Knowledge of the aerodynamic roughness length (Z(0)) resulting from managem
ent practices that include soil clods, vegetation, and ridges is essential
to describing their protective roles in wind erosion. The usual method of o
btaining Z(0) from a logarithmic wind profile has limited accuracy because
the probes used to measure wind profiles do not reveal well the subtle char
acteristics of the very near-surface airflow. To evaluate the roughness pro
perties of soil clods in this study, Z(0) is derived by direct measurement
of the drag on cloddy surfaces. Z(0) values, in response to different wind
velocities and artificial soil clod coverage, were obtained in a wind tunne
l. Z(0) was found to be the function of both clod coverage and wind velocit
y increasing with clod coverage by a function of Z(0) = a + bS(c)lnS(c)(R-2
> 0.81, P < 0.001) and decreasing with wind velocity by a function of Z(0)
= c + d exp (-V/k) (R-2 > 0.68, P < 0.001), where S-c and V are clod cover
age and wind velocity and a, b, c, d, and k are regression constants. A mul
tivariate predictive equation was developed by regressing Z(0) on S-c and V
. The predicted values matched those from the wind tunnel reasonably well (
R-2 = 0.92). These results demonstrate a need for distinguishing the concep
t of aerodynamic roughness that is a dynamic dimension of the interaction b
etween near-surface airflow and surface rougher than that of surface roughn
ess that is dependent exclusively on surface conditions.