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Revised Manuscript - Marine control over negative power law scaling of mass wasting events in chalk.pdf (1.16 MB)

Marine control over negative power law scaling of mass wasting events in chalk sea cliffs with implications for future recession under the UKCP09 medium emission scenario

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journal contribution
posted on 2023-06-09, 12:30 authored by Jamie Gilham, John BarlowJohn Barlow, Roger Moore
Coastal cliff erosion represents a significant geohazard for people and infrastructure. Forecasting future erosion rates is therefore of critical importance to ensuring the resiliency of coastal communities. We use high precision monitoring of chalk cliffs at Telscombe, UK to generate monthly mass movement inventories between August 2016 and July 2017. Frequency-magnitude analysis of our inventories demonstrate negative power law scaling over 7 orders of magnitude and, for the first time, we report statistically significant correlations between significant wave height (Hs) and power law scaling coefficients (r2 values of 0.497 and 0.590 for ß and s respectively). Applying these relationships allows for a quantitative method to predict erosion at the site based on Hs probabilities and sea level forecasts derived from the UKCP09 medium emission climate model (A1B). Monte-Carlo simulations indicate a range of possible erosion scenarios over 70 years (2020-2090) and we assess the impact these may have on the A259 coastal road which runs proximal to the cliffs. Results indicate a small acceleration in erosion compared to those based on current conditions with the most likely scenario at the site being 21.7 m of cliff recession by 2090. However, low-probability events can result in recession an order of magnitude higher in some scenarios. In the absence of negative feedbacks, we estimate an ~11% chance that the A259 will be breached by coastal erosion by 2090.

Funding

EPSRC iCASE PREDICTIVE PROCESS RESPONSE MODEL FOR SEA CLIFF RISK MANAGEMENT AT BRIGHTON; G1191; EPSRC; EP/L505687/1

History

Publication status

  • Published

File Version

  • Accepted version

Journal

Earth Surface Processes and Landforms

ISSN

0197-9337

Publisher

Wiley

Issue

10

Volume

43

Page range

2136-2146

Department affiliated with

  • Geography Publications

Research groups affiliated with

  • Centre for Coastal Research Publications

Full text available

  • Yes

Peer reviewed?

  • Yes

Legacy Posted Date

2018-03-19

First Open Access (FOA) Date

2019-03-12

First Compliant Deposit (FCD) Date

2018-03-20

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