Sensitivity of the northwestern Mediterranean Sea coastal and thermohaline circulations simulated by the 1/12°-resolution ocean model NEMO-MED12 to the spatial and temporal resolution of atmospheric forcing. Lebeaupin Brossier, C., Béranger, K., & Drobinski, P. 43-44:94–107.
Sensitivity of the northwestern Mediterranean Sea coastal and thermohaline circulations simulated by the 1/12°-resolution ocean model NEMO-MED12 to the spatial and temporal resolution of atmospheric forcing [link]Paper  doi  abstract   bibtex   
The northwestern Mediterranean (NWM) Sea is prone to intense weather events, associated with high winds, that are characterized by strong shallow jets and a high spatial and temporal variability. The ocean response in this area is very sensitive to the atmospheric conditions, particularly in the Gulf of Lions coastal zone. The ocean response to strong winds is here investigated using the NEMO-MED12 eddy-resolving model, driven by four atmospheric forcings differing in spatial resolution (20km, 6.7km) and temporal resolution (daily or 3h) and produced with the non-hydrostratic mesoscale WRF model. The noticeable effects of the higher-frequency forcing are (i) to reduce the shelf dense-water formation and the deep offshore convection in winter due to the explicit simulation of the diurnal cycle that warms and stratifies the ocean upper layers and (ii) to increase the vertical velocity in the upwelling cells. The higher spatial resolution allows, in particular, the production of stronger winds and the accurate reproduction of the near-surface sub-mesoscale eddies in the coastal areas, in agreement with observations.
@article{lebeaupin_brossier_sensitivity_2012,
	title = {Sensitivity of the northwestern Mediterranean Sea coastal and thermohaline circulations simulated by the 1/12°-resolution ocean model {NEMO}-{MED}12 to the spatial and temporal resolution of atmospheric forcing},
	volume = {43-44},
	issn = {1463-5003},
	url = {http://www.sciencedirect.com/science/article/pii/S1463500311002046},
	doi = {10.1016/j.ocemod.2011.12.007},
	abstract = {The northwestern Mediterranean ({NWM}) Sea is prone to intense weather events, associated with high winds, that are characterized by strong shallow jets and a high spatial and temporal variability. The ocean response in this area is very sensitive to the atmospheric conditions, particularly in the Gulf of Lions coastal zone. The ocean response to strong winds is here investigated using the {NEMO}-{MED}12 eddy-resolving model, driven by four atmospheric forcings differing in spatial resolution (20km, 6.7km) and temporal resolution (daily or 3h) and produced with the non-hydrostratic mesoscale {WRF} model. The noticeable effects of the higher-frequency forcing are (i) to reduce the shelf dense-water formation and the deep offshore convection in winter due to the explicit simulation of the diurnal cycle that warms and stratifies the ocean upper layers and (ii) to increase the vertical velocity in the upwelling cells. The higher spatial resolution allows, in particular, the production of stronger winds and the accurate reproduction of the near-surface sub-mesoscale eddies in the coastal areas, in agreement with observations.},
	pages = {94--107},
	journaltitle = {Ocean Modelling},
	shortjournal = {Ocean Modelling},
	author = {Lebeaupin Brossier, Cindy and Béranger, Karine and Drobinski, Philippe},
	urldate = {2019-04-15},
	date = {2012-01-01},
	keywords = {Mediterranean Sea, Coastal circulation, Shelf dense-water, Upwelling, Winter deep convection}
}
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