Hydro-Meteorology Research (HMR) is an area of critical scientific importance and of high societal relevance. It plays a key role in guiding predictions relevant to the safety and prosperity of humans and ecosystems from highly urbanized areas, to coastal zones, and to agricultural landscapes. Of special interest and urgency within HMR is the problem of understanding and predicting the impacts of severe hydro-meteorological events, such as flash-floods and landslides in complex orography areas, on humans and the environment, under increasing climate change effects.
Building on existing but regional projects such as the EU-funded DRIHM project (Distributed Research Infrastructure for Hydro-Meteorology) and the US-funded CESM project (Community Earth System Model), the DRIHM2US project will help in understanding the utilization of e-Infrastructures for advancing scientific collaboration on both sides of the Atlantic towards improving the predictive ability of severe storms and utilization of these predictions for hazard prediction and control under climate change effects. As such, HMR serves as a key example for the utilization of e-Infrastructures in Advancing Science of Service to Society and can be a lighthouse for broader directions within HMR and for other scientific disciplines.
Along these lines DRIHM2US will promote international cooperation between Europe and the USA for the development of a joint/common e-Infrastructure using Hydro-Meteorology Research (HMR) as an example, to ensure persistent availability and effective sharing of data and models across scientific disciplines, institutions, and national boundaries, specifically across the Atlantic.