Tillage Erosion: An Overview

M J Lindstrom; D A Lobb; T E Schumacher

doi:10.56093/aaz.v40i3.65821

Authors

M J Lindstrom USDA-Agricultural Research Service, North Central Soil Conservation Research Laboratory, Morris, MN, USA
D A Lobb Department of Soil Science, University of Manitoba, Winnipeg, MB, Canada
T E Schumacher Department of Plant Science, South Dakota State University, Brookings, SD, USA

https://doi.org/10.56093/aaz.v40i3.65821

Abstract

Soil redistribution by tillage is becoming a recognized soil erosion process. Landscapes subject to tillage erosion are topographically complex or have a high number Â·of field boundaries. Tillage erosion contributes to the evolution of landscape heterogeneity through creation of distinct landforms and the relatively rapid redistribution of soils from upland positions to depressions. The resultant variability in soil properties has an important effect on crop production. Our objective is to provide a basic understanding of tillage erosion by describing the tillage erosion process and to . discuss the effect of tillage erosion on soil properties 'and s~il producti~ity, and interaction with water erosion. A brief discussion is included on the subject of future research needs. A soil transport coefficient (k)Â· has been' determined as k = -Dpbp; where D is tillage depth (m), pb is the soil bulk density (kg m-\ and .p is the slope of the linear regression equation of the relationship between soil di,splacement and slope gradien't. This k-value effectively describes soil transport as a function of slope gradient for a variety of tillage operations; however, the gain or ioss in soil mass at any point on the landscape is proportional to hillslope curvature. That is, soil 'loss from tillage op~ration williake' place' on convexities and upper field boundaries, while soil deposition occurs on concavities and lower field, boundaries. Soil loss from tillage operations can commonly be greater than what is considered sustainable. As soil is. removed from upslope field boundaries or convex slope positions, subsurface soil horizons become exposed. The exposure and subsequent dispersion of this subsoil material, in addition to soil accu~ulation at lower slope positions, alters soil properties and introduces greater v'ariation in soilÂ· properties over the landscape. The recognition of soil translocation by tillage I and its subsequ~nt effect on soil properties and variability presents co~siderable challenges. Sdil conservation strategies must be broad~ned to include tillage erosion to be fully effective.