Rainfall Intensity Affects Transport of Water and Chemicals through Macropores in No-Till Soil

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Rainfall Intensity Affects Transport of Water and Chemicals through Macropores in No-Till Soil

W. M. Edwards^*, M. J. Shipitalo and L. B. Owens

USDA-ARS, North Appalachian Experimental Watershed, P.O. Box 478, Coshocton, OH 43812

W. A. Dick

Ohio State Univ., Ohio Agricultural Research and Development Center, Dep. of Agronomy, Wooster, OH 44691. Joint contribution of the USDA-ARS and OSU-OARDC.

ABSTRACT

Water that infiltrates through cropland soils can carry agriculturalchemicals through and below the root zone, possibly reachinggroundwater. We investigated the effect of rainfall intensityon movement of water and chemicals through no-till soil containingearthworm (Lumbricus terrestris L.) burrows and other macropores.Nine 30 by 30 by 30 cm blocks of soil from the surface of ano-till corn (Zea mays L.) field received a surface applicationof 7.7 kg ha^-1 atrazine (2-chloro-4-ethylamino-6-isopropylamino-s-triazine)and 105 kg ha^-1 SrBr₂·6H₂O and were subjected to simulatedrainfall treatments of 30 mm (2700 mL) of water applied in 15-,30-, or 120-min periods. Percolation through the blocks duringand after the rainfall treatments was collected in 64 3.75 by3.75 cm cells at the base of each block. Average time to startof percolation was 2.2, 4.4, and 51.5 min for the 15-, 30-,and 120-min rainfall treatments, respectively. For the sametreatments, percolation volumes averaged 468, 334, and 33 mLblock^-1. Of the 64 possible percolation sampling cells, theaverage number of cells that collected percolate was 13.3 forthe fast, 5.3 for the medium, and 3.3 for the slow treatments.The largest percolate sample for each block averaged 34, 60,and 51% of the total percolate for these intensity rates, emphasizingthe lack of homogeneous flow through soils containing macropores.Average concentration of atrazine in the percolate ranged between7 and 9 mg L^-1 and was not affected by rainfall intensity. Asecond 30-min-intensity storm was applied 1 wk later to allblocks, producing more percolate with lower chemical concentrations.Transport of each chemical was dominated by percolate volumerather than by rainfall intensity.

NOTES

^* Corresponding author.

Received for publication May 7, 1991.

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