4.7 Article

Spatio-temporal assessment of soil properties immediately and eight months after a high intensity-controlled burn in the south of Spain

Journal

SCIENCE OF THE TOTAL ENVIRONMENT
Volume 898, Issue -, Pages -

Publisher

ELSEVIER
DOI: 10.1016/j.scitotenv.2023.165368

Keywords

Soil properties; Prescribed fire; Fire; Ecosystem services; Soil functionality; Forest management

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In recent years, controlled burns have become more frequent in Europe as a means of managing forest ecosystems. This study evaluated the main alterations in soil properties caused by a high intensity-controlled burn in Los Boquerones area in Spain. The results showed that the burn significantly affected soil pH, nutrient availability, and soil microorganisms.
In recent years, the use of fire as a means by which to manage forest ecosystems has become more frequent in Europe. Fire has a significant impact on the soil, and it is therefore necessary to understand how controlled burns affect this invaluable resource. The purpose of this study was to evaluate the main alterations in the physical-chemical and biological properties of the soil because of a high intensity-controlled burn in Los Boquerones area (Villaviciosa de Cordoba, Spain). Additionally, we assessed the spatial heterogeneity of the alterations of different soil properties. A grid of 12 points was established on a hillside in Sierra Morena (Cordoba). Thermocouples were placed at each point, and soil samples were collected at two depths (0-2 cm and 2-5 cm) before burning, immediately after burning and eight months later. Soil pH, electrical conductivity, nutrient content and/or availability, among others, and their spatio-temporal variations were analysed. Soil pH, increased in the first centimetres of the soil (0-2 cm) immediately after burning up to >2 units, and the increase was maintained eight months following the burn. Additionally, the highintensity burn had a positive short-term effect on some of the soil properties, such as nutrient availability for plants, which was considerably increased. The magnitude of the alterations in the soil indicators assessed was spatially explained by the behaviour of the fire during the controlled burning. The burn also had both direct and indirect effects on soil microorganisms. In conclusion, the possible immediate and short-term effects of burning on the soil resource should be considered for a more holistic management of fire in forest ecosystems, as its functionality and capacity to provide ecosystem services is largely altered by these events as a function of their intensity.

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