Abstract
Runoff and soil loss were measured from simulated rainfall applied to a Catlin silt loam soil at two crop stages during four growing seasons in a corn soybean rotation implemented on the contour and up-and-down slope. Runoff depth, runoff rate, soil loss/ha, and soil loss/ha-mm of runoff varied significantly by crop stage and by year. Runoff depth and runoff rate were correlated with variations in antecedent rainfall, soil moisture, residue, and canopy. Soil loss/ha from soybeans and soil loss/ha-mm of runoff from corn varied by as much as a factor of four from one year to another. Much of the variation in soil loss appeared to be related to variations in runoff, slope steepness, and antecedent rainfall. Soil loss/ha-mm of runoff 30 to 40 days after planting corn was significantly different across years for both row directions. In six of eight comparisons for soybeans, soil loss/ha-mm of runoff from simulated rainfall was not statistically different than from an eight-year study under natural rainfall. Nevertheless, this study indicates that results from one-time rainfall simulation may not represent the long term average for a soil.
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