Fennec - The Saharan Climate System
Lead Research Organisation:
University of Sussex
Department Name: Sch of Global Studies
Abstract
The central Sahara has one of the most extreme climates on Earth. During the northern summer months, a large low pressure system caused by intense sunshine develops over a huge, largely uninhabited expanse of northern Mali, southern Algeria and eastern Mauritania. Temperatures in the high 40s are normal and uplift of dry air through more than 6000m of the atmosphere is routine in what is thought to be the deepest such layer on the planet. This large zone is also where the thickest layer of dust anywhere in the Earth's atmosphere is to be found. Although the central Sahara is extremely remote, it turns out to be vitally important to the world's weather and climate. The large low pressure system drives the West African Monsoon and the dry, dusty air layers are closely related to the tropical cyclones which form over the Atlantic Ocean. Likewise, the dusty air has a strong influence on the way the atmosphere is heated, a process which is poorly understood. It is not surprising that the models we use to predict weather and climate and which are a crucial tool for understanding how the atmosphere works, all have problems in dealing with the central Sahara. Insights into how the climate system works, improving the models and therefore the predictions have all been held back in the case of the Sahara by a lack of measurements of the atmosphere and the processes that make dust and extreme weather. This will always be the case until a team goes to the central Sahara and makes these measurements. A key part of this proposal aims to do just that. We want to set up an array of special instruments, at the surface in two carefully chosen places in the central Sahara, which will monitor the winds, temperatures, dust and so on for an entire year. We will add to this collection for a shorter period of even more intense measurements during the core summer month of June. We plan also to fly a instruments attached to an aeroplane overhead the surface array and across the desert so that we can get an idea of the structure of the atmosphere and how it changes through the day. To find out how dust storms work, we will leave 10 weather stations at places where we think dust storms happen frequently. Satellites play an essential role in measuring weather and climate and are especially useful in remote places. The best available information from satellites will help to quantify how weather and climate works in the Sahara. We also expect to improve the way the satellites are able to make their measurements too. Because models are so important to understanding and predicting weather, we will make heavy use of them in this work. We want to know how well the models work over the Sahara and what can be done to improve them. We are especially interested in seeing whether the models work better if we allow them to deal with small parts of the climate system or whether we can still represent extreme places in the Sahara by ignoring these details in the models.
Organisations
People |
ORCID iD |
Martin Todd (Principal Investigator) |
Publications
Alamirew N
(2018)
The early summertime Saharan heat low: sensitivity of the radiation budget and atmospheric heating to water vapour and dust aerosol
in Atmospheric Chemistry and Physics
Alamirew Netsanet
(2018)
Comprehensive analysis of thermodynamics, dynamics and associated variability
Chédin A
(2020)
Contribution of IASI to the Observation of Dust Aerosol Emissions (Morning and Nighttime) Over the Sahara Desert
in Journal of Geophysical Research: Atmospheres
Engelstaedter S
(2015)
The Saharan heat low and moisture transport pathways in the central Sahara-Multiaircraft observations and Africa-LAM evaluation
in Journal of Geophysical Research: Atmospheres
Englehardt S
(2013)
Water Surface Topography Retrieved from Color Images*
in Journal of Atmospheric and Oceanic Technology
Gross A
(2015)
Variability in Sources and Concentrations of Saharan Dust Phosphorus over the Atlantic Ocean
in Environmental Science & Technology Letters
Knippertz P
(2012)
Mineral dust aerosols over the Sahara: Meteorological controls on emission and transport and implications for modeling
in Reviews of Geophysics
Marsham J
(2016)
The contrasting roles of water and dust in controlling daily variations in radiative heating of the summertime Saharan heat low
in Atmospheric Chemistry and Physics
Marsham J
(2013)
Meteorology and dust in the central Sahara: Observations from Fennec supersite-1 during the June 2011 Intensive Observation Period
in Journal of Geophysical Research: Atmospheres
Rocha-Lima A
(2018)
A detailed characterization of the Saharan dust collected during the Fennec campaign in 2011: in situ ground-based and laboratory measurements
in Atmospheric Chemistry and Physics
Ryder C
(2015)
Advances in understanding mineral dust and boundary layer processes over the Sahara from Fennec aircraft observations
in Atmospheric Chemistry and Physics
Todd M
(2016)
Dust aerosol emission over the Sahara during summertime from Cloud-Aerosol Lidar with Orthogonal Polarization (CALIOP) observations
in Atmospheric Environment
Todd M
(2013)
Meteorological and dust aerosol conditions over the western Saharan region observed at Fennec Supersite-2 during the intensive observation period in June 2011
in Journal of Geophysical Research: Atmospheres
Washington R
(2013)
The Fennec Automatic Weather Station (AWS) Network: Monitoring the Saharan Climate System
in Journal of Atmospheric and Oceanic Technology
Title | Airborne atmospheric measurements from core instrument suite on board the BAE-146 aircraft |
Description | Observations of atmospheric structure and composition over the Sahara desert |
Type Of Material | Database/Collection of data |
Provided To Others? | No |
Impact | Numerous publications |
URL | http://catalogue.ceda.ac.uk/uuid/69835240982f4aee9f9038a6414e02c1 |