Seasonal changes in the soil hydrological and erosive response depending on aspect, vegetation type and soil water repellency in different Mediterranean microenvironments

M A Gabarrón-Galeote,J F Martínez-Murillo,M A Quesada,J D Ruiz-Sinoga

doi:10.5194/se-4-497-2013

M A Gabarrón-Galeote, J F Martínez-Murillo + Show 2 more

Open Access

https://doi.org/10.5194/se-4-497-2013

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Abstract

Abstract. Mediterranean areas are characterized by a strong spatial variability that makes the soil hydrological response highly complex. Moreover, Mediterranean climate has marked seasons that provoke dramatic changes on soil properties determining the runoff rates, such as soil water content or soil water repellency (SWR). Thus, soil hydrological and erosive response in Mediterranean areas can be highly time- as well as space-dependant. This study shows SWR, aspect and vegetation as factors of the soil hydrological and erosive response. Erosion plots were set up in the north- and the south-facing hillslope and rainfall, runoff, sediments and SWR were monitored. Soil water repellency showed a seasonal behaviour and it was presented in three out of four microenvironments after the summer, disappearing in the wet season. In general, runoff rate was higher in shrubs patches (0.47 ± 0.67 mm) than in inter-shrub soils (1.54 ± 2.14 mm), but it changed seasonally in different ways, depending on the aspect considered, decreasing in the north-facing hillslope and increasing in the south-facing one. The main factor determining the hydrological and erosive response was the rainfall intensity, regardless of the rainfall depth of the event. This response was modulated mainly by SWR in the north-facing hillslope and the vegetation pattern in the south-facing one.

Highlights

It has been widely accepted that the infiltration capacity of soils is higher under dry conditions, owing to the higher matric suction and the action of capillarity forces (Cerdà, 1998; Beven, 2001)
This study shows soil water repellency (SWR), aspect and vegetation as factors of the soil hydrological and erosive response
Areas with extensive vegetation cover are characterized by an association of Cambisol and Eutric Regosol soils, whereas in the most degraded areas the soils are Episkeletic Cambisols associated with Haplic Epileptic–Episkeletic Regosols and Eutric Leptosols (IUSS Working Group WRB, 2006) (Gabarrón-Galeote et al, 2013)

Summary

Introduction

It has been widely accepted that the infiltration capacity of soils is higher under dry conditions, owing to the higher matric suction and the action of capillarity forces (Cerdà, 1998; Beven, 2001) This has been demonstrated by means of experiments and measurements in contrasted seasonal climates such as the Mediterranean (Cerdà, 1996, 1997a, 1999). Mediterranean climate is characterized by a threemonth-long summer drought, between June and September This prolonged dry period reduces soil moisture to the point where water repellency is triggered (Dekker et al, 2001; Mataix-Solera and Doerr; 2004; Verheijen and Cammeraat, 2007; Martínez-Murillo and Ruiz-Sinoga, 2010; Prats et al, 2013; Martínez-Murillo et al, 2013).

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