In a new study published in Nature Climate Change, King’s researchers have analysed future wind regimes to predict the impact of morphing sand dunes. The encroachment of these moving desert dunes has the potential to threaten transportation infrastructure, industry, agriculture and settlements – with the possibility of entire villages disappearing under sand.

Desert dunes and sand seas cover approximately 20% of the world’s arid zones. Analysing data on the shape, migration speed and direction of mobile desert dunes around the world, Dr Andreas Baas and Lucie Delobel from the Department of Geography have used future wind patterns altered by climate change to determine the impact on these changing landscapes.

Previous studies on climate change have focused on heat and water to determine the impacts on local environments. However, focusing on wind has allowed the researchers to predict the future consequences of climate change on arid regions such as the Sahara, The Horn of Africa, the Southern Arabian Peninsula, South Asia, China and Australia.

The study shows that changes in wind patterns will speed up the migration of sand dunes, change the direction of the migration and morph the shape of the dunes, with the potential for desertification of some regions and the release of more dust emissions globally.

The recently completed Hotan-Ruoqiang high-speed railway line in China, for example, includes 500 km of track along the southern Taklimakan Desert. The project has already seen US$295 million spent on measures to mitigate sand drift. The changing migration patterns of sand dunes could make these investments obsolete.

The Middle East and North Africa (MENA) region railway projects, worth US$53 billion, would also be affected, along with local road networks.

The changing direction of sand drift could see agricultural sites and settlements, previously unaffected, be covered by sand. The changing shape of the dunes could also cause logistical problems for planned transport networks and infrastructure, resulting in further investment on mitigation strategies.

Other regions might see dormant dune fields to reactivate, which may trigger regional dust storms and increase dust emissions in the atmosphere globally.