The 2004 Sumatra-Andaman tsunami flooded coastal northern Sumatra to a depth of over 20 m, deposited a discontinuous sheet of sand up to 80 cm thick, and left mud up to 5 km inland. In most places the sand sheet is normally graded, and in some it contains complex internal stratigraphy. Structures within the sand sheet may record the passage of up to 3 individual waves. We studied the 2004 tsunami deposits in detail along a flow-parallel transect about 400 m long, 16 km southwest of Banda Aceh. Near the shore along this transect, the deposit is thin or absent. Between 50 and 400 m inland it ranges in thickness from 5 to 20 cm. The main trend in thickness is a tendency to thicken by filling low spots, most dramatically at pre-existing stream ...
We report the sediment features of the 2018 Palu tsunami in Indonesia based on the results of labora...
The destructive earthquake and tsunami waves have caused sudden and immense changes in the morpholog...
We model postseismic changes to the shoreline of West Aceh, Indonesia, a region largely affected by ...
With wave heights of 30 m and runups reaching 50 m a.s.l. and 6 km inland, the December 26, 2004 tsu...
The tsunami deposits left by the 26 December 2004 tsunami in the coastal zone of Thailand were studi...
The tsunami wave of December 26, 2004 in North Sumatra had swept over most of Aceh west coasts. The ...
The district of Kajhu Perumnas, located north-east of Banda Aceh, is a flat area that allowed wave p...
Spatial variations of thickness and grain size of 2004 and prehistoric tsunami sand layers from Aceh...
Stratigraphy, grain size distribution and foraminiferal assemblages of pre-tsunami and tsunami sedim...
The 2004 Indian Ocean tsunami deposited an extensive sandsheet on the coastal plain of SE India. At ...
Large tsunamis are major geomorphic crises, since they imply extensive erosion, sediment transport a...
The Indian Ocean tsunami flooded the coastal zone of the Andaman Sea and left tsunami deposits with ...
A coupled hydrostatic and morph-dynamic model COMCOT-SED was used to investigate the morphological c...
This paper presents the second detailed study of sediments deposited by modern tsunamis, the first b...
In this chapter, we present a description of boulder deposition induced by the 2004 tsunami in the L...
We report the sediment features of the 2018 Palu tsunami in Indonesia based on the results of labora...
The destructive earthquake and tsunami waves have caused sudden and immense changes in the morpholog...
We model postseismic changes to the shoreline of West Aceh, Indonesia, a region largely affected by ...
With wave heights of 30 m and runups reaching 50 m a.s.l. and 6 km inland, the December 26, 2004 tsu...
The tsunami deposits left by the 26 December 2004 tsunami in the coastal zone of Thailand were studi...
The tsunami wave of December 26, 2004 in North Sumatra had swept over most of Aceh west coasts. The ...
The district of Kajhu Perumnas, located north-east of Banda Aceh, is a flat area that allowed wave p...
Spatial variations of thickness and grain size of 2004 and prehistoric tsunami sand layers from Aceh...
Stratigraphy, grain size distribution and foraminiferal assemblages of pre-tsunami and tsunami sedim...
The 2004 Indian Ocean tsunami deposited an extensive sandsheet on the coastal plain of SE India. At ...
Large tsunamis are major geomorphic crises, since they imply extensive erosion, sediment transport a...
The Indian Ocean tsunami flooded the coastal zone of the Andaman Sea and left tsunami deposits with ...
A coupled hydrostatic and morph-dynamic model COMCOT-SED was used to investigate the morphological c...
This paper presents the second detailed study of sediments deposited by modern tsunamis, the first b...
In this chapter, we present a description of boulder deposition induced by the 2004 tsunami in the L...
We report the sediment features of the 2018 Palu tsunami in Indonesia based on the results of labora...
The destructive earthquake and tsunami waves have caused sudden and immense changes in the morpholog...
We model postseismic changes to the shoreline of West Aceh, Indonesia, a region largely affected by ...