Public Release: 

Climate change to have 'little effect' on common landslides

New study suggests the frequency of landslides in storm-affected areas will not increase as a result of climate change

Cardiff University

The frequency of common landslides is not likely to increase as a result of more rainstorms brought about by future climate change, new research from Cardiff University has shown.

Experts at the School of Earth and Ocean Sciences have shown that while the frequency of rainstorms may increase by up to 10% according to climate change projections, this would produce a long-term increase in shallow landslide frequency of less than 0.5%.

Shallow landslides are the most common type of landslide and are often caused by heavy rainfall. They occur through the collapse of soil, resulting in fast moving debris flows of rock and mud that present a very dangerous hazard to anything in their path.

The new findings, which have been published in the journal Scientific Reports, challenges current theories within the field which suggest that landslide activity could increase proportionally with increased rainfall.

Instead, the research findings show that the triggering of landslides is much more dependent on the build-up of soil - otherwise known as colluvium - on steep hillslopes, as opposed to rainfall from storms.

The research team arrived at their results by performing field investigations in the Southern Appalachian Mountains, specifically looking at how the time taken for soil to accumulate on hillslopes affected the landslide triggering rate. The team then used computer models to calculate how future landslide hazards may develop as a result of climate change.

According to the researchers, shallow landslides occur when soil slowly accumulates on a mountainside over a very long time period, from thousands to tens of thousands of years. During a storm, converging ground water flow and the infiltration of rain into the colluvium causes landslides to be triggered.

It then takes thousands of years for soil to accumulate once again on the mountainside before a landslide can occur again, so an increase in the frequency of storms during this time would have little effect on the frequency of landslides.

Lead author of the study Dr Rob Parker, from Cardiff University's School of Earth and Ocean Sciences, said: "Our results have shown that lots more storms result in very few extra landslides. Though observations tell us that heavy rainfall triggers landslides, it is the process of soil accumulation that happens in the thousands of years leading up to a landslide that can be really important in determining how often landslides occur.

"Though we still expect shallow landslides to continue to be a major hazard in our future wetter climate, we do not expect the frequency of landslides to increase in proportion to the frequency of extreme precipitation events."

"Landslides pose a major hazard to life and infrastructure, affecting around 12% of the world's population who live in mountain ranges," Dr Parker continued.

"In addition to the direct hazard they pose, landslides are the primary source of sediment in mountain ranges, with significant knock-on effects on river, floodplain and estuarine systems, as well as playing an important role in global biogeochemical cycles.

"The consequences of landslides are therefore wide-reaching, so it's vital that we get a better understanding of how they may evolve under future climate conditions."


1. For more information, please contact:
Michael Bishop
Communications & Marketing
Cardiff University
Tel: 02920 874499 / 07713 325300

2. Cardiff University is recognised in independent government assessments as one of Britain's leading teaching and research universities and is a member of the Russell Group of the UK's most research intensive universities. The 2014 Research Excellence Framework ranked the University 5th in the UK for research excellence. Among its academic staff are two Nobel Laureates, including the winner of the 2007 Nobel Prize for Medicine, University Chancellor Professor Sir Martin Evans. Founded by Royal Charter in 1883, today the University combines impressive modern facilities and a dynamic approach to teaching and research. The University's breadth of expertise encompasses: the College of Arts, Humanities and Social Sciences; the College of Biomedical and Life Sciences; and the College of Physical Sciences and Engineering, along with a longstanding commitment to lifelong learning. Cardiff's flagship Research Institutes are offering radical new approaches to pressing global problems.

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