Welcome to NOPP-BBLE (Bottom Boundary Layer Experiment)



Introduction


A primary task of this years Coastal Predictive Skill Experiment is to improve forecasting capabilities though stronger modeling efforts of the complex structure of surface and bottom boundary layers. In order to provide reliable forecasts, prognostic models must be physics-based, which requires a strong theoretical grasp of the relevant dynamical processes active in the coastal ocean verified through process-oriented field studies. A very important dynamical process is vertical transport due to turbulence. During storms, the entire water column over most of the shelf can be filled with turbulent boundary layers, so the need for physics-based modules verified through experiments to describe the dynamic and kinematic features of boundary layers in large-scale circulation models becomes critical.

In conjunction with the goals of this years experiment, the purpose of the NOPP-BBLE is to develop an efficient bottom boundary layer subroutine for use in the forecast system, and to continue to improve our understanding of boundary layer micro-structure using a suite of state-of-the-art autonomous survey vessels and fixed monitoring elements.

Tasks

The specific tasks of NOPP-BBLE are to:

1) Develop an accurate and efficient bottom boundary layer module to be integrated into the forecasting system well before the summer experiment begins. This phase of the experiment has been completed (Styles and Glenn, in prep.).

2) Field validation of the turbulence REMUS downward looking ADCP through comparisons with fixed ADCP at Node A. (Planned for 1st or 2nd week of July-99)

3) Survey the micro-topography of an approximately 500 by 500 m2 patch of the ocean floor near Node A using a side-scan sonar REMUS. (Planned for 1st or 2nd week of July-99)

4) Perform turbulence REMUS constant altitude fly-overs to map the spatial micro-structure of the bottom boundary layer above the patch.

5) Play with recently purchased LISST.



Data Sets

Laser In-Situ Scatterning Transmissometer