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What Were We Supposed to Have Done in CAM4 with Chemistry? Who will do what?

Published byPaul Hines Modified over 9 years ago

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Presentation on theme: "What Were We Supposed to Have Done in CAM4 with Chemistry? Who will do what?"— Presentation transcript:

1 What Were We Supposed to Have Done in CAM4 with Chemistry? Who will do what?

2 My View of Priority Items

3 Chemistry model in CCSM MOZART4 Incorporated into CCSM – CAM and MOZART routines checked against each other Chemical Mechanism – MZ4 mechanism in place. – Simple input of fixed chemical oxidants – Query functions so chemical mechanism easy to change. Additions to mechanism for SOA formation (Heald) DONE Dry deposition – Wesley deposition in place (MZ4) Wesley deposition input into CLM DONE Updated scheme using information from CLM (LAI, stomatal resistance) HP Photolysis – Fast TUV in place Update to Prather Fast-J HP Use of sophisticated cloud overlap (Neu) HP Consistency between CAM and CHEM in treatment of aerosols HP

4 Chemistry in CCSM continued Emissions – MEGAN emissions algorithm for isoprene/monoterpene in CLM Update for other biogenic emissions Interactive injection height for biomass burning emissions Washout (gas) – Giorgi and Chameides (both large-scale and convective) Update to more physically based scheme with realistic cloud overlap HP Include explicit washout within convective scheme HP Washout (aerosol) – Updated to Rasch scheme Impact and nucleation scavenging (Ghan, in development) HP (Consistency between Indirect Effect and Aerosols)

5 Chemistry model in CCSM continued Aerosols – MOZART4 bulk aerosol scheme w/ NH4NO3 – Interactive Sea-salt and Dust (Mahowald) – Aerosol-Radiation coupling – Ability to use sulfate scheme with input oxidants Coupling to cloud microphysics (Gettleman) In Progress Internally mixed 4 or 7 mode scheme (Ghan, Liu) HP Upper Boundary Conditions – Stratospheric concentrations specified – Synoz – Stratospheric Chemistry in CAM (Lamarque) Done

6 Chemistry model in CCSM continued Online/Offline capability – Aerosol-Radiation coupling – Extension of offline model to WACCM Evolution of lower part of model from analyzed winds Evolution of upper part of model computed dynamically Data assimilation capabilities – Ensemble Kalman Filter Meteorological/Chemical data assimilation Coupling to CLM/Ocean models – Nitrogen coupling to the C cycle – Biomass burning algorithm DMS and other ocean emissions CH4 emissions Ozone/Acid rain and the biosphere Downscaling and coupling with WRF-chem

7 Priorities Photolysis scheme Dry deposition Washout Aerosols

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