Equations used to calculate erodibility in the Water Erosion Prediction Pro
ject soil erosion model (WEPP) are based on erodibility studies in the USA
and may not function well in another region. This study was conducted to: (
i) analyze erodibility and infiltration characteristics of some predominant
soils of southern Spain, and (ii) test equations used to calculate interri
ll erodibility in the WEPP model on these soils. The five soils chosen for
this study in Andalusia, southwest Spain, were: two terrace soils (referred
to as 'Red and Yellow Alfisols'), an alluvial soil ('Fluvent'), a shallow
hillside soil ('Inceptisol'), and a cracking clay soil ('Vertisol'). A stat
ic, solenoid operated rainfall simulator was operated at an intensity of ap
proximately 60 mm h(-1) during a 60-min dry run followed by a 30-min wet ru
n the next day on 0.75 m(2) plots with 30% ridge slopes. Infiltration rates
were high (always exceeding 50% except for the wet run of the Fluvent). Th
e Fluvent had the lowest infiltration rate (0.00 mm min(-1) at the end of t
he wet run) and highest soil loss (985 g m(-2) h(-1) in the dry run and 155
7 g m(-2) h(-1) in the wet run). The Vertisol, Inceptisol and Red Alfisol h
ad low soil loss (415, 605, and 527 g m(-2) h(-1) in the dry run and 824, 7
62 and 629 g m(-2) h(-1) in the wet run, respectively). Soil loss of the Ve
rtisol doubled between dry and wet run and infiltration rate did not stabil
ize, suggesting that erodibility of Vertisols increases when they are wet.
The Yellow Alfisol had lower final infiltration rate in the dry run (0.33 m
m min(-1)) than in the wet run (0.58 mm min(-1)) and higher soil loss in dr
y run (1203 g m(-2) h(-1))than in wet run (961 g m(-2) h(-1)), the reason s
till being unclear. Soil loss was significantly correlated to silt + very f
ine sand content (r = 0.96), indicating that erodibility of these soils is
determined by similar properties as soils in these soil orders in the USA.
However, the equation for WEPP-interrill erodibility overestimated erodibil
ity significantly (two to four times), indicating the need to develop new e
rodibility equations for the Mediterranean region. Infiltration rates were
generally high and soil loss rates low compared to reports from the USA, su
ggesting that limited runoff generation is a primary reason for low erodibi
lity of these soils. (C) 2001 Elsevier Science B.V. All rights reserved.