Your search keyword '"Abida, Rachid"' showing total 2 results

1. On the analysis of a summertime convective event in a hyperarid environment.

Author

Francis, Diana, Temimi, Marouane, Fonseca, Ricardo, Nelli, Narendra R., Abida, Rachid, Weston, Michael, and Whebe, Youssef

Subjects

MESOSCALE convective complexes, WEATHER forecasting, METEOROLOGICAL stations, METEOROLOGICAL research, ATMOSPHERIC temperature

Abstract

A summertime convective event that developed on 5 September 2017 over the United Arab Emirates (UAE) is investigated in this study. Atmospheric profiles from a ground‐based microwave radiometer along with satellite observations and in situ data from three weather stations in the UAE were used. The event was simulated using the Weather Research and Forecasting (WRF) model, forced with four input datasets: Global Forecast System (GFS), Climate Forecast System Reanalysis (CFSR), and the European Centre for Medium‐Range Weather Forecasts ERA‐5 and ERA‐Interim reanalyses. The afternoon and evening convection was triggered by the intrusion of a mid‐level trough from midlatitudes and was favoured by the convergence over land of thermally forced maritime air masses. Near‐surface observations at a weather station revealed a 7 °C drop in air temperature, a doubling of the wind speed to 9 m·s−1 in 30 min, and a shift in wind direction from easterly, to southerly and then westerly in about 45 min, associated with the passage of the cold pool emanating from a Mesoscale Convective System (MCS). At the location where the microwave radiometer was deployed, the pre‐squall low and wake low signatures are also captured, with a 5 m·s−1 increase in the wind speed in just 5 min. The observed features of the studied MCS were found to compare with those reported for MCSs in the Tropics. The four experiments gave a similar performance, although the GFS simulation generally generated higher skill scores. The investigated MCS event was not captured by WRF, which was attributed to a misrepresentation of soil moisture in the model. This study highlights the difficulties regional models like WRF may have in reproducing MCSs over arid/hyperarid regions, which may result in a misrepresentation of their impacts in climate projection studies. [ABSTRACT FROM AUTHOR]

Published

2021

2. The atmospheric controls of extreme convective events over the southern Arabian Peninsula during the spring season.

Author

Nelli, Narendra Reddy, Francis, Diana, Fonseca, Ricardo, Abida, Rachid, Weston, Michael, Wehbe, Youssef, and Al Hosary, Taha

Subjects

*MESOSCALE convective complexes, *SEASONS

Abstract

Mesoscale Convective Systems (MCSs) over the southern Arabian Peninsula are more common during the spring months of March and April. In this paper, the processes behind such severe convective events and their local-scale impacts are investigated using reanalysis data, satellite-derived and observational products. The analysis of 95 MCS events from 2000 to 2020 revealed that they are triggered by low-level wind convergence and moisture advection from the Arabian Sea, Arabian Gulf and/or Red Sea. An equatorward displacement and strengthening of the subtropical jet also precondition the environment, as does the presence of a mid-level trough. The latter is generally part of a large-scale pattern of anomalies that are equivalent barotropic in nature, and therefore likely a response to tropical or subtropical forcing. At more local-scale, a drying of the mid-troposphere between 850 and 250 hPa typically by 50%, a reduction of the upper-level winds by about 5 m s−1, and an increase in the upper-tropospheric temperature on average by 2–3 K, are typically observed during MCS events. Over the 21-year period, a statistically significant increase in the MCSs' duration over southeast Arabian Peninsula has been found, suggesting that such extreme events may be even more impactful in a warming world. • MCSs over the southern Arabian Peninsula occur more frequently in March and April months. • Preconditioning and triggering processes for MCSs over this region are investigated. • Over the 20-year period, MCSs have been lasting longer over the UAE. [ABSTRACT FROM AUTHOR]

Published

2021