Overland Flow n Once rainfall exceeds infiltration, water begins to flow. –Clay is hard to pick up due to cohesion. –Sand is hard to pick up due to size. n Most of the sediment in sheet flow comes from rain detachment. n THIS IS WHY COVERING THE SOIL IS SO EFFECTIVE! NCSU Soil Science R. A. McLaughlin
Rills Starting… NCSU Soil Science R. A. McLaughlin
Flow Along Waterway NCSU Soil Science R. A. McLaughlin
Formation of Rills n Water begins to collect near the top of the slope. n Rills generally deepen downslope. –Flow itself results in erosion. –Headcutting moves upslope. n Sediment comes into the rill from overland flow. NCSU Soil Science R. A. McLaughlin
Rills With Sandy Deposits NCSU Soil Science R. A. McLaughlin
Overland vs. Rills n Studies have shown that both erosion processes are important. n Relative importance depends on soil, slope, and storm intensity. n Rills can carry large materials. NCSU Soil Science R. A. McLaughlin
Gully Formation Overland or Rill Flow NCSU Soil Science R. A. McLaughlin
Gully Formation Nick or depression forms NCSU Soil Science R. A. McLaughlin
Gully Formation Headwall forms NCSU Soil Science R. A. McLaughlin
Gully Formation Scouring at headwall base Headwall retreats by undermining and collapse. NCSU Soil Science R. A. McLaughlin
Gully Formation: Piping Water emerges at slope base, then erodes upslope. Restricting layer forces percolating water along slope. NCSU Soil Science R. A. McLaughlin
Gully After One Storm NCSU Soil Science R. A. McLaughlin
Headwall retreat continues… NCSU Soil Science R. A. McLaughlin
Note Headwall Scouring…Nothing to Stop It! NCSU Soil Science R. A. McLaughlin
Gullies Form Even in Flat, Sandy Soil NCSU Soil Science R. A. McLaughlin