Field observations of swash and ocean waves show that runup saturation at infragravity frequencies (<0.05 Hz) can occur under mild offshore energy conditions if the beach slope is sufficiently gentle. Infragravity saturation was observed for higher-frequency (>0.025–0.035 Hz) infragravity waves, where typically less than 5% of the (linear) energy flux was reflected from the beach and where, similar to the sea swell band, the swash energy was independent of offshore wave energy. The infragravity frequency range of saturation was determined by the tide, with saturation extending to lower frequencies at low tide when the local beach face slope over the concave-shaped profile was gentler. Runup was strongly dominated by infragravity frequencies...
copyrighted by American Geophysical UnionBecause of highly dissipative conditions and strong alongsh...
The dissipation of the sea-swell frequency band energy (nominally 0.09 < f less than or equal to 0.3...
Infragravity waves (frequency = 0.005 – 0.05 Hz) play a key role in coastal storm impacts such as fl...
Swash oscillations on two natural beaches were measured to show that the shape and magnitude of ener...
Infragravity waves (20-200 s) receive their energy from sea-swell waves (2-20 s), and are thought to...
Infragravity waves (20-200 s) receive their energy from sea-swell waves (2-20 s), and are thought to...
The numerical model SWASH is used to investigate nonlinear energy transfers between waves for a dive...
The numerical model SWASH is used to investigate nonlinear energy transfers between waves for a dive...
A fully nonlinear non-dispersive energy balance for surfzone waves is derived based on the nonlinear...
A high-resolution dataset of three irregular wave conditions collected on a gently sloping laborator...
A high-resolution dataset of three irregular wave conditions collected on a gently sloping laborator...
A high-resolution dataset of three irregular wave conditions collected on a gently sloping laborator...
Field data of waves in the surfzone and runup on ocean beaches in extreme conditions are rare; empir...
The article of record as published may be found at https://doi.org/10.1029/2006JC003539Nonlinear ene...
Infragravity waves (frequency, f = 0.005–0.05 Hz) are known to dominate hydrodynamic and sedim...
copyrighted by American Geophysical UnionBecause of highly dissipative conditions and strong alongsh...
The dissipation of the sea-swell frequency band energy (nominally 0.09 < f less than or equal to 0.3...
Infragravity waves (frequency = 0.005 – 0.05 Hz) play a key role in coastal storm impacts such as fl...
Swash oscillations on two natural beaches were measured to show that the shape and magnitude of ener...
Infragravity waves (20-200 s) receive their energy from sea-swell waves (2-20 s), and are thought to...
Infragravity waves (20-200 s) receive their energy from sea-swell waves (2-20 s), and are thought to...
The numerical model SWASH is used to investigate nonlinear energy transfers between waves for a dive...
The numerical model SWASH is used to investigate nonlinear energy transfers between waves for a dive...
A fully nonlinear non-dispersive energy balance for surfzone waves is derived based on the nonlinear...
A high-resolution dataset of three irregular wave conditions collected on a gently sloping laborator...
A high-resolution dataset of three irregular wave conditions collected on a gently sloping laborator...
A high-resolution dataset of three irregular wave conditions collected on a gently sloping laborator...
Field data of waves in the surfzone and runup on ocean beaches in extreme conditions are rare; empir...
The article of record as published may be found at https://doi.org/10.1029/2006JC003539Nonlinear ene...
Infragravity waves (frequency, f = 0.005–0.05 Hz) are known to dominate hydrodynamic and sedim...
copyrighted by American Geophysical UnionBecause of highly dissipative conditions and strong alongsh...
The dissipation of the sea-swell frequency band energy (nominally 0.09 < f less than or equal to 0.3...
Infragravity waves (frequency = 0.005 – 0.05 Hz) play a key role in coastal storm impacts such as fl...