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Status of MOZART-2 Larry W. Horowitz GFDL/NOAA MOZART Workshop November 29, 2001.

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Presentation on theme: "Status of MOZART-2 Larry W. Horowitz GFDL/NOAA MOZART Workshop November 29, 2001."— Presentation transcript:

1 Status of MOZART-2 Larry W. Horowitz GFDL/NOAA MOZART Workshop November 29, 2001

2 MOZART-2 Description Resolution (typical) – 278,528 Grid Cells: Surface to approximately 40 km altitude – 1-2 km resolution Horizontal Resolution: 2.8° X 2.8 ° Dynamical Processes: Met. Fields: Driven by MACCM3 or Analyzed Fields (e.g., NCEP)- winds and temperatures Advection: Flux-form semi-Lagrangian advection scheme [Lin and Rood, 1996] Convection: Rediagnosed by MATCH using Hack [1994] for mid-level convection and Zhang and MacFarlane [1995] scheme for deep convection Boundary layer exchange: Parameterization of Holstag and Boville [1993] Wet and Dry Deposition: Wet deposition: - Represented as a first-order loss process within the chemistry operator, using large scale and convective precipitation rates diagnosed by MATCH. -Soluble species removed by in-cloud scavenging [Giorgi and Chamedes, 1985] -Highly soluble species are also removed by below cloud washout [Brasseur et al., 1998] Surface dry deposition: uses the approach of Wesely [1989]

3 MOZART-2 Description Continued Chemical Constituents and Mechanism: Approximately 63 Chemical Species: Including O x, NO x, HO x, CH 4, C 2 H 6, C 3 H 8, C 2 H 4, C 3 H 6, C 4 H 10, isoprene, terpenes 133 gas-phase, 2 heterogeneous, and 33 photolytic reactions Source Gas Emissions: Surface: CO, NO, CH 4, C 2 H 6, C 3 H 8, C 4 H 10, C 2 H 4, C 3 H 6, isoprene, terpenes, CH 3 COCH 3, CH 3 OH Lightning NO x :  4 Tg N yr -1 [Price et al., 1997; Pickering et al., 1998] Aircraft: CO, CH 4, NOx (0.44 Tg N yr -1 ) [NASA, 1995] Stratospheric Constituents Constrained for: NOx, HNO 3, N 2 O 5, CH 4, CO, and N 2 O (middle atmosphere model STARS, Brasseur et al., 1997), O 3 100 hPa to tropopause [Logan, 1999]; above 100 hPa [HALOE data, Randel et al., 1999] 10-day relaxation time constant

4 MOZART-2 Recent Changes Emissions –Biomass burning emission ratios [Andreae and Merlet, 2001] –Acetone [Jacob et al., 2001] –Added methanol (CH 3 OH) and ethanol (C 2 H 5 OH) [Granier] Revision to chemical mechanism [Tyndall and Orlando] Wet deposition scheme [Giorgi and Chameides, 1985] [Tie] Zhang convection bugfix

5 Emissions

6 Model Evaluation – Ozonesondes

7 Model Evaluation – Ozonesondes (cont’d)

8 Model Evaluation – CMDL Surface CO

9 Model Evaluation – Aircraft NO x

10 Model Evaluation – Aircraft HNO 3

11 Sensitivity of HNO 3 to Wet Deposition Red: new wet deposition Green: “old” wetdep

12 Sensitivity of HNO 3 to Wet Deposition Red: new wet deposition Green: G&C wetdep (Tie)

13 Model Evaluation – Aircraft PAN

14 Sensitivity of PAN to Chemical Mechanism Red: standard run Green: reduced PAN yields from isoprene

15 Sensitivity of PAN to Emissions Red: standard run Green: 0.5*E(isop,terpenes)

16 Model Evaluation -- Summary O 3, NO x, HNO 3, NMHCs, peroxides – Excellent agreement with observations CH 2 O and Acetone – Good agreement at most locations CO, PAN –Systematic bias at some locations

17 Ozone Budget

18 Ozone Fluxes Colors: [O 3 ] (ppbv) Arrows: zonal avg. O 3 fluxes (Tg/y)

19 “Stratospheric Ozone” Fluxes Colors: [O 3 S] (ppbv) Arrows: zonal avg. O 3 S fluxes (Tg/y)

20 Oxidizing Capacity (OH)

21 Oxidizing Capacity (cont’d) Methane lifetime (MOZART) = 10.7 years IPCC “best guess” = 9.6 years  OH may be underestimated by ~10% NB: Methane lifetimes above are calculated as: (strat+trop CH 4 burden) / (trop CH 4 loss)

22 Model Description/Evaluation Paper Horowitz et al., A global simulation of tropospheric ozone and related tracers: Description and Evaluation of MOZART, version 2 Nearly ready for submission to J. Geophys. Res. Available now at: http://www.gfdl.noaa.gov/~lwh/mozart/mozart.html along with model evaluation plots, etc.

23 Future Plans Near-term (for “freeze” of MOZART-2) –Photolysis lookup table (LUT) –Problems with OH/CO –Upper tropospheric PAN NO/NO 2 ratio (?) Convection (?) –Lin & Rood mass conservation (LLNL)

24 Future Plans Longer-term –Re-examine assimilated wind version of MOZART (NCEP) –Aerosols in MOZART-2 –Coupling to GCMs and CSMs (NCAR CCM/CCSM and GFDL FMS AM3)

25 NO/NO 2 Ratio

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