The Bora is a cold, strong, low level wind which blows from the northeast along the Adriatic coast (Ivan?an-Picek and Tuti?, 1996, Lazi? and To?i?, 1998, Morelli and Berni, 2002). Bora wind is known to have multiple surface wind jets linked to the orography of the Dinaric Alps and alters significantly the sea status (Cesini et al, 2004). A recent version of the Eta model (Mesinger et al, 2012), which is a three-dimensional, primitive equation, grid-point model, was used to represent the low level wind field corresponding to the Bora event occurred at the beginning of February 2012. Numerical simulations were performed with different horizontal resolutions (approximately 20 km and 4 km) and domain extent. A couple of ASAR/Envisat images gathered on 2 and 5 February were considered as reference with the objective to assess how well the Eta model can represent the detailed spatial structure of the Bora wind over the sea surface. In addition, the wind speed and direction was estimated on the ASAR images and compared with Eta predictions at similar horizontal resolution. Wind directions were obtained by exploiting a novel technique based on the use of 2D continuous wavelets (Zecchetto and De Biasio, 2001, 2008). Then, the retrieved wind directions were used to estimate the wind speed from the ASAR NRCS by inverting the semi-empirical backscatter model CMOD-5 (Hersbach, 2005). The ASAR observed morphology, wake patterns and, where present, dual-jet structure of the Bora wind were analysed for each event at the two different Eta resolution scales.
Combined observations of a Bora event in the Adriatic Sea by means of ETA model and SAR data
Adamo Maria;Giacomo De Carolis;
2013
Abstract
The Bora is a cold, strong, low level wind which blows from the northeast along the Adriatic coast (Ivan?an-Picek and Tuti?, 1996, Lazi? and To?i?, 1998, Morelli and Berni, 2002). Bora wind is known to have multiple surface wind jets linked to the orography of the Dinaric Alps and alters significantly the sea status (Cesini et al, 2004). A recent version of the Eta model (Mesinger et al, 2012), which is a three-dimensional, primitive equation, grid-point model, was used to represent the low level wind field corresponding to the Bora event occurred at the beginning of February 2012. Numerical simulations were performed with different horizontal resolutions (approximately 20 km and 4 km) and domain extent. A couple of ASAR/Envisat images gathered on 2 and 5 February were considered as reference with the objective to assess how well the Eta model can represent the detailed spatial structure of the Bora wind over the sea surface. In addition, the wind speed and direction was estimated on the ASAR images and compared with Eta predictions at similar horizontal resolution. Wind directions were obtained by exploiting a novel technique based on the use of 2D continuous wavelets (Zecchetto and De Biasio, 2001, 2008). Then, the retrieved wind directions were used to estimate the wind speed from the ASAR NRCS by inverting the semi-empirical backscatter model CMOD-5 (Hersbach, 2005). The ASAR observed morphology, wake patterns and, where present, dual-jet structure of the Bora wind were analysed for each event at the two different Eta resolution scales.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.