Impact of Long-Term Tillage Systems for Continuous Corn on Nitrate Leaching to Tile Drainage

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Impact of Long-Term Tillage Systems for Continuous Corn on Nitrate Leaching to Tile Drainage

G. W. Randall^* and T. K. Iragavarapu

University of Minnesota Southern Exp. Stn., 35838 120th Street, Waseca, MN 56093.

^{^*} Corresponding author (grandall{at}smaes.mes.umn.edu).

ABSTRACT

Information is lacking on the long-term impact of tillage systemson NO₃ losses to surface and groundwater. An 11-yr (1982–1992)study was conducted to assess NO₃ losses to subsurface, tiledrainage for corn (Zea mays L.) grown with continuous conventionaltillage (CT) and no tillage (NT) on a poorly drained Websterclay loam soil (fine-loamy, mixed, mesic Typic Haplaquoll) atWaseca, MN. Nitrogen was applied at an annual application rateof 200 kg ha^–1. Mean annual subsurface drain flow duringthe 11-yr period was 35 mm higher for NT (315 ram) comparedwith CT (280 mm). Flow-weighted nitrate-nitrogen (NO₃-N) concentrationsincreased dramatically in the wet years (1990 and 1991) followingthe dry period of 1987 to 1989. Flow-weighted NO₃-N concentrationsduring the 11-yr period averaged 13.4 and 12.0 mg L^–1for CT and NT, respectively. Although subsurface drain flowwas 12% higher with NT, NO₃-N losses were about 5% higher withCT mainly due to higher NO₃-N concentrations with CT in thelast 2 yr. Corn grain yields and N removal were significantlyhigher in 6 out of 11 yr with CT compared with NT with no differencebetween tillage systems in the other 5 yr. Grain yields averaged8.6 Mg ha^–1 with CT and 7.3 Mg ha^–1 with NT duringthe 11-yr period. Multiple regression equations showed thatannual flow-weighted NO₃-N concentration is best predicted fromresidual soil NO₃ in the 0- to 1.2-m profile and spring rainfallwhile NO₃-N flux can be predicted well from May and June rainfall.Results from this long-term study indicate that on this poorlydrained soil, CT had a positive effect on corn grain yield andN removal compared with NT, but tillage systems had minimalimpact on NO₃ losses to subsurface drain flow. Higher drainflow with NT does not necessarily result in higher NO₃-N fluxeslost via subsurface drainage.

NOTES

Contribution of the Minnesota Agric. Exp. Stn. Scientific J.Series Paper 21,087.

Received for publication April 1, 1994.

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				D. R. Huggins, G. W. Randall, and M. P. Russelle Subsurface Drain Losses of Water and Nitrate following Conversion of Perennials to Row Crops Agron. J., May 1, 2001; 93(3): 477 - 486. [Abstract] [Full Text] [PDF]

				G. W. Randall and D. J. Mulla Nitrate Nitrogen in Surface Waters as Influenced by Climatic Conditions and Agricultural Practices J. Environ. Qual., March 1, 2001; 30(2): 337 - 344. [Abstract] [Full Text] [PDF]