Tidal hydrodynamics in a two-inlet coastal lagoon in the Gulf of California

The aim of this study is to understand the effects of friction and advection in the hydrodynamics of a two-inlet coastal lagoon, Santa Maria La Reforma, in Northwest Mexico. A vertically integrated numerical model is used to describe sea level variations and tidal currents, and to study the dynamics inside the system. Observed sea level and current measurements were used to calibrate the model. Results show a similar to 90 min phase lag of the tidal signal in the center of the system with respect to both inlets. Tidal currents greater than 1.0 m s(-1) were recorded and modeled at both inlets. The sea level in the lagoon shows one-quarter of period of M-2 out of phase (similar to 3 h) with respect to the velocity. Bottom friction generated the greatest M-4 harmonic and largest tidal asymmetries at the narrowest section of the lagoon, similar to 35 km away from the inlets. The tidal momentum balance along the main axis of the lagoon was dominated by pressure gradient and friction, describing a quasi-standing tidal wave in currents and in amplitude. This behavior resulted from waves traveling in opposite directions from the two tidal inlets, causing constructive interference in elevation but destructive interference inflow. (C) 2013 Elsevier Ltd. All rights reserved.