From rlimeburner@cliff.whoi.edu Fri Jul 14 08:18 EDT 1995
From: rlimeburner@cliff.whoi.edu
Date: Fri, 14 Jul 95 08:22:23 est
Encoding: 108 Text
To: rgroman@aqua.whoi.edu, rlimeburner@cliff.whoi.edu, prtaylor@nsf.gov,
        William_Peterson@ccgate.ssp.nmfs.gov, zackp@violet.berkley.edu,
        kbrink@cliff.whoi.edu, rbeardsley@cliff.whoi.edu
Subject: GLOBEC Progress Report - Large-Scale Drifter

     
     PROJECT TITLE: 
     
     Lagrangian Measurements as Part of a Georges Bank 
     Study
     
     INVESTIGATOR(S):
     
     Kenneth H. Brink
     Woods Hole Oceanographic Institution
     Woods Hole, MA 02543
     kbrink@whoi.edu
     
     Robert C. Beardsley
     Woods Hole Oceanographic Institution
     Woods Hole, MA 02543
     rbeardsley@whoi.edu
     
     Richard Limeburner 
     Woods Hole Oceanographic Institution
     Woods Hole, MA 02543
     rlimeburner@whoi.edu
       
     GRANT PERIOD: 
     
     October 1, 1994 - September 30, 1996
     
     STATEMENT OF OBJECTIVES: 
     
     The primary objective of the large-scale GLOBEC drifter program is to 
     characterize the recirculation over Georges Bank - both its spatial 
     and temporal structure and variability, and integrate this physical 
     characterization with biological observations to formulate a coherent 
     description of the Georges Bank ecosystem. This Lagrangian 
     understanding of the circulation is important because it will 1) 
     provide estimates of residence time over the Bank which directly 
     relate to the ability of the system to retain nutrients and biota, 2) 
     provide direct observations of where the water actually goes (i.e., 
     the primary transport paths through important spawning grounds and the 
     preferred regions where Bank water is exported), and 3) lead to a 
     better understanding of the physics of the recirculation and improve 
     our ability to model this dynamic system.
     
     STATEMENT OF WORK: 
     
     A total of 25 drifters with drogues centered at a depth of 10 to 15 m 
     have been deployed over Georges Bank during the period January to 
     June, 1995 on cruises EN259 (P. Weibe), EN261 (T. Durbin), EN263 (C. 
     Miller), EN265 (J. Sibunka), and Al9506 (A. Bucklin). An additional 25 
     drifters (5 deployments of 5 drifters) are planned for deployment over 
     Georges Bank during summer and fall of 1995.
     
     SUMMARY OF KEY FINDINGS: 
     
     The drifter position data have been made available to the scientific 
     community via the GLOBEC WWW home page 
     http://gb1.whoi.edu/globec-dir/misc-data.html. An animation of the 
     drifter trajectories was projected onto a basemap of Georges Bank that 
     also shows the yearday as the drifters move over the Bank. A movie 
     "player" is required to play the animation and information is given on 
     the GLOBEC home page where to obtain various free movie players with 
     VCR-like controls and how to configure these players to PC, Mac, or 
     Unix workstations. The 1995 GLOBEC drifter movie is updated monthly 
     and allows other researchers to observe the actual 1995 Lagrangian 
     near-surface circulation patterns and time scales of the variability 
     over Georges Bank. We plan to incorporate a windstress vector into the 
     drifter animation in the near future. Also, four similar animations of 
     drifter movements over Georges Bank during the SCOPEX program in 1988 
     and 1989 with drogues centered at 5 m and 50 m have are now available 
     on the GLOBEC home page, as well as an animation of 2 years of 
     near-surface drifter data in the California Current.
     
     Preliminary analysis of the near-surface Lagrangian drifter 
     trajectories over Georges Bank during the first 6 months of 1995 
     indicate:
     
     1. Many of the drifters deployed on Georges Bank between January and 
     June, 1995, remained within the region defined by the 60 m isobath. 
     The combined tracks of all the drifters generally describe the limits 
     of the 60 m isobath, except over the eastern side of the Great South 
     Channel. (Figure 1 - available from ftp anonymous at mar.whoi.edu, cd 
     argos, as a binary file named figure1.gif). This implies that the 
     Lagrangian circulation at a depth of 15 m was generally non-dispersive 
     within the 60 m isobath during the first six months of 1995.
     
     2. High wind events had a strong influence on the drifter 
     trajectories. In early February, 1995, strong northeast winds shifting 
     to the northwest forced the five drifters over Georges Bank offshelf 
     where they became entrained in a warm-core ring. In March, strong 
     northwest winds forced another drifter southwestward to the 100 m 
     isobath. This drifter then moved westward and southwestard along the 
     local 100 m isobath into the Middle Atlantic Bight.
     
     3. In February and March, 1995, the near-surface flow at the 100 m 
     isobath was along-shelf toward the west and southwest at about 50 
     cm/sec. During this same period the mean flow over the Bank 50 km to 
     the north was small, less than 5 cm/s.   
     
     4. In June, two drifters moved along-shelf over the 100 m isobath and 
     then veered back onto the south flank of the Bank within the 60 m. 
     However, the near-surface flow in the eastern Great South Channel was 
     stagnant during late May and June.
     
     6. Some early patterns of recirculation are visible in the drifter 
     animation. However, we expect the recirculation patterns to strengthen 
     during the summer and early fall months. Future work will integrate 
     the biological sampling and population studies into the advective 
     patterns observed in the drifter trajectories.