HFIP Ocean Model Impact Tiger Team (OMITT) Kim et al. 1 Wednesday March 4, 2015 The 69 th Interdepartmental Hurricane Conference March 2-5, 2015 Jacksonville,

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HFIP Ocean Model Impact Tiger Team (OMITT) Kim et al. 1 Wednesday March 4, 2015 The 69 th Interdepartmental Hurricane Conference March 2-5, 2015 Jacksonville, FL Chair and co-chair: H.-S. Kim, G. Halliwell Team: L. Bernardet, P. Black, N. Bond, S. Chen, J. Cion, M. Cronin, J. Dong, I. Ginis, B. Jaimes, B. Liu, E. Sanabia, N. Shay, V. Tallapragada, B. Thomas, E. Uhlhorn, and L. Zhu Institutions: EMC, DTC, HRD/AOML, PhoD/AOML, PMEL, USNA, Navy, URI, UMiami, and UWashington

Kim et al. 2 Overview 1.Objectives 2.Approaches 3.Groups and Primary Tasks 4.Progress 5.Near Future Plans 6.Related Presentations at IHC

1. Objectives Determine the benefit of coupling ocean models of various complexity to the hurricane atmospheric model, by assessing the impacts of the ocean components on the HWRF forecasts and the sensitivity of these impacts on air-sea interface, surface flux, and atmospheric parameters. Background: Several studies have demonstrated already in the past, e.g. Lee and Chen (2014), Yablansky and Ginis (2014), and Wada and Usui (2007 and 2010). Q1 : What would this effort be different from the past research/effort? Q2 : Observation limits the effort. What are options? Q3 : What do we expect at the end of one year? … Year-End Goal: Submit Recommended strategies to improve ocean model performance in TC forecasts, prepare a report and present results in 2015 HFIP annual meeting. Kim et al. 3

2. Approaches Models: 1. 3D Ocean couple POM (w/ HWRF), HYCOM (w/ HWRF), and NCOM (w/ COAMPS-TC) Performed in 3 basins – NAtl, EPac, and WNP. 2. 1D Ocean couple – Mixing physics M-Y and KPP w/ momentum balance in a column No simulations done, but can be conducted on demand. Reserve this for Ideal Runs. 3. Specified SST – a) Persistent SST from GFS/GDAS (RTG), NCODA and RTOFS nowcasts - objective: what is the impact of mesoscale variability of SST. (Preliminary Results in slides 11-12) b) Updated SST (from global RTOFS products) Can be performed in all 3 basins. Approach – build Metrics and Diagnostic Tools for effective and consistent analysis Kim et al. 4

5Kim et al Groups and Primary Tasks modeling run evaluation data warehouse Data & tools – collect, archive at DTC, and distribute Bernardet; Black; Cion; Halt; Kim; Sanabia; Shay; Uhlhorn Real cases – evaluate and compare with obs. Black, Chen, Cion, Halliwell, Jaimes, Kim, Liu, Sanabia, Shay, Uhlhorn, Zhu Design simulations – e.g., run real cases on demand or sensitivity study Chen, Dong, Halliwell; Ginis; Thomas; Zhu Communicate at biweekly telecons with goals of: 1. Build synergy bwn modelers and field scientists, 2. Exchange diagnostic tools and make them available, 3. Update progress, and 4. Assist publications.

Kim et al Progress Defined (as of February 2015) a)Models, Groups, Regular telecon times, Definitions – done b)Storms, Metrics, Data & tools Repository – almost complete Primary Storms of Interest Cases selected from the 2014 operational, and upgraded T&E runs, based on a) the strength of ocean influence, and b) the availability of ocean and atmosphere observations Runs by non-coupled, and coupled but with different ocean models as operational or experimental exercise in 3 basins – N. Atlantic (NAtl), E. Pacific (EPac), and W. N. Pacific (WNP).  NAtl Edouard (2014), Isaac (2012), and Gonzalo (2014)  EPac Julio (2014) and Iselle (2014)  WNP Fengshen (2014), Pabuk (2013), Kammuri (2014) and Soulik (2013) 4-1

Kim et al Progress Data DTC’s Mesoscale Model Evaluation Testbed (MMET) repository of simulations and observations.  Observations The SS funded ocean obs. - leverage  Target obs. – air-borne, unman vehicle, ?  Mooring obs. – KEO, TAO, NDBC, ?  Lagrangian obs. – gliders, drifts, floats, ?  Remote sensing obs. – MW, IR, Wind, ?  Simulations  Operational HWRF (HWRF-POM),  Experimental HWRF (HWRF-HYCOM) and COAMPS-TC, and  Ideal cases – non-coupled, 1D and 3D ocean coupled. 4-2

Mesoscale Model Evaluation Testbed (how it can help HFIP OMITT) – What: Mechanism to assist research community with initial stage of diagnostics and testing, with the goal of leading to model improvements – Can provide: Observational datasets Forecasts and verification from selected model configurations Code for conducting model runs Where: Hosted by the DTC; served through Repository for Archiving, Managing and Accessing Diverse DAta (RAMADDA) Model and observation data sharing by L. Bernardet, 13 th February Progress 4-3 Kim et al. 8

Kim et al Progress Metrics Use consistent definitions  Oceanic Mixed Layer depth (MLD)  storm footprint  surface layer Diagnostic depths Diagnostic Tools DTC’s “hwrf-contrib” SVN repository for diagnostic tools DTC’s hwrf-contrib for tools Repository by C. Halt Feb. 13, 2015

Kim et al Progress Sensitivity to SST (J. Dong and H-S Kim) Experiment design:  Non-coupled HWRF  SST:  Constant SST (25, 27 and 28 o C)  GFS/GDAS (RTG) – available daily  NCODA – available daily and/or 6 hourly  global RTOFS – available hourly  Approach Hurricane Edouard (2014) atmospheric conditions but using persistent SST. 4-5 Experiment 1 (next 2 slides) Spatially uniform vs. varying SST, but persistent (Non-Coupled HWRF) a)constant SST – 27 and 28 o C b)spatial varying SST – 00Z SST from GFS, NCODA and RTOFS

Kim et al Progress Preliminary Results for Experiment 1 Non-coupled HWRF using persistent SST (spatially uniform vs. varying) 4-6 Track – a similar bias pattern: northward for 0-30 hrs, southwestward for hrs, and eastward for hrs. Except 28 o C SST’s track is excellent for hrs. Intensity – two groups: Large difference between constant SSTs. Less differences among spatially varying SST.  Constant SST results in under-prediction for 27 o C and over-prediction for 28 o C.  All GFS, NCODA and RTOFS SST show a similar forecasts. Sensitivity to SST (J. Dong and H-S Kim)

Kim et al Progress Preliminary Results  Best w/ RTOFS SST  Worse w/ constant SST 4-6 Error Bias 1. Constant SST – large error at later lead times; and the same for bias to negative in P min for 28 o C and positive for 27 o C, and opposite for V max. 2. RTOFS (pink) – less spin- up/down; overall small error and bias at later lead times, cf others. 3. NCODA (yellow) – relatively large bias and errors, starting from 24-hr and persistent. 4. GFS (green) – comparatively better performed than NCODA, except abnormal peak in bias around 24 hr. Note: different color codes from the previous slide. Sensitivity to SST (J. Dong and H-S Kim)

Kim et al Complete a write-up of the OMITT Work Plan 2.Build tools to extract and estimate a minimum set of TC parameters – reduction of the simulation outputs for a easy reference to the OMI investigation 3.Build a database for storms of interest 4.Complete building of 3D HYCOM coupling Ideal case 5.Transition Tools to Operation 6.Assist Field Observation 7.Reinforce collaborations – e.g., invite atmospheric scientists to the telecon 5. Near Future Plans

Kim et al Related Presentations at IHC  P01: Upper Ocean Observations in Hurricane Edouard Uhlhorn et al.  P04: Support for Users and Developers of the Hurricane WRF Model Bernardet et al.  P11: Kuroshio Extension Observatory (KEO) Measurements of the Upper-Ocean Response to Tropical Cyclones in the Western North Pacific Bond et al.  S1-05: 2014 AXBT Demonstration Project: Operations Summary and Research Update Sanabia and Black  S3b-02: Improving the Ocean Component of the Operational HWRF and GFDN/GFDN Hurricane Models Ginis et al.  S5a-01: Advanced Operational Global Tropical Cyclones Forecasts from NOAA’s High- Resolution HWRF Modeling System Tallapragada  S5a-06: Proposed 2015 NCEP HWRF Hurricane Forecasting Model Trahan et al.  S5b-03: Sensitivity of Ocean Sampling for Coupled COAMPS-TC Prediction Chen et al.  S5b-05: NOAA’s Use of the Coyote UAS in Hurricane Edouard to Enhance Basic Understanding and Improve Model Physics Cion et al.

Kim et al. 15