Squall lines dominate rainfall in the West African Sahel, and evidence suggests they have increased in intensity over recent decades. Stronger wind shear may be a key driver of this trend and could continue to strengthen with climate change. However, global numerical models struggle to capture the role of shear for organised convection, making predictions of changing rainfall intensities in the Sahel uncertain. To investigate the impact of recent and possible future environmental changes, and to isolate thermodynamic effects from shear effects, idealised squall line simulations were initialised with a profile representative of the present day: this profile was then modified using trends from reanalyses and climate projections. Increased she...
Here, we examine the dynamic properties associated with the recent increase in the Sahel rainfall us...
The 2007 wide-spread flooding in West Africa and the Sahel regions raised a compelling argument in t...
The proposed study is based on an analysis of rainfall variability and flood over more than half a c...
Squall lines dominate rainfall in the West African Sahel, and evidence suggests they have increased ...
Extreme rainfall is expected to increase under climate change, carrying potential socioeconomic risk...
Vertical wind shear is known to play a key role in the organization and intensity of mesoscale conve...
As a step toward an increased understanding of climate change over West Africa, in this paper we ana...
The hydrological cycle is expected to intensify under global warming, with studies reporting more f...
The West African climate is unique and challenging to reproduce using standard resolution climate mo...
The West African monsoon (WAM) is the dominant feature of West African climate providing the majorit...
The summertime West African Sahel has the worldwide highest degree of thunderstorm organisation into...
The simulation of Sahel rainfall and its onset during the West African Monsoon (WAM) remains a chall...
Evapotranspiration of soil moisture can affect temperature and humidity in the lower atmosphere, and...
The impact of climate change on Sahel precipitation suffers from large uncertainties and is strongly...
Projected changes in the intensity of severe rain events over the North African Sahel—falling from l...
Here, we examine the dynamic properties associated with the recent increase in the Sahel rainfall us...
The 2007 wide-spread flooding in West Africa and the Sahel regions raised a compelling argument in t...
The proposed study is based on an analysis of rainfall variability and flood over more than half a c...
Squall lines dominate rainfall in the West African Sahel, and evidence suggests they have increased ...
Extreme rainfall is expected to increase under climate change, carrying potential socioeconomic risk...
Vertical wind shear is known to play a key role in the organization and intensity of mesoscale conve...
As a step toward an increased understanding of climate change over West Africa, in this paper we ana...
The hydrological cycle is expected to intensify under global warming, with studies reporting more f...
The West African climate is unique and challenging to reproduce using standard resolution climate mo...
The West African monsoon (WAM) is the dominant feature of West African climate providing the majorit...
The summertime West African Sahel has the worldwide highest degree of thunderstorm organisation into...
The simulation of Sahel rainfall and its onset during the West African Monsoon (WAM) remains a chall...
Evapotranspiration of soil moisture can affect temperature and humidity in the lower atmosphere, and...
The impact of climate change on Sahel precipitation suffers from large uncertainties and is strongly...
Projected changes in the intensity of severe rain events over the North African Sahel—falling from l...
Here, we examine the dynamic properties associated with the recent increase in the Sahel rainfall us...
The 2007 wide-spread flooding in West Africa and the Sahel regions raised a compelling argument in t...
The proposed study is based on an analysis of rainfall variability and flood over more than half a c...