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Web URL(s): | http://www.jswconline.org/content/58/1/67.full.pdf+html Last checked: 10/01/2008 Requires: PDF Reader Access conditions: Item is within a limited-access website http://www.jswconline.org/content/58/1/67.full.pdf Last checked: 08/13/2013 Requires: PDF Reader Access conditions: Item is within a limited-access website |
Publication Type:
| Professional |
Author(s): | Wu, Jigang;
Mersie, Wondi;
Atalay, Asmare;
Seybold, Cathy A. |
Author Affiliation: | Wu: Research Associate, Virginia State University, Petersburg, Virginia; Mersie: Associate Professor, Virginia State University, Petersburg, Virginia; Atalay: Associate Professor, Virginia State University, Petersburg, Virginia; Seybold: Soil Scientist, United States Department of Agriculture - Natural Resources Conservation Service, National Soil Survey Center, Lincoln, Nebraska |
Title: | Copper retention from runoff by switchgrass and tall fescue filter strips |
Section: | Research Other records with the "Research" Section
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Source: | Journal of Soil and Water Conservation. Vol. 58, No. 1, January/February 2003, p. 67-73. |
Publishing Information: | Ankeny, IA: Soil and Water Conservation Society |
# of Pages: | 7 |
Related Web URL: | http://www.jswconline.org/content/58/1/67.abstract Last checked: 08/13/2013 Notes: Abstract only |
Keywords: | TIC Keywords: Copper; Surface runoff; Panicum virgatum; Festuca arundinacea; Filter strips; Soil absorption; Leachate removal; Copper fertilizers
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Abstract/Contents: | "Vegetative filter strips are recommended to reduce the load of agricultural chemicals in surface runoff. Quantitative data however, is still needed on the performance of various grass species in filter strips and their effectiveness under different runoff flow rates. A study was conducted to compare the effectiveness of switchgrass (Panicum virgatum L.) and tall fescue (Festuca arundinacea Schreb.) filter strips in removing dissolved copper pesticide from runoff flowing at 2.7 L (0.7 gallon min-1) or 6 L (1.6 gallon min-1) over 0.9 m (3 ft) soil surface area. Runoff was simulated by applying 82-L (22 gallon) solutions containing 6.9 mg L-1 (6.9 ppm) Copper (Cu) on aluminum tilted-beds set at 3% slope, filled with Bojac soil, and planted to switchgrass or tall fescue. The total infiltrated (leached plus retained) expressed as percent of applied was 21% for soil beds having no grass, 33% for switchgrass beds, and 28% for tall fescue beds at 6.0 L min-1 (1.6 gallon min-1) flow rate. At the slow flow rate (2.7 L min-1, 0.7 gallon min-1), 77%, 97% and 100% of the applied runon infiltrated in no grass, switchgrass and tall fescue beds, respectively. About 60% of the applied Cu was removed by both grasses from runoff at 6.0 L min-1 (1.6 gallon min-1) flow rate whereas at the slow flow rate, grasses helped remove all of the applied Cu. Average concentration of Cu in surface runoff from all beds was 3.3 mg L-1 (3.3 ppm) whereas for leachate samples it was 0.2 mg L-1 (0.2 ppm). Adsorption to soil appeared to be the primary mechanism of removal of Cu from overland flow and leachate. When runoff moved at 2.7 L min-1 ( 0.7 gallon min-1) in the tall fescue filter strips, greater amounts of Cu were retained in the up-slope one third of the filter strips. This indicates that a relatively small tall fescue filter strip would be adequate to remove Cu in areas where runoff is expected to move at a slow flow rate. The grass filter strips reduced dissolved Cu in runoff by increasing its infiltration and its retention by soil." |
Language: | English |
References: | 33 |
Note: | Graphs Tables |
| ASA/CSSA/SSSA Citation (Crop Science-Like - may be incomplete): Wu, J., W. Mersie, A. Atalay, and C. A. Seybold. 2003. Copper retention from runoff by switchgrass and tall fescue filter strips. J. Soil Water Conserv. 58(1):p. 67-73. |
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| Web URL(s): http://www.jswconline.org/content/58/1/67.full.pdf+html Last checked: 10/01/2008 Requires: PDF Reader Access conditions: Item is within a limited-access website http://www.jswconline.org/content/58/1/67.full.pdf Last checked: 08/13/2013 Requires: PDF Reader Access conditions: Item is within a limited-access website |
| MSU catalog number: S 622 .J65 |
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