FUNDING FOR THE UNIVERSITY OF DELAWARE (UD) WILL SUPPORT THE PI DR. XINFENG LIANG IN THE TRANSFERRED PROJECT ENTITLED USING SATELLITE AND DEEP OCEAN MEASUREMENTS TO INVESTIGATE THE INFLUENCE OF MESOSCALE EDDIES ON DEEP OCEAN INTERNAL WAVES WHICH WAS AWARDED BY THE NATIONAL AERONAUTICS AND SPACE ADMINISTRATION THROUGH THE NEW (EARLY CAREER) INVESTIGATOR PROGRAM (NIP) IN EARTH SCIENCE PROGRAM. THE AWARD NUMBER IS 80NSSC18K0831. WORK AT UD WILL BE CARRIED OUT BY LIANG AND A POSTDOC ASSOCIATE DR. YINGLI ZHU. FOCUS WILL BE TASKS RELATED TO THE INVESTIGATION OF THE INFLUENCE OF MESOSCALE EDDIES ON THE DEEP OCEAN INTERNAL WAVES AROUND THE GLOBAL OCEAN. TO ACHIEVE THIS GOAL THE TEAM PROPOSES TO COMBINE ALTIMETER DATA AND AN ARCHIVE OF DEEP.OCEAN MEASUREMENTS TO INVESTIGATE THE CONNECTIONS BETWEEN SURFACE.OBSERVED MESOSCALE EDDIES AND DEEP.OCEAN DYNAMICAL PROCESSES IN PARTICULAR SUBINERTIAL FLOWS AND INTERNAL WAVES OVER THE GLOBAL OCEAN. THE TEAM WILL FIRST OBTAIN SUBINERTIAL CURRENTS IN THE LESS.STUDIED DEEP OCEAN (BELOW 2000 M) AND EXAMINE UNDER WHAT CIRCUMSTANCES THESE CURRENTS ARE ASSOCIATED WITH MESOSCALE EDDIES REVEALED IN THE ALTIMETER DATA. THEN THE TEAM WILL INVESTIGATE THE RELATIONSHIPS BETWEEN SUBINERTIAL CURRENTS AND NEARINERTIAL/ TIDAL CURRENTS IN THE DEEP OCEAN IN RELATIONSHIPS ALSO TO OTHER FACTORS (E.G. TOPOGRAPHY LATITUDE AND REGIONAL CIRCULATION). THE FIRST STAGE OF THE PROJECT IN WHICH THE TEAM INVESTIGATED THE IMPACTS OF MESOSCALE EDDIES ON THE DEEP OCEAN CIRCULATION AND NEAR.INERTIAL OSCILLATION IN THE GULF OF MEXICO IS ALMOST FINISHED. WE WILL EXTEND THE REGIONAL TEST STUDY TO THE GLOBAL OCEAN AT UD. THE PROPOSED STUDY WILL EXTEND THE USE OF SATELLITE MEASUREMENTS TO BETTER STUDYING THE DEEP OCEAN WHICH IS POORLY UNDERSTOOD BUT GENERALLY BELIEVED PLAYING AN ESSENTIAL ROLE IN THE RESPONSE OF THE OCEAN TO THE CHANGING CLIMATE. ALSO THE POTENTIAL INFLUENCE OF MESOSCALE EDDIES ON DEEP OCEAN PROCESSES IS IMPORTANT IN A VARIETY OF CONTEXTS INCLUDING THE DISPERSAL OF LARV AND GEOCHEMICAL TRACERS AND SEDIMENT TRANSPORT ETC. ALSO SINCE FREQUENCY AND INTENSITY OF MESOSCALE EDDIES DEPEND ON THE STATE OF THE CLIMATE THE EDDY MODULATION OF DEEP.OCEAN CURRENTS INTERNAL WAVES AND MIXING CONNECTS CLIMATE CHANGE AND CLIMATE VARIABILITY TO PHYSICAL AND BIOGEOCHEMICAL DYNAMICS IN THE DEEP OCEAN ALLOWING FOR UNEXPLORED CLIMATE FEEDBACK MECHANISMS. AS PI LIANG WILL BE RESPONSIBLE FOR OVERLOOKING THE PROJECT AND WORKING WITH POSTDOC ZHU TO CONDUCT SOME OF THE PROPOSED ANALYSES. POSTDOC ZHU WILL BE MOSTLY RESPONSIBLE FOR THE DATA ANALYSES. BOTH LIANG AND ZHU WILL BE INVOLVED IN THE PREPARATION OF RESEARCH RESULTS FOR DISSEMINATION IN CONFERENCES AND THE REFEREED LITERATURE.
$185,678FY2020National Aeronautics and Space AdministrationNASA
University Of Delaware, Newark DE