Marine Link
Wednesday, December 11, 2024

UMass Hosts Atlantic Observation System Planners

Maritime Activity Reports, Inc.

March 19, 2008

The School for Marine Science and Technology of UMass Dartmouth hosted a consortium of 20 universities and organizations last week to plan the initial stages of a system to monitor the changing conditions and health of coastal waters from to .  The consortium is developing a sophisticated network of weather stations, satellites, coastal radars and robotic underwater vehicles to produce a three-dimensional view of conditions in the coastal Mid-Atlantic.  The current, three-year phase of the project is funded with an $8.7-million grant from the .
The Mid-Atlantic Regional Coastal Ocean Observing System, or MARCOOS, will provide decision-makers with information that will aid in search-and-rescue operations, hurricane track predictions, fisheries management, and the management of such emergencies as coastal flooding and pollutant spills.  MARCOOS is one of eleven regional efforts comprising a national Integrated Ocean Observation System that NOAA is assembling.
Two scientists from the School for Marine Science and Technology have been awarded $1.36 million for their part of the project.  SMAST Professors Wendell Brown and Avijit Gangopadhyay will operate a trio of coastal radars, and launch underwater glider surveys between and . They will incorporate the information provided by these devices into a computer model to help improve its forecasts. 
SMAST will undertake underwater surveys in cooperation with , the leader of the consortium of research partners. has been fine-tuning gliders as ocean observers for the past decade. The glider of choice, built by Webb Research Corporation of , looks like a miniature jet airplane. It moves through the water by gulping in a mouthful (about 1 cup) of water at the surface­which causes it to sink­and spitting it out again when it reaches a predetermined depth. But rather than rising and sinking in place, it uses its wings, like a swooping bird, to convert vertical motion into forward motion, and thus glide its way through the ocean.
This propulsion scheme enables the glider to expend a minimum of energy while traveling great distances­often hundreds of kilometers per mission. Its characteristic trajectory (like a roller coaster) and speed (less than one nautical mile per hour) are ideal for the glider’s task of collecting oceanographic data as it plumbs the upper water column. 
 

Subscribe for
Maritime Reporter E-News

Maritime Reporter E-News is the maritime industry's largest circulation and most authoritative ENews Service, delivered to your Email five times per week