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1 NATIONAL OCEANIC AND ATMOSPHERIC ADMINISTRATION I GREAT LAKES ENVIRONMENTAL RESEARCH LAB I ANN ARBOR MI Methods Atmospheric Conditions i.GLCFS interpolated.

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Presentation on theme: "1 NATIONAL OCEANIC AND ATMOSPHERIC ADMINISTRATION I GREAT LAKES ENVIRONMENTAL RESEARCH LAB I ANN ARBOR MI Methods Atmospheric Conditions i.GLCFS interpolated."— Presentation transcript:

1 1 NATIONAL OCEANIC AND ATMOSPHERIC ADMINISTRATION I GREAT LAKES ENVIRONMENTAL RESEARCH LAB I ANN ARBOR MI Methods Atmospheric Conditions i.GLCFS interpolated meteorology (current operations) – Land-based (and buoy) observations – Over-water correction ii.Reconstruct meteorology on May 27, 2012 (idealized squall line) – Investigate wind/pressure observations – Develop idealized forcing conditions to represent storm (1-min) iii. Modeled atmospheric conditions (hi-res simulation) – WRF 4km resolution (5 min) – Great Lakes basin nested grid – NARR boundary conditions (started on May 26 at 12:00GMT) Hydrodynamic Model Next-generation NOAA Lake Erie Operational Forecasting System (LEOFS) – Finite Volume Coastal Ocean Model (FVCOM) – 100-meter resolution – Initialized from FVCOM-LEOFS model (500m-2km resolution) – Driven by wind and pressure forcing

2 2 NATIONAL OCEANIC AND ATMOSPHERIC ADMINISTRATION I GREAT LAKES ENVIRONMENTAL RESEARCH LAB I ANN ARBOR MI (i) GLCFS interpolated meteorology 16:0017:00 19:00 22:0023:00 00:00 Wind Speed

3 3 NATIONAL OCEANIC AND ATMOSPHERIC ADMINISTRATION I GREAT LAKES ENVIRONMENTAL RESEARCH LAB I ANN ARBOR MI (i) GLCFS interpolated meteorology FVCOM: Water Level Response

4 4 NATIONAL OCEANIC AND ATMOSPHERIC ADMINISTRATION I GREAT LAKES ENVIRONMENTAL RESEARCH LAB I ANN ARBOR MI (ii) Reconstructed Meteorology

5 5 NATIONAL OCEANIC AND ATMOSPHERIC ADMINISTRATION I GREAT LAKES ENVIRONMENTAL RESEARCH LAB I ANN ARBOR MI

6 6 (ii) Reconstructed Meteorology FVCOM: Water Level Response

7 7 NATIONAL OCEANIC AND ATMOSPHERIC ADMINISTRATION I GREAT LAKES ENVIRONMENTAL RESEARCH LAB I ANN ARBOR MI WRF: Wind Speed (iii) Modeled Meteorology (WRF) (Animation Available Upon Request)

8 8 NATIONAL OCEANIC AND ATMOSPHERIC ADMINISTRATION I GREAT LAKES ENVIRONMENTAL RESEARCH LAB I ANN ARBOR MI (iii) Modeled Meteorology (WRF) (Animation Available Upon Request) FVCOM: Water Level

9 9 NATIONAL OCEANIC AND ATMOSPHERIC ADMINISTRATION I GREAT LAKES ENVIRONMENTAL RESEARCH LAB I ANN ARBOR MI

10 10 NATIONAL OCEANIC AND ATMOSPHERIC ADMINISTRATION I GREAT LAKES ENVIRONMENTAL RESEARCH LAB I ANN ARBOR MI (iii) Modeled Meteorology (WRF) FVCOM: Water Level Response Wave reflection from 1 st band Focusing due to shape of northern coastline Edge waves produced along southern shore

11 11 NATIONAL OCEANIC AND ATMOSPHERIC ADMINISTRATION I GREAT LAKES ENVIRONMENTAL RESEARCH LAB I ANN ARBOR MI (iii) Modeled Meteorology (WRF)

12 12 NATIONAL OCEANIC AND ATMOSPHERIC ADMINISTRATION I GREAT LAKES ENVIRONMENTAL RESEARCH LAB I ANN ARBOR MI Conclusions Meteotsunami-inducing storms can move undetected through observation network Derechos are increasing! [Ashley et al., 2005] High-resolution models can capture the mechanisms behind meteotsunami formation Even “medium” resolution models capture general dynamics Atmospheric forcing conditions are crucial Advanced weather forecast products can resolve spatio-temporal features of meteotsunami- inducing storms NOAA High-Resolution Rapid Refresh (HRRR); 3km met. Next-Generation NOAA GLOFS models use HRRR forcing

13 13 NATIONAL OCEANIC AND ATMOSPHERIC ADMINISTRATION I GREAT LAKES ENVIRONMENTAL RESEARCH LAB I ANN ARBOR MI Questions ? eric.j.anderson@noaa.gov

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