Hostname: page-component-586b7cd67f-dlnhk Total loading time: 0 Render date: 2024-11-24T08:10:43.744Z Has data issue: false hasContentIssue false

Effects of Conventional and Mulch Tillage on Dicamba Transport

Published online by Cambridge University Press:  20 January 2017

Donald W. Watts*
Affiliation:
USDA-ARS, 2611 W. Lucas Street, Florence, SC 29501
Jon K. Hall
Affiliation:
Department of Agronomy, 116 Agricultural Science and Industry Building, Pennsylvania State University, University Park, PA 16802
*
Corresponding author's E-mail: [email protected].

Abstract

Leaching and runoff losses of the postemergence-applied herbicide dicamba were evaluated over a 3-yr period (1989 to 1991). Dicamba was applied at the recommended rate (0.56 kg ai/ha) to conventional and mulch tillage planted corn fields on Hagerstown silty clay loam (fine, mixed, mesic Typic Hapludalf). Mulch tillage followed several years of no-tillage corn. Root zone leachates were collected utilizing pan lysimeters placed 1.2 m below the soil surface. Surface runoff was monitored and collected with an HS-flume and automated sampling equipment. Leaching was greatest during 1989, and runoff events were recorded only during this season. Leachate samples containing measurable levels of dicamba were obtained within 21 d of herbicide application or within slightly more than one soil half-life of this chemical. More dicamba leached under mulch tillage than conventional tillage management. Tillage rotation (no tillage to mulch tillage) did not alter the leaching loss potential of dicamba beneath the minimally tilled soil surface, as postulated, compared with the previous untilled surface. The mulch tillage surface reduced runoff water losses compared with conventional tillage, but early-season leaching activity, coupled with the minimal persistence of dicamba in soil, negated runoff transport of this herbicide from either tillage system when the first runoff event occurred 12 d after its application.

Type
Research
Copyright
Copyright © Weed Science Society of America 

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Literature Cited

Arjmand, M., Spittler, T. D., and Mumma, R. O. 1988. Analysis of dicamba from water using solid-phase extraction and ion-pair high-performance liquid chromatography. J. Agric. Food Chem. 36: 492494.Google Scholar
Burnside, O. C. and Lavy, T. L. 1966. Dissipation of dicamba. Weeds. 14: 211214.CrossRefGoogle Scholar
Comfort, S. D., Inskeep, W. P., and Macur, R. E. 1992. Degradation and transport of dicamba in a clay soil. J. Environ. Qual. 21: 653658.CrossRefGoogle Scholar
Deluca, T., Larson, J., Torma, L., and Algard, G. 1989. A survey of pesticide residues in groundwater in Montana. Helena, MT: Montana Dept. of Agric. Tech. Rep. 89-I.Google Scholar
Edwards, W. M., Shipitalo, M. J., and Owens, L. B. 1989. Water and nitrate movement in earthworm burrows within long-term no-till cornfields. J. Soil and Water Cons. 44: 240243.Google Scholar
Grover, R. 1977. Mobility of dicamba, picloram and 2,4-D in soil columns. Weed Sci. 25: 159162.Google Scholar
Hahn, R. R., Burnside, O. C., and Lavy, T. L. 1969. Dissipation and phytotoxicity of dicamba. Weed Sci. 17: 38.CrossRefGoogle Scholar
Hall, J. K., Mumma, R. O., and Watts, D. W. 1991. Leaching and runoff losses of herbicides in a tilled and untilled field. Agric. Ecosyst. Environ. 37: 303314.Google Scholar
Hall, J. K. and Mumma, R. O. 1994. Dicamba mobility in conventionally tilled and non-tilled soil. Soil Tillage Res. 30: 317.CrossRefGoogle Scholar
Hall, J. K., Murray, M. R., and Hartwig, N. L. 1989. Herbicide leaching and distribution in tilled and untilled soil. J. Environ. Qual. 18: 439445.CrossRefGoogle Scholar
Harris, C. J. 1964. Movement of dicamba and diphenamid in soils. Weeds. 12: 112115.Google Scholar
Hill, R. L. 1990. Long-term conventional and no-tillage effects on selected soil physical properties. Soil Sci. Soc. Am. J. 54: 161166.CrossRefGoogle Scholar
Johnson, C. B. and Moldenhauer, W. C. 1979. Effects of chisel versus moldboard plowing on soil erosion by water. Soil Sci. Soc. Am. J. 43: 177179.Google Scholar
Quisenberry, V. L. and Phillips, R. E. 1978. Displacement of soil water by simulated rainfall. Soil Sci. Soc. Am. J. 42: 675679.CrossRefGoogle Scholar
Ritter, W. F. 1990. Pesticide contamination of ground water in the United States—Are view. J. Environ. Sci. Health B. 25: 129.Google Scholar
Ritter, W., Chirnside, A., and Scarbough, R. 1987. Pesticide leaching in a Coastal Plain soil. St. Joseph, MI: Am. Soc. of Agric. Eng. Paper 87-2630. 20 p.Google Scholar
Ritter, W. F., Chirnside, A.E.M., and Scarbough, R. W. 1996. Leaching of dicamba in a Coastal Plain soil. J. Environ. Sci. Health A. 31: 505517.Google Scholar
Römkens, M.J.M., Nelson, D. W., and Mannering, J. V. 1973. Nitrogen and phosphorous composition of surface runoff as affected by tillage method. J. Environ. Qual. 2: 292295.CrossRefGoogle Scholar
Sadeghi, A. M. and Isensee, A. R. 1997. Alachlor and cyanazine persistence in soil under different tillage and rainfall regimes. Soil Sci. 162: 430438.CrossRefGoogle Scholar
Sauer, T. J. and Daniel, T. C. 1987. Effects of tillage systems on runoff losses of surface-applied pesticides. Soil Sci. Soc. Am. J. 51: 410415.CrossRefGoogle Scholar
Shaffer, K. A., Fritton, D. D., and Baker, D. E. 1979. Drainage water sampling in a wet dual-pore soil system. J. Environ. Qual. 8: 241246.CrossRefGoogle Scholar
Shipitalo, M. J., Edwards, W. M., Dick, W. A., and Owens, L. B. 1990. Initial storm effects on macropore transport of surface-applied chemicals in no-till soil. Soil Sci. Soc. Am. J. 54: 15301536.CrossRefGoogle Scholar
Smith, A. E. 1973. Transformation of dicamba in Regina heavy clay. J. Agric. Food Chem. 22: 601605.Google Scholar
Triplett, G. B. Jr., Conner, B. J., and Edwards, W. M. 1978. Transport of atrazine and simazine in runoff from conventional and no-tillage corn. J. Environ. Qual. 7: 7783.Google Scholar
Watts, D. W., Bogus, E. R., Hall, J. K., and Mumma, R. O. 1994. Simultaneous extraction of six pesticides using a dual-column extraction procedure. J. Environ. Qual. 23: 383386.CrossRefGoogle Scholar
Watts, D. W. and Hall, J. K. 1996. Tillage and application effects on herbicide leaching and runoff. Soil Till. Res. 39: 241257.CrossRefGoogle Scholar
Wauchope, R. D. 1978. The pesticide content of surface water draining from agricultural fields—A review. J. Environ. Qual. 7: 459472.Google Scholar
Wendt, R. C. and Burwell, R. E. 1985. Runoff and soil losses for conventional, reduced, and no-till corn. J. Soil and Water Cons. 40: 450454.Google Scholar