Wildfires have always been an integral part of the ecology of many terrestrial ecosystems, but their frequency is increasing in many parts of the world. Wildfires were once a natural phenomenon, but after humans learned to control fire, it has been used as a management tool to increase soil fertility, to regenerate natural vegetation for grazing and to control competing vegetation. However, currently uncontrolled wildfires threaten not only natural vegetation, landscape biodiversity, communities and economies, but they also release large amounts of carbon dioxide, thus contributing to global temperature increase. Higher temperatures and drier summers have increased the risk of wildfires in biodiversity rich areas of European Mediterranean countries and have resulted in human casualties. The aim of this article is to investigate whether agroforestry, the practice of integrating woody vegetation and agricultural crops and/or livestock, could be a management tool to reduce wildfires in European Mediterranean countries. Fire events from 2008 to 2017 and data of land cover and land use were spatially correlated. Results indicated that agroforestry areas had fewer wildfire incidents than forests, shrublands or grasslands, providing evidence of the potential of agroforestry to reduce fire risk and protect ecosystems.
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This research was realized within the AGFORWARD project (Grant Agreement No 613520) and has been co-funded by the European Commission, Directorate General for Research and Innovation, within the 7th Framework Programme of RTD, Theme 2—Biotechnologies, Agriculture and Food and by the Hellenic Ministry of Education, Research and Religion, General Secretariat for Research and Technology. Data were provided by the European Forest Fire Information System—EFFIS (https://effis.jrc.ec.europa.eu) of the European Commission Joint Research Centre.
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Damianidis, C., Santiago-Freijanes, J.J., den Herder, M. et al. Agroforestry as a sustainable land use option to reduce wildfires risk in European Mediterranean areas. Agroforest Syst (2020). https://doi.org/10.1007/s10457-020-00482-w
- Land uses
- Climate change
- Vegetation types