Predicting the evolution of the beachface is important in terms of coastal protection, recreation and environmental sustainability. Swash zone sediment transport plays a major role in this morphological response. However, despite recent advances in swash zone modelling and data collection, specific details are lacking, notably the cross-shore variation in net transport rates, the influence of surf beat and wave groups on swash sediment transport and the effects of the feedback between the surf and awash zones. This paper provides novel data from carefully controlled small-scale laboratory experiments investigating surf beat sediment transport. The data include very detailed observations of the cross-shore distribution of net sediment transp...
Data from field experiments carried out in the swash zone on two Pacific beaches in Japan were analy...
This paper considers the evolution of steep mobile sediment beaches under random waves and results f...
On steep beaches, the cross-shore movement of sand in response to ‘erosive’ storm waves and ‘accreti...
There are only a few detailed measurements of the cross-shore variation in the net sediment transpor...
New laboratory data are presented on the influence of free long waves, bound long waves and wave gro...
In this study, new large‐scale experimental data are presented showing evidences of a link between t...
New laboratory data are presented on the influence of long waves on sediment transport in the surf z...
In this paper, large-scale experimental data are presented showing the beach profile morphological e...
Long waves, or Surf beat, in the coastal zone, have long been proposed to be important in influencin...
"New large-scale laboratory data are presented on the influence of long waves, bichromatic wave grou...
Large scale laboratory measurements of sediment dynamics in the swash zone are presented. Two bichro...
The evolution of different initial beach profiles towards the same final beach configuration is inve...
The evolution of different initial beach profiles towards the same final beach configuration is inve...
During the last two decades several field studies have shown a clear pattern in the cross-shore sedi...
This investigation focuses on the prediction of sediment transport and beach evolution in coarse-gra...
Data from field experiments carried out in the swash zone on two Pacific beaches in Japan were analy...
This paper considers the evolution of steep mobile sediment beaches under random waves and results f...
On steep beaches, the cross-shore movement of sand in response to ‘erosive’ storm waves and ‘accreti...
There are only a few detailed measurements of the cross-shore variation in the net sediment transpor...
New laboratory data are presented on the influence of free long waves, bound long waves and wave gro...
In this study, new large‐scale experimental data are presented showing evidences of a link between t...
New laboratory data are presented on the influence of long waves on sediment transport in the surf z...
In this paper, large-scale experimental data are presented showing the beach profile morphological e...
Long waves, or Surf beat, in the coastal zone, have long been proposed to be important in influencin...
"New large-scale laboratory data are presented on the influence of long waves, bichromatic wave grou...
Large scale laboratory measurements of sediment dynamics in the swash zone are presented. Two bichro...
The evolution of different initial beach profiles towards the same final beach configuration is inve...
The evolution of different initial beach profiles towards the same final beach configuration is inve...
During the last two decades several field studies have shown a clear pattern in the cross-shore sedi...
This investigation focuses on the prediction of sediment transport and beach evolution in coarse-gra...
Data from field experiments carried out in the swash zone on two Pacific beaches in Japan were analy...
This paper considers the evolution of steep mobile sediment beaches under random waves and results f...
On steep beaches, the cross-shore movement of sand in response to ‘erosive’ storm waves and ‘accreti...