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- Title
Sea-level rise will likely accelerate rock coast cliff retreat rates.
- Authors
Shadrick, Jennifer R.; Rood, Dylan H.; Hurst, Martin D.; Piggott, Matthew D.; Hebditch, Bethany G.; Seal, Alexander J.; Wilcken, Klaus M.
- Abstract
Coastal response to anthropogenic climate change is of central importance to the infrastructure and inhabitants in these areas. Despite being globally ubiquitous, the stability of rock coasts has been largely neglected, and the expected acceleration of cliff erosion following sea-level rise has not been tested with empirical data, until now. We have optimised a coastal evolution model to topographic and cosmogenic radionuclide data to quantify cliff retreat rates for the past 8000 years and forecast rates for the next century. Here we show that rates of cliff retreat will increase by up to an order of magnitude by 2100 according to current predictions of sea-level rise: an increase much greater than previously predicted. This study challenges conventional coastal management practices by revealing that even historically stable rock coasts are highly sensitive to sea-level rise and should be included in future planning for global climate change response. Results forecast that cliff retreat rates will increase by up to an order of magnitude by 2100 according to current predictions of sea-level rise, and reveal that even historically stable rock coasts are highly sensitive to sea-level rise.
- Subjects
CLIFFS; ABSOLUTE sea level change; EFFECT of human beings on climate change; CLIMATE change; COASTAL zone management; COASTAL processes (Physical geology); COASTS
- Publication
Nature Communications, 2022, Vol 13, Issue 1, p1
- ISSN
2041-1723
- Publication type
Article
- DOI
10.1038/s41467-022-34386-3