Infiltration Rates
Comparison with Rain Garden Infiltration
Comparison with Rain Garden Infiltration
Lake Minnetonka has 3.5 times worse infiltration Rates
Goals: Compaction Study
To determine the soil type at the
study site
To measure infiltration rates of the compacted soil
To determine how water infiltration is
affected by bulk density
Methods: Bulk Density
Methods: Soil Sampling Positions
Methods: Bulk Density Samples
Results: Bulk Density
Comparison of Compaction Levels vs. Soil Type (Shestak et al. 2005)
Shestak, C. J. and M. D. Busse. "Compaction Alters Physical but not Biological ices of Soil Health." Soil Society of America (2005): 236-46.
Comparison of Compaction Levels vs. Soil Type (Shestak et al. 2005)
Shestak, C. J. and M. D. Busse. "Compaction Alters Physical but not Biological ices of Soil Health." Soil Society of America (2005): 236-46.
Comparison of Compaction Levels vs. Soil Type (Shestak et al. 2005)
Shestak, C. J. and M. D. Busse. "Compaction Alters Physical but not Biological ices of Soil Health." Soil Society of America (2005): 236-46.
Minnetonka Regional Park = 1.477 g/cm3
Definition of Macropore
• Pockets of air found in soil that may influence infiltration
• Caused by earthworms and hollowed tree roots– Jury, W. A. and Horton, R. Soil Physics. 6th ed. John Wiley &
Sons, Inc: Hobeken, New Jersey, 2004
Goals: Macropore Study
Design and create macropore simulators
Methods: Macropore Simulator
Goals: Macropore Study
Design and create macropore simulators
Determine how number of
macropores affects infiltration rates
Methods: Devices Used for Macropores
5 cm diameter MPD Minidisk Infiltrometer Moisture Content Device
Results: Macropore Averages
Results: Macropore Averages
Limitations
• Presence of rocks and macropores in soil at Lake Minnetonka may have affected infiltration
• Presence of small trees and shaded areas affected infiltration
• Time between macropore flood tests varied, affecting drying rate of soil
• Size and number of macropores may have produced unreliable results
Conclusion
• Soil compaction is directly related to poor water infiltration
• Poor infiltration is leading to runoff• In the absence of macropores, infiltration
rates at Lake Minnetonka could be even worse
Future Work
•Tilling/aerating•Composting•Testing water for chemical content, before and after tilling/aerating and composting
Acknowledgments
Dr. GulliverNick OlsenGreta SchmalleScience Research ClassMrs. Fruen
Effects of Soil Compaction and Macropores on Water Infiltration Rates
By Lanre Adekola
Results for Soil Type
• Sandy Loam
http://edis.ifas.ufl.edu/ss169
