Mitigation techniques reduce sediment in runoff from furrow-irrigated cropland
Irrigation tailwater can transport sediments and sediment-associated agricultural pollutants to nearby waterways. To help protect the biota of surface waters, we evaluated the use of polyacrylamide (PAM, a synthetic material that flocculates sediments when added to water), vegetated ditches and sedi...
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University of California Agriculture and Natural Resources
2010-07-01
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| Series: | California Agriculture |
| Online Access: | http://calag.ucanr.edu/archive/?article=ca.v064n03p135 |
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doaj-07e5f0aa73964f91ac5e36906314b9322020-11-24T22:28:03ZengUniversity of California Agriculture and Natural ResourcesCalifornia Agriculture0008-08452160-80912010-07-0164313514010.3733/ca.v064n03p13510.3733/cav064n03_5Mitigation techniques reduce sediment in runoff from furrow-irrigated croplandAllan Fulton0Blaine Hanson1Rachael Long2Donald P. Weston3A.E. Fulton is Farm Advisor, UCCE Tehama CountyB.R. Hanson is Cooperative Extension Irrigation and Drainage Specialist, UC DavisR.F. Long is Farm Advisor, UC Cooperative Extension (UCCE) Yolo CountyD.P. Weston is Adjunct Professor, UC BerkeleyIrrigation tailwater can transport sediments and sediment-associated agricultural pollutants to nearby waterways. To help protect the biota of surface waters, we evaluated the use of polyacrylamide (PAM, a synthetic material that flocculates sediments when added to water), vegetated ditches and sediment traps to mitigate sediment losses from furrow-irrigated fields. In a 2-year study, liquid PAM injected into irrigation source water most effectively reduced suspended-sediment concentrations in runoff from different soil types. Dry tablet and granule PAM formulations were also effective, as long as their placement in the furrows promoted their dissolution in irrigation water. Vegetated ditches resulted in intermediate reductions in suspended sediments in tailwater. The sediment traps were limited in their effectiveness by insufficient holding time for fine-grained particulates to settle out of the runoff.http://calag.ucanr.edu/archive/?article=ca.v064n03p135 |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Allan Fulton Blaine Hanson Rachael Long Donald P. Weston |
| spellingShingle |
Allan Fulton Blaine Hanson Rachael Long Donald P. Weston Mitigation techniques reduce sediment in runoff from furrow-irrigated cropland California Agriculture |
| author_facet |
Allan Fulton Blaine Hanson Rachael Long Donald P. Weston |
| author_sort |
Allan Fulton |
| title |
Mitigation techniques reduce sediment in runoff from furrow-irrigated cropland |
| title_short |
Mitigation techniques reduce sediment in runoff from furrow-irrigated cropland |
| title_full |
Mitigation techniques reduce sediment in runoff from furrow-irrigated cropland |
| title_fullStr |
Mitigation techniques reduce sediment in runoff from furrow-irrigated cropland |
| title_full_unstemmed |
Mitigation techniques reduce sediment in runoff from furrow-irrigated cropland |
| title_sort |
mitigation techniques reduce sediment in runoff from furrow-irrigated cropland |
| publisher |
University of California Agriculture and Natural Resources |
| series |
California Agriculture |
| issn |
0008-0845 2160-8091 |
| publishDate |
2010-07-01 |
| description |
Irrigation tailwater can transport sediments and sediment-associated agricultural pollutants to nearby waterways. To help protect the biota of surface waters, we evaluated the use of polyacrylamide (PAM, a synthetic material that flocculates sediments when added to water), vegetated ditches and sediment traps to mitigate sediment losses from furrow-irrigated fields. In a 2-year study, liquid PAM injected into irrigation source water most effectively reduced suspended-sediment concentrations in runoff from different soil types. Dry tablet and granule PAM formulations were also effective, as long as their placement in the furrows promoted their dissolution in irrigation water. Vegetated ditches resulted in intermediate reductions in suspended sediments in tailwater. The sediment traps were limited in their effectiveness by insufficient holding time for fine-grained particulates to settle out of the runoff. |
| url |
http://calag.ucanr.edu/archive/?article=ca.v064n03p135 |
| work_keys_str_mv |
AT allanfulton mitigationtechniquesreducesedimentinrunofffromfurrowirrigatedcropland AT blainehanson mitigationtechniquesreducesedimentinrunofffromfurrowirrigatedcropland AT rachaellong mitigationtechniquesreducesedimentinrunofffromfurrowirrigatedcropland AT donaldpweston mitigationtechniquesreducesedimentinrunofffromfurrowirrigatedcropland |
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