Water Infiltration after Prescribed Fire and Soil Mulching with Fern in Mediterranean Forests

Bruno Gianmarco Carrà,Manuel Esteban Lucas-Borja,Pietro Denisi,Pedro Antonio Plaza-Àlvarez,Giuseppe Bombino,Demetrio Antonio Zema

doi:10.3390/hydrology8030095

Bruno Gianmarco Carrà, Manuel Esteban Lucas-Borja + Show 4 more

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https://doi.org/10.3390/hydrology8030095

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Abstract

Prescribed fire is commonly used to reduce the wildfire risk in Mediterranean forests, but the soil’s hydrological response after fire is contrasting in literature experiences. The mulch treatment can limit the increases in runoff and erosion in the short term after a fire. The use of fern is preferable to straw, due its large availability in forests. However, no experiences of post-fire treatment with fern mulch have been found in the literature and therefore the mulching effectiveness has not been evaluated. This study has measured water infiltration rate (IR) and water repellency (SWR) using a rainfall simulator in three Mediterranean forest stands (pine, oak and chestnut) of Calabria (Southern Italy) after a prescribed fire and mulching treatment with fern in comparison to unburned soil. Prescribed fire reduced water infiltration in all forests in the short term compared to the unburned conditions, and increased SWR in pine and oak forests. These reductions in IR in the time window of disturbance after fire increased the runoff generation capacity in all soils, but had a lower effect on peak flows. However, soil mulching with fern limited the runoff rates and peak flows compared to the burned soils, but this treatment was less effective in pine forest. One year after fire, IR increased in burned soils (treated or not) over time, and SWR disappeared. The effects of mulching have disappeared after some months from fire. The study confirms the usefulness of mulching in broadleaves forest in the short term, in order to control the hydrological effects of prescribed fire in Mediterranean forests. Both post-fire management techniques should be instead adopted with caution in conifer forests.

Highlights

Prescribed fire is the planned use of low-intensity fire to achieve very different goals given certain weather, fuel and topographic conditions [1,2]
This study evaluates the surface hydrology of three Mediterranean forest stands in Calabria (Southern Italy) after a prescribed fire and mulching treatment with fern in comparison to unburned soil
We aimed to test if: (i) water infiltration is significantly reduced by fire in the short term, but the mulch cover with fern can limit this decrease, and (ii) soil water repellency (SWR) can affect forest soil immediately after fire, but its effect is temporary, since it disappears after some months

Summary

Introduction

Prescribed fire is the planned use of low-intensity fire to achieve very different goals given certain weather, fuel and topographic conditions [1,2]. This management tool has been adopted for long time in many countries under different climatic conditions (e.g., Mediterranean ecosystems) to mitigate the impact of large-scale wildfire in forested environments [3]. Prescribed fires are usually of a low intensity and their effects depend on the type and amount of fuel load and soil moisture [2,7]. The forest areas, where fire is applied in each operation, are variable in size, and depend on the topographic and climatic conditions [8]

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