Nature Run for the North Atlantic Ocean Hurricane Region: System Evaluation and Regional Applications

Vassiliki Kourafalou1, Ioannis Androulidakis1, George R Halliwell Jr2, HeeSook Kang1, Michael F Mehari3 and Robert M Atlas2, (1)University of Miami, Miami, FL, United States, (2)NOAA Miami, Miami, FL, United States, (3)Cooperative Institute for Marine and Atmospheric Studies Miami, NOAA/AOML/PhOD, Miami, FL, United States
Abstract:
A prototype ocean Observing System Simulation Experiments (OSSE) system, first developed and data validated in the Gulf of Mexico, has been applied on the extended North Atlantic Ocean hurricane region. The main objectives of this study are: a) to contribute toward a fully relocatable ocean OSSE system by expanding the Gulf of Mexico OSSE to the North Atlantic Ocean; b) demonstrate and quantify improvements in hurricane forecasting when the ocean component of coupled hurricane models is advanced through targeted observations and assimilation. The system is based on the Hybrid Coordinate Ocean Model (HYCOM) and has been applied on a 1/250 Mercator mesh for the free-running Nature Run (NR) and on a 1/120 Mercator mesh for the data assimilative forecast model (FM). A “fraternal twin” system is employed, using two different realizations for NR and FM, each configured to produce substantially different physics and truncation errors.

The NR has been evaluated using a variety of available observations, such as from AVISO, GDEM climatology and GHRSST observations, plus specific regional products (upper ocean profiles from air-borne instruments, surface velocity maps derived from the historical drifter data set and tropical cyclone heat potential maps derived from altimetry observations). The utility of the OSSE system to advance the knowledge of regional air-sea interaction processes related to hurricane activity is demonstrated in the Amazon region (salinity induced surface barrier layer) and the Gulf Stream region (hurricane impact on the Gulf Stream extension).