Contrasting trends between extreme precipitation and floods in Mediterranean basins
Abstract
Floods have strong impacts in the Mediterranean region and there is a questioning about a possible increase in their intensity due to climate change. In this study, a large database of 171 basins located in South France with daily discharge data with a median record length of 45 years is considered to analyze flood trends and their drivers. In addition to discharge data, outputs of precipitation, temperature, evapotranspiration from the SAFRAN reanalysis and soil moisture computed with the ISBA land surface model are also analyzed. The evolution of land cover in these basins is checked using the CORINE database spanning between 1990 and 2018. The trends in floods above the 95th and 99th percentiles are detected by the Mann-Kendall test and quantile regression techniques. The results show that despite the increase in extreme precipitation reported by previous studies, there is no general tendency towards more severe floods. Only for a few basins, the intensity of the most extreme floods is showing significant upward trends. On the contrary, most trends are towards fewer annual flood occurrences above both the 95th and 99th percentiles for the majority of basins. The decrease in soil moisture seems to be an important driver for these trends, since in most basins increased temperature and evapotranspiration associated with a precipitation decreases are leading to a reduction of soil moisture. These results implies that the observed increase in the vulnerability to these flood events in the last decades is mostly caused by human factors such as increased urbanization and population growth rather than climatic factors.