Add to ORKGA major part of the world’s coast consists of sequences of barrier islands and tidal inlets. Tidal inlets are highly dynamical systems, influencing the surrounding environment as well. The inlets contain morphological units: tidal channels, sandbanks, etc. A method is developed regarding the analysis of morphological units in space and time, including quantitative volumetric analysis. The method is applied to the Ameland inlet, a study site situated in the Dutch Wadden Sea. The dynamics of tidal inlets: e.g. deformation, displacement, whether a channel is filling up, etc. can be analyzed objectively using the developed method
Tidal basins are observed all over the world's coastline, for example along the north coast of The N...
The management of coastal environments such as groyne fields, offshore breakwaters, jetties and tida...
The morphology of tidal basins includes a wide range of features developing along different spatial ...
The Dutch Wadden Sea is consisting of 7 tidal inlet systems separated by sandy barrier islands. The ...
The purpose of this study is to develop a suitable model to predict morphological changes in tidal i...
A dynamic model for morphological development in a tidal inlet, “Het Friesche Zeegat”, in the Wadden...
Along the majority of the worlds shoreline, tidal inlet systems represent a common morphological fea...
Barrier island systems, also referred to as multiple-inlet systems, are coastal environments with sh...
In this review we discuss the morphodynamics of tidal inlet systems that are typical of barrier coas...
For successful and sustainable management of barrier islands, a thorough understanding of the ebb-ti...
The Netherlands Centre for Coastal Research (NCK) is in the process of preparing a comprehensive, co...
Ameland inlet is centrally located in the chain of West Frisian Islands (the Netherlands). A globall...
Tidal inlets are among the most dynamic morphological features along the world coastlines. Their evo...
The Wadden Sea and its associated barrier island system exhibit highly dynamic behaviour. Of major c...
The management of coastal environments such as groyne fields, offshore breakwaters, jetties and tida...
Tidal basins are observed all over the world's coastline, for example along the north coast of The N...
The management of coastal environments such as groyne fields, offshore breakwaters, jetties and tida...
The morphology of tidal basins includes a wide range of features developing along different spatial ...
The Dutch Wadden Sea is consisting of 7 tidal inlet systems separated by sandy barrier islands. The ...
The purpose of this study is to develop a suitable model to predict morphological changes in tidal i...
A dynamic model for morphological development in a tidal inlet, “Het Friesche Zeegat”, in the Wadden...
Along the majority of the worlds shoreline, tidal inlet systems represent a common morphological fea...
Barrier island systems, also referred to as multiple-inlet systems, are coastal environments with sh...
In this review we discuss the morphodynamics of tidal inlet systems that are typical of barrier coas...
For successful and sustainable management of barrier islands, a thorough understanding of the ebb-ti...
The Netherlands Centre for Coastal Research (NCK) is in the process of preparing a comprehensive, co...
Ameland inlet is centrally located in the chain of West Frisian Islands (the Netherlands). A globall...
Tidal inlets are among the most dynamic morphological features along the world coastlines. Their evo...
The Wadden Sea and its associated barrier island system exhibit highly dynamic behaviour. Of major c...
The management of coastal environments such as groyne fields, offshore breakwaters, jetties and tida...
Tidal basins are observed all over the world's coastline, for example along the north coast of The N...
The management of coastal environments such as groyne fields, offshore breakwaters, jetties and tida...
The morphology of tidal basins includes a wide range of features developing along different spatial ...