The interactions of a turbulent wind with a water surface represents a very fundamental problem for many atmospheric processes.
The momentum and heat exchanges across the interface with oceans abruptly affects the atmosphere and the understanding of the driving mechanisms would certainly improve weather predictions capabilities. However, after decades of research efforts, the wind-wave problem is still recognized as extremely elusive. The reason is the multiscale and multiphysical nature of the phenomena involved. Indeed, the scales of the turbulent wind are significantly affected by the smaller scales of the water waves which in turn are influenced by the structure of the turbulent wind itself thus forming a complex multiscale coupling phenomenon. Furthermore,
processes of different nature are involved (e.g chemistry, biology, radiation etc) thus further increasing the complexity of the multiscale wind-wave interactions due to multiphysics. The SEAPLANE project aims to address these issues by using innovative statistical tools and advanced modeling approaches.