Increase in extreme West African storms due to global warming

Global warming is responsible for tripling the frequency of extreme West African Sahel storms over the last three decades putting numerous cities in the region at risk, say scientists.

An international team, including Professor Douglas Parker from the Institute for Climate and Atmospheric Science, have analysed weather trends from 35 years of satellite observations across Africa. Their findings, published today in Nature, suggest that the power and frequency of intense storms in the Sahel is linked to the increasingly hot conditions in the Sahara desert caused by global warming. 

The study estimates that climate change will cause the Sahel, a band of semi-arid land to the south of the Sahara desert, to experience more instances of extreme rain in future. 

Study co-author Professor Douglas Parker said: “African storms are highly organised meteorological engines, whose currents extract water from the air to produce torrential rain. 

“We have seen these engines become more active over recent decades, resulting in increases in hazardous events in a region that is home to some of the most vulnerable people on the planet.” 

The Sahel zone in Africa is a region of sharp contrasts, from hot dry conditions over the Sahara in the north, to cooler, moister conditions in the south. When the temperature of the Sahara increases, the temperature contrast between the two regions causes significant changes in the African Easterly Jet - an airstream which organises and steers the weather systems in the region. 

The study found warmer temperatures in the Sahara were associated with the African Easterly Jet becoming stronger and the regional weather systems getting more intense. 

The changing dynamics of the weather systems, forced by the Saharan warming, is extracting more water from the atmosphere leading to extreme Sahelian storms. 

The intense Sahelian storms, also referred to as Mesoscale Convective Systems (MCSs), are some of the most explosive storms in the world, containing clouds that can rise 16km above the ground. 

The increase in frequency of Sahel storms has put many West African cities at risk of frequent severe flooding, leading to displacement and the spread of disease due to poor sanitation. 

In 2009 a MCS caused a downpour of over 260 millimetres over several hours, destroying more than 250 homes in Ouagadougou, Burkina Faso. More than 50 per cent of the city’s territory was flooded, including the main hospital. 

Lead author Dr Christopher Taylor, from the Centre for Ecology and Hydrology part of the Natural Environment Research Council said, “Global warming is expected to produce more intense storms, but we were shocked to see the speed of the changes taking place in this region of Africa.” 

Further details: 

For any additional information please contact University of Leeds Media Relations Officer Anna Martinez on a.martinez(at)leeds.ac.uk or +44 (0)113 343 4196. 

Professor Douglas Parker and Dr Christopher Taylor have been collaborating for 20 years on the study of African weather systems and climate. Their research along with the findings published in Nature was presented at the General Assembly of the European Geosciences Union in April. 

The research was funded by the Department for International Development (DFID) and the Natural Environment Research Council (NERC) as part of the Future Climate for Africa programme under the African Monsoon Multidisciplinary Analysis 2050 (AMMA 2050) project 

Professor Parker is also supported by a Royal Society Wolfson Research Merit Award. 

Other institutions involved in the research included the National Centre for Earth Observation, the University of Leeds, the Centre National de Recherches Meteorologiques, Universite Grenoble Alpes, Universite Paris Diderot and Sorbonne Universite. 

Paper reference 

Christopher M. Taylor, Danijel Belusic, Francois Guichard, Douglas J. Parker, Theo Vischel, Oliver Brock, Philip P. Harris, Serge Janicot, Cornelia Klein, Geremy Panthou, ‘Frequency of extreme Sahelian storms tripled since 1982 in satellite observations’, Nature, published online 1800 GMT/1400 US Eastern Time, 27 April 2017. DOI: 10.1038/nature22069