Spatial and temporal patterns, trends and teleconnection of cumulative rainfall deficits across Central America

Central America is a region vulnerable to hydrometeorological threats. Recently, the impacts of droughts caused higher economic losses in comparison to, for example, floods and landslides. This study focuses on the spatio-temporal behaviour of cumulative rainfall deficits across Central America attempting to provide an historical context to the most recent drought episodes. We developed a long-term (1950-2014), monthly rainfall data set that merged large-scale interpolated products with a station observation network to spatially and temporally evaluate the 12-month Standardized Precipitation Index (SPI12) across the region. We found that El Nino cannot always be associated with drier conditions and that severe droughts are likely to spatially develop from localized phenomena to cover the entire region beyond the Central American drought corridor (CADC). Furthermore, there is not always a clear separation into the Pacific and Caribbean domain in terms of drought behaviour, but generally El Nino episodes can be associated with drier conditions on the Pacific slope and wetter conditions in the Caribbean. We could also show that trends in the SPI series are spatially variable and that more localized significant positive and negative trends exist throughout Central America. For example, central pacific Nicaragua was identified as a hot spot for significant drying conditions related to El Nino. We aim at developing this effort into a nearreal time and publicly available drought monitor in the near future to increase resilience and adaption efforts in the region.