Table 14.— U.S. institutions, investigators, and projects in CUEA program 



Institutions 



Investigators 



Projects 



University of Alaska 



Bigelow Ocean Science Center 



Brookhaven National Laboratories 



University of Delaware 

 Duke University 



Florida State University 



Inter-American Tropical Tuna Commission 



University of Miami 

 Oregon State University 



San Francisco State College 



Scripps Institution of Oceanography 



University of Washington 



Woods Hole Oceanographic Institution 



J. J. Goering 



R. C. Dugdale 

 J. Maclsaac 

 T. T. Packard 



J.J.Walsh 

 T. E. Whitledge 



C. N. K. Moores 

 R. T. Barber 



S. Huntsman 

 Y. Hsueh 

 J. J. O'Brien 



D. W. Stuart 



M. R. Stevenson 



J. C. Van Leer 

 J.S.Allen 



A. Huyer 

 R. L. Smith 



J. C. Kelley 

 K. L. Smith, Jr. 

 D. Halpern 



L. A. Codispoti 



0. A. Mathisen and 

 R. E. Thorne 



E. Rowe 



Consumption and Regeneration of Silicic Acid in 

 Upwelling Systems 



Kinetics of Nutrient Uptake Program Management 



Kinetics of Nutrient Uptake 



Enzymatic Determination of Biological Transforma- 

 tion 



Systems Model of Upwelling Ecosystems 



Nutrient Regeneration and Excretion 



Physical Dynamics of the Frontal Zone 



Primary Production, Chelation, and Toxicity Pro- 

 gram Management 



Primary Production, Chelation, and Toxicity 



Diagnostic Modeling Studies in JOINT-II 



Simulation of Time-Dependent Coastal Upwelling 

 Circulation 



Meteorological Support for the JOINT-II Expedition 



Study of Frontal Dynamics and Mesoscale Circula- 

 tion In Coastal Upwelling Zones by Lagrangian 

 Measurements 



Physical Dynamics of the Frontal Zone 



Theoretical Studies and the Dynamical Interpreta- 

 tion of Flow Field Observations 



Mesoscale Hydrography During JOINT-II 



Mesoscale Circulation in Coastal Upwelling Sys- 

 tems; Program Management 



Nutrient and Phytopiankton Fields; Interactive 

 Real-Time Information System (IRIS) 



Carbon, Nitrogen, and Phosphorus Cycles on the 

 Sea Floor of an Upwelling Region 



Near-Surface Circulation Studies in a Coastal Up- 

 welling Environment 



Mesoscale Hydrography During JOINT-II 



Acoustic Assessment of Nekton 



Carbon, Nitrogen, and Phosphorus Cycles on the 

 Sea Floor of an Upwelling Region 



4. The Latin American Countries along the Pacific Coast 

 have initiated the study "Estudio Regional del Fcnomeno El 

 Nino" (ERFEN). This program monitors the oceanic and 

 atmospheric environment from about 10° N to 35° S, extend- 

 ing west 500 km from South America. It documents the 



large-scale climatic and oceanographic features within the 

 JOINT-II study area. JOINT— II results will increase our un- 

 derstanding of the El Nifio phenomenon by identifying meso- 

 scale processes that are driven by the large-scale disturbance 

 and which cause the productivity of the region to collapse. 



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