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Super-Regional Testbed to Improve Models of Environmental Processes on the U.S.
Atlantic and Gulf of Mexico Coasts
Shelf Hypoxia Progress/ Plans
John HardingNorthern Gulf Institute
SURA Shelf Hypoxia Face to Face Meeting 3-4 Mar 2011
Long Term Goal (5-10 yr)Gulf of Mexico Shelf Hypoxia
Develop and transition to operations a coupled biogeochemical/ physical model to forecast the
real-time, synoptic scale development and evolution of physical and ecosystem processes in
the northern Gulf of Mexico.
Initial Focus (1-2 yr)
• Evaluate impact of regional model boundary conditions on current coastal hypoxia modeling in the northern Gulf of Mexico
• Compare NOAA and EPA Approaches to Gulf hypoxia modeling
• Transition potential regional circulation component of this initial system as a baseline operational capability for application to: – real-time Coast Guard search and rescue operations – harmful algal bloom tracking – oil spill response applications
Challenge the Testbed Cyberinfrastructure to Create Capability to Enhance Academic/Operational Collaboration
MotivationWhy Gulf of Mexico Shelf Hypoxia?
• Multi-Agency (federal & State) Mississippi River/Gulf of Mexico Watershed Nutrient Task Force action step: “Continue to reduce uncertainty about the relationship between nitrogen and phosphorus loads and the formation, extent, duration, and severity of the hypoxic zone, to best monitor progress toward, and inform adaptive management of the Coastal Zone.” (http://www.epa.gov/msbasin/actionitems.htm)
• A near real-time synoptic scale hypoxia forecast capability will allow the capture of the true temporal variability of formation, extent, duration and severity of the Gulf of Mexico Dead Zone.
Fennel/ ROMS Model Grid, Bathymetry & Sample Salinity Snapshot for 28 Jul 93
Courtesy Dr. Rob Hetland, TAMU
What is impact of not having offshore forcing?
NRL Inter-American Seas Nowcast/ Forecast System(IASNFS) Real-Time Prediction
Courtesy Dr. Dong Shan Ko, NRL
Sub project 1: Assess hydrodynamic skill(nested vs. unnested hindcasts)
• Assess the skill at predicting currents, temperature and salinity (including stratification) of the Fennel/ ROMS shelf model – Not nested– Nested within the NOAA CSDL NGOM (POM)– Nested within the NRL IASNFS (NCOM) – Nested within the NRL/FSU GoM (HYCOM)
• Assess same for the NOAA CSDL nGOM (FVCOM) nested within the NOAA CSDL NGOM (POM)
• Allows a five way test bed for skill assessment between two different shelf models and three basin models using the same data and comparable evaluation techniques.
Sub-project 2a: Assess hypoxia skill(unnested vs. nested hindcasts)
• Assess the skill at predicting oxygen distributions of the coupled Fennel/ ROMS model – Not nested– Nested within the NOAA CSDL NGOM (POM)– Nested within the NRL IASNFS (NCOM) – Nested within the NRL/FSU GoM (HYCOM)
• Allows evaluation of the ecosystem model consistent with the hydrodynamic model evaluation
NRL Coastal Circulation Model coupled with EPA Ecosystem Model
(Nested in NRL IASNFS)
EPA Sampling Stations EPACOM Model Domain
Courtesy Dr. Dong Shan Ko, NRL
Sub-project 2b: Assess hypoxia skill(different hypoxia approaches)
• Assess the skill at predicting oxygen distributions of the coupled Fennel/ ROMS model and the coupled EPA GEM-Ko/ NCOM model both nested with the NRL IASNFS.
• Allows cross comparison of two hypoxia model approaches
GEM: Eldridge & Roelke (2010) Ecosystem Model, 3D modifications by Ko
Sub-project 3: Evaluate and Transition NAVOCEANO AMSEAS
• Evaluate and transition (from pre-operations to operations) the 3 km AMSEAS (NCOM) nowcast/forecast system;
• Provides near-term operational capability relevant to both future operational hypoxia applications as well as:– real-time Coast Guard search and rescue operations – harmful algal bloom tracking – oil spill response applications *
• Begin transition of NGI Developmental OceanNOMADS to NOAA NCDDC OceanNOMADS – Planned NODC version of NCDC National Operational Model Archive and
Distribution SystemNote: NAVOCEANO pre-operational AMSEAS, NRL R&D IASNFS, & NOAA NGOM POM among others were applied in NOAA ORR DHI forecasts
Project Leads
• John Harding, NGI – Shelf Hypoxia Modeling Team
• Rob Hetland, TAMU – Sub project 1: Assess hydrodynamic skill
(nested vs. unnested hindcasts)
• Katja Fennel, Dalhousie – Sub-project 2a: Assess hypoxia skill (unnested vs. nested hindcasts); – Sub-project 2b: Assess hypoxia skill (different hypoxia approaches)
• Jerry Wiggert, USM – Sub-project 3: Evaluate and Transition NAVOCEANO AMSEAS
Project Partners
• Frank Bub, NAVOCEANO *• Scott Cross, NOAA NCDDC *• Pat Fitzpatrick, MSU • Rick Greene, EPA NHEERL *• Courtney Harris, VIMS• Matt Howard, GCOOS• Dong Shan Ko, NRL
• John Lehrter, EPA NHEERL *• Alan Lewitus, NOAA CSCOR *• Bruce Lipphardt, U Del• Steve Morey, FSU• Rich Patchen, NOAA CSDL *• Eugene Wei, NOAA CSDL*• Jiangtao Xu, NOAA CSDL
* Unfunded Advisors