Turbulence Measurements with a Submarine

Abstract

Measurements of small-scale velocity and temperature fluctuations have been made from the research submarine Dolphin in the open ocean off San Diego, California. The important contribution of the submarine is that it collects horizontal profiles. The submarine can depth-cycle to obtain a quasi-vertical profile of the fluctuations along a horizontal path. The noise level depends on the configuration of the instrumentation and the operating conditions of the vessel. Expressed in terms of energy dissipation, it is approximately 10 super(-7) W m super(-3), comparable to that of free-fall vertical profilers. Much of the small-scale velocity and temperature data are similar to those collected with free-fall vertical profilers. A major difference is that the horizontal transects are aligned with the temperature gradient of salt fingers, which are not well detected by vertical profilers. Fingers were seen beneath the saline upper layer at values of R rho between 2 and 4. Off San Diego, the velocity signal from the fingers was below the noise level of the velocity probes. More than 80% of our estimates of the local rate of dissipation of kinetic energy from a nighttime convecting surface layer are distributed log-normally. There is a deficit of large values and an excess of small values, as in atmospheric boundary layers. (DBO)