We investigated a ∼11km stretch of the East Sussex coastline (South East England) using airborne Lidar data with the aim to analysing the average recession-rate on high soft cliffs. The recession rate was calculated on a short interval (2007-2009) using two LiDAR-derived Digital Elevation Models (DTM) and following an approach based on a simple trigonometric relation. The calculated retreat values show spatial variability consistent with the geological settings and with the presence or absence of mitigation engineering works. An average rate of retreat of 0.1 m y-1 was calculated for the whole area. The protected sections, where the sea influences are mitigated by a concrete promenade, have retreat values that range between 0.02 m y-1 and 0.09 m y-1. The unprotected sections show the highest values, as expected, ranging between 0.1 m y-1 and 0.3 m y-1. Finally, although retreat trends are not easily predicted because the interplay between numerous factors (eg. sea level rise, storm frequency, wind direction, etc.), future cliff-line positions were estimated on a linear basis, highlighting likely influence of development and engineering structures. © Società Geologica Italiana, Roma 2015.
Estimating cliff-recession rate from LiDAR data, East Sussex coastline, South East England / Parente, L.; Revellino, P.; Guerriero, L.; Grelle, G.; Guadagno, F. M.. - In: RENDICONTI ONLINE DELLA SOCIETÀ GEOLOGICA ITALIANA. - ISSN 2035-8008. - 35:(2015), pp. 220-223. [10.3301/ROL.2015.105]
Estimating cliff-recession rate from LiDAR data, East Sussex coastline, South East England
Guerriero, L.;
2015
Abstract
We investigated a ∼11km stretch of the East Sussex coastline (South East England) using airborne Lidar data with the aim to analysing the average recession-rate on high soft cliffs. The recession rate was calculated on a short interval (2007-2009) using two LiDAR-derived Digital Elevation Models (DTM) and following an approach based on a simple trigonometric relation. The calculated retreat values show spatial variability consistent with the geological settings and with the presence or absence of mitigation engineering works. An average rate of retreat of 0.1 m y-1 was calculated for the whole area. The protected sections, where the sea influences are mitigated by a concrete promenade, have retreat values that range between 0.02 m y-1 and 0.09 m y-1. The unprotected sections show the highest values, as expected, ranging between 0.1 m y-1 and 0.3 m y-1. Finally, although retreat trends are not easily predicted because the interplay between numerous factors (eg. sea level rise, storm frequency, wind direction, etc.), future cliff-line positions were estimated on a linear basis, highlighting likely influence of development and engineering structures. © Società Geologica Italiana, Roma 2015.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.