Assessment of variability and monitoring methods for leaching under cover crop management
The contamination of ground water resources represents a serious problem and a prominent threat to the health of our society. This study focuses on the leaching of inorganic anions as a function of agricultural practices under natural field conditions. In order to enhance the understanding of such l...
| Main Author: | |
|---|---|
| Other Authors: | |
| Language: | en_US |
| Published: |
2012
|
| Subjects: | |
| Online Access: | http://hdl.handle.net/1957/34891 |
| id |
ndltd-ORGSU-oai-ir.library.oregonstate.edu-1957-34891 |
|---|---|
| record_format |
oai_dc |
| spelling |
ndltd-ORGSU-oai-ir.library.oregonstate.edu-1957-348912012-11-08T03:16:53ZAssessment of variability and monitoring methods for leaching under cover crop managementHess, MarioGroundwater -- Pollution -- OregonLeaching -- Oregon -- MeasurementNitrogen fertilizers -- Environmental aspects -- OregonCover crops -- OregonThe contamination of ground water resources represents a serious problem and a prominent threat to the health of our society. This study focuses on the leaching of inorganic anions as a function of agricultural practices under natural field conditions. In order to enhance the understanding of such leaching processes, this thesis evaluates the spatial variability of the leaching characteristics of a site, the factors controlling percolation, and the use of a cereal rye cover crop to reduce nitrate leaching. Thirty-two Passive Capillary Wick Samplers (PCAPS) and 32 suction cups were installed at a depth of 120 cm under row crop produced in a Woodburn Variant loam (fine-loamy mixed mesic Aquultic Argixeroll). Significant correlation for the water flux was seen at the 2.0 m distance, beyond which values were uncorrelated. No spatial correlation was seen in hydrodynamic dispersion coefficients. Percolation was independent of field saturated hydraulic conductivity, while the quantity of incident water was strongly correlated with percolation. The occurrence of preferential flow affected the leaching process as documented by solute breakthrough ahead of the main solute peak. Rates of nitrogen fertilizer application were proportional to observed nitrate leaching losses. The cover crop significantly reduced the amount of nitrate leaching at all N fertilizer application rates. At the recommended rate, nitrate-N concentrations were lowered on average from 22.2 to 9.9 mg/l; cumulative N mass losses were cut by 62% due to plant uptake by the cover crop. The study demonstrated the importance of conducting long-term field experiments under natural conditions to accurately assess leaching processes.Graduation date: 1996Selker, John S.2012-11-07T18:53:57Z2012-11-07T18:53:57Z1995-05-161995-05-16Thesis/Dissertationhttp://hdl.handle.net/1957/34891en_US |
| collection |
NDLTD |
| language |
en_US |
| sources |
NDLTD |
| topic |
Groundwater -- Pollution -- Oregon Leaching -- Oregon -- Measurement Nitrogen fertilizers -- Environmental aspects -- Oregon Cover crops -- Oregon |
| spellingShingle |
Groundwater -- Pollution -- Oregon Leaching -- Oregon -- Measurement Nitrogen fertilizers -- Environmental aspects -- Oregon Cover crops -- Oregon Hess, Mario Assessment of variability and monitoring methods for leaching under cover crop management |
| description |
The contamination of ground water resources represents a serious
problem and a prominent threat to the health of our society. This study
focuses on the leaching of inorganic anions as a function of agricultural
practices under natural field conditions. In order to enhance the
understanding of such leaching processes, this thesis evaluates the spatial
variability of the leaching characteristics of a site, the factors controlling
percolation, and the use of a cereal rye cover crop to reduce nitrate leaching.
Thirty-two Passive Capillary Wick Samplers (PCAPS) and 32 suction
cups were installed at a depth of 120 cm under row crop produced in a
Woodburn Variant loam (fine-loamy mixed mesic Aquultic Argixeroll).
Significant correlation for the water flux was seen at the 2.0 m distance,
beyond which values were uncorrelated. No spatial correlation was seen in
hydrodynamic dispersion coefficients. Percolation was independent of field saturated
hydraulic conductivity, while the quantity of incident water was
strongly correlated with percolation. The occurrence of preferential flow
affected the leaching process as documented by solute breakthrough ahead of
the main solute peak. Rates of nitrogen fertilizer application were
proportional to observed nitrate leaching losses. The cover crop significantly
reduced the amount of nitrate leaching at all N fertilizer application rates. At
the recommended rate, nitrate-N concentrations were lowered on average
from 22.2 to 9.9 mg/l; cumulative N mass losses were cut by 62% due to plant
uptake by the cover crop. The study demonstrated the importance of
conducting long-term field experiments under natural conditions to
accurately assess leaching processes. === Graduation date: 1996 |
| author2 |
Selker, John S. |
| author_facet |
Selker, John S. Hess, Mario |
| author |
Hess, Mario |
| author_sort |
Hess, Mario |
| title |
Assessment of variability and monitoring methods for leaching under cover crop management |
| title_short |
Assessment of variability and monitoring methods for leaching under cover crop management |
| title_full |
Assessment of variability and monitoring methods for leaching under cover crop management |
| title_fullStr |
Assessment of variability and monitoring methods for leaching under cover crop management |
| title_full_unstemmed |
Assessment of variability and monitoring methods for leaching under cover crop management |
| title_sort |
assessment of variability and monitoring methods for leaching under cover crop management |
| publishDate |
2012 |
| url |
http://hdl.handle.net/1957/34891 |
| work_keys_str_mv |
AT hessmario assessmentofvariabilityandmonitoringmethodsforleachingundercovercropmanagement |
| _version_ |
1716393397437071360 |