%A Ramos,Alexandre M. %A Cortesi,Nicola %A Trigo,Ricardo M. %D 2014 %J Frontiers in Earth Science %C %F %G English %K circulation weather types,daily gridded precipitation,Iberian Peninsula,spatial variability,seasonal variability %Q %R 10.3389/feart.2014.00025 %W %L %M %P %7 %8 2014-October-13 %9 Original Research %+ Dr Alexandre M. Ramos,Instituto Dom Luiz, Faculdade de Ciências, Universidade de Lisboa,Lisboa, Portugal,alexandre.ramos@kit.edu %# %! Circulation types and spatial variability of precipitation in the Iberia %* %< %T Circulation weather types and spatial variability of daily precipitation in the Iberian Peninsula %U https://www.frontiersin.org/articles/10.3389/feart.2014.00025 %V 2 %0 JOURNAL ARTICLE %@ 2296-6463 %X The relationships between atmospheric circulation patterns and daily Iberian rainfall are here explored at high spatial resolution (0.2°) using the Jenkinson and Collison automated classification scheme with 26 Weather Types (WTs). The WTs were computed by means of the daily EMULATE Mean Sea Level Pressure dataset (EMSLP) while the high resolution precipitation database corresponds to the recent Iberia02 daily gridded precipitation dataset over the 1950–2003 period. Six monthly indexes relating the WTs and precipitation were analyzed: their Frequency, the Mean Precipitation, the Percentage Contribution, the Area of Influence, the Precipitation Intensity, and Efficiency. Except for the Frequency of the WTs, all other indexes were evaluated studying their spatial distribution over the Iberian Peninsula, focusing on a WT and a month at time. A small number of WTs (7) was found to capture a high percentage (~70%) of monthly Iberian precipitation. The Westerly WT is the most influent one, followed by the Cyclonic, the Northwesterly and the Southwesterly WTs. Westerly flows, however, do not affect the Mediterranean fringe or the Cantabrian coast, which are dominated by the Easterly and Northerly WTs, respectively. Rainfall along the Mediterranean coastline and the Ebro basin depends on a variety of WTs, but their effects are confined to narrow areas and short temporal intervals, suggesting that local factors such as convective processes, orography and the proximity to a warm water body could play a major role in precipitation processes. We show that the use of daily gridded precipitation dataset holds the advantage of measuring the daily rainfall amount due to each WT directly instead to relying on the predicted values of the regression model as done in previous works.