Observations of waves, setup, and wave-driven mean flows were made on a steep coral forereef and its associated lagoonal system on the north shore of Moorea, French Polynesia. Despite the steep and complex geometry of the forereef, and wave amplitudes that are nearly equal to the mean water depth, linear wave theory showed very good agreement with data. Measurements across the reef illustrate the importance of including both wave transport (owing to Stokes drift), as well as the Eulerian mean transport when computing the fluxes over the reef. Finally, the observed setup closely follows the theoretical relationship derived from classic radiation stress theory, although the two parameters that appear in the model-one reflecting wave breaking,...
Waves and tides are often the two primary forcing mechanisms responsible for driving hydrodynamic pr...
This paper reports a combined observational and numerical study of wave transformation over barrier ...
This paper reports on a combined experimental and numerical study dedicated to barrier reefs hydrody...
Observations of waves, setup, and wave-driven mean flows were made on a steep coral forereef and its...
Waves breaking on the seaward rim of a coral reef generate a flow of water from the exposed side of ...
Wave set-up may be significant in determining water levels on coral reefs particularly in microtidal...
Two-dimensional mean wave-driven flow and setup dynamics were investigated at a reef-lagoon system a...
14th International Coastal Symposium (ICS), Sydney, AUSTRALIA, MAR 06-11, 2016International audience...
National audienceMostly present in tropical regions, coral reefs both provide a unique habitat for a...
Long-term (1 month) observations of waves and currents over a natural reef are presented which show ...
Waves are the main hydrodynamic force acting on coral reefs and are crucial in driving the evolution...
The structural complexity of coral reefs has an essential impact on coastal wave propagation. Nevert...
The coastal zone is of great societal and economic value. Understanding anthropogenic impacts and na...
Waves and tides are often the two primary forcing mechanisms responsible for driving hydrodynamic pr...
This paper reports a combined observational and numerical study of wave transformation over barrier ...
This paper reports on a combined experimental and numerical study dedicated to barrier reefs hydrody...
Observations of waves, setup, and wave-driven mean flows were made on a steep coral forereef and its...
Waves breaking on the seaward rim of a coral reef generate a flow of water from the exposed side of ...
Wave set-up may be significant in determining water levels on coral reefs particularly in microtidal...
Two-dimensional mean wave-driven flow and setup dynamics were investigated at a reef-lagoon system a...
14th International Coastal Symposium (ICS), Sydney, AUSTRALIA, MAR 06-11, 2016International audience...
National audienceMostly present in tropical regions, coral reefs both provide a unique habitat for a...
Long-term (1 month) observations of waves and currents over a natural reef are presented which show ...
Waves are the main hydrodynamic force acting on coral reefs and are crucial in driving the evolution...
The structural complexity of coral reefs has an essential impact on coastal wave propagation. Nevert...
The coastal zone is of great societal and economic value. Understanding anthropogenic impacts and na...
Waves and tides are often the two primary forcing mechanisms responsible for driving hydrodynamic pr...
This paper reports a combined observational and numerical study of wave transformation over barrier ...
This paper reports on a combined experimental and numerical study dedicated to barrier reefs hydrody...