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Runoff Nutrient Transport as Affected by Land Application Method, Swine Growth Stage, and Runoff Rate

Published by the American Society of Agricultural and Biological Engineers, St. Joseph, Michigan

Citation:  Transactions of the ASABE. 56(6): 1295-1303. (doi: 10.13031/trans.56.10146) @2013
Authors:   John E. Gilley, Shannon L. Bartelt-Hunt, Seth J. Lamb, Xu Li, David B. Marx, Daniel D. Snow, David B. Parker, Bryan L. Woodbury
Keywords:   Land application, Manure management, Manure runoff, Nitrogen, Nutrients, Phosphorus, Runoff, Soil loss, Swine manure, Water quality.

Abstract. This study was conducted to measure the effects of slurry application method, swine growth stage, and flow rate on runoff nutrient transport. Swine slurry was obtained from production units containing grower pigs, finisher pigs, or sows and gilts. The swine slurry was applied using broadcast, disk, or injection methods at a rate required to meet annual nitrogen requirements for corn. Three 30 min simulated rainfall events, separated by 24 h intervals, were applied to the experimental plots at an intensity of 70 mm h-1. Inflow was applied at the top of each plot in four successive increments after the third rainfall simulation run to simulate greater plot lengths. The dissolved phosphorus (DP) load of 0.20 kg ha-1 obtained on the broadcast treatment was significantly greater than the 0.11 and 0.08 kg ha-1 measured on the disk and injected treatments, respectively. The DP runoff load of 0.17 kg ha-1 measured for the sows and gilts treatment was significantly greater than the 0.11 kg ha-1 obtained for the finisher treatment. In contrast, the NH4-N load of 0.70 kg ha-1 obtained on the finisher treatment was significantly greater than the 0.32 kg ha-1 measured on the grower treatment and the sows and gilts treatment. Runoff rate was an important variable significantly influencing each of the measured water quality parameters. Runoff loads of DP, total phosphorus, NO3-N, and total nitrogen increased from 8.4 to 40.1, from 101 to 659, from 420 to 2470, and from 470 to 2850 g ha-1 min-1, respectively, as runoff rate increased from 3.2 to 21.2 L min-1.

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