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Journal of Environmental Science and Health, Part B
Pesticides, Food Contaminants, and Agricultural Wastes
Volume 46, 2011 - Issue 4
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ARTICLES

Polynomial response of 2,4-D mineralization to temperature in soils at varying soil moisture contents, slope positions and depths

Janna L. Shymko Department of Soil Science, University of Manitoba, Winnipeg, Canada
,
Annemieke Farenhorst Department of Soil Science, University of Manitoba, Winnipeg, Canada
&
Francis Zvomuya Department of Soil Science, University of Manitoba, Winnipeg, Canada
Pages 301-312 | Received 23 Aug 2010, Published online: 13 Apr 2011
 
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Abstract

The herbicide 2,4-D [2,4-(dichlorophenoxy) acetic acid] is a widely used broadleaf control agent in cereal production systems. Although 2,4-D soil-residual activity (half-lives) are typicaly less than 10 days, this herbicide also has as a short-term leaching potential due to its relatively weak retention by soil constituents. Herbicide residual effects and leaching are influenced by environmental variables such as soil moisture and temperature. The objective of this study was to determine impacts of these environmental variables on the magnitude and extent of 2,4-D mineralization in a cultivated undulating Manitoba prairie landscape. Microcosm incubation experiments were utilized to assess 2,4-D half-lives and total mineralization using a 4 × 4 × 3 × 2 factorial design (with soil temperature at 4 levels: 5, 10, 20 and 40°C; soil moisture at 4 levels: 60, 85, 110, 135 % of field capacity; slope position at 3 levels: upper-, mid- and lower-slopes; and soil depth at 2 levels: 0–5 cm and 5–15 cm). Half-lives (t1/2) varied from 3 days to 51 days with the total 2,4-D mineralization (M T ) ranging from 5.8 to 50.9 %. The four-way interaction (temperature × moisture × slope × depth) significantly (p< 0.001) influenced both t1/2 and M T. Second-order polynomial equations best described the relations of temperature with t1/2 and MT as was expected from a biological system. However, the interaction and variability of t1/2 and MT among different temperatures, soil moistures, slope positions, and soil depth combinations indicates that the complex nature of these interacting factors should be considered when applying 2,4-D in agricultural fields and in utilizing these parameters in pesticide fate models.

Acknowledgement

Funding for this project was provided by the Natural Sciences and Engineering Council of Canada (NSERC) and through a University of Manitoba Graduate Fellowship (UMGF) awarded to Janna Shymko. The authors also acknowledge the laboratory assistance of David Cabanes, Université de Perpignan and Rob Ellis, technician, Department of Soil Science, University of Manitoba.

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