Rainfall erosivity and rainfall return period in the experimental watershed of Aracruz, in the coastal plain of Espirito Santo, Brazil

Sérgio Gualberto Martins,Marx Leandro Naves Silva,Sebastião Fonseca,Nilton Curi,Junior Cesar Avanzi,Lloyd Darrell Norton

doi:10.1590/s0100-06832010000300042

Sérgio Gualberto Martins, Marx Leandro Naves Silva + Show 4 more

Open Access

https://doi.org/10.1590/s0100-06832010000300042

Copy DOI

Abstract

Knowledge on the factors influencing water erosion is fundamental for the choice of the best land use practices. Rainfall, expressed by rainfall erosivity, is one of the most important factors of water erosion. The objective of this study was to determine rainfall erosivity and the return period of rainfall in the Coastal Plains region, near Aracruz, a town in the state of Espírito Santo, Brazil, based on available data. Rainfall erosivity was calculated based on historic rainfall data, collected from January 1998 to July 2004 at 5 min intervals, by automatic weather stations of the Aracruz Cellulose S.A company. A linear regression with individual rainfall and erosivity data was fit to obtain an equation that allowed data extrapolation to calculate individual erosivity for a 30-year period. Based on this data the annual average rainfall erosivity in Aracruz was 8,536 MJ mm ha-1 h-1 yr-1. Of the total annual rainfall erosivity 85 % was observed in the most critical period October to March. Annual erosive rains accounted for 38 % of the events causing erosion, although the runoff volume represented 88 % of the total. The annual average rainfall erosivity return period was estimated to be 3.4 years.

Highlights

Rainfall erosivity is the most important factor involved in soil erosion caused by water
Rainfall erosivity is represented by the R factor in the Universal Soil Loss Equation (USLE) and it is expressed by EI30 parameter
The average rainfall in this period was 1,189 mm and erosive rainfalls accounted for 1,041 mm (Figure 1b)

Summary

Introduction

Rainfall erosivity is the most important factor involved in soil erosion caused by water. Rainfall erosivity is represented by the R factor in the Universal Soil Loss Equation (USLE) and it is expressed by EI30 parameter. This represents the product of the raindrop impact kinetic energy (E) and maximum 30 min rainfall intensity (I30) (Wischmeier & Smith, 1978). The relationship of rainfall intensity and raindrop size distribution is the basis for the equations originally proposed by Wischmeier & Smith (1958). This ratio indicates the erosive effect of raindrop impact and runoff (Lal, 1988). Natural rainfall has significant variability according to the large local variations in physical characteristics

Objectives

Methods

Results

Conclusion