VOCAL VAMOS Ocean Cloud Atmosphere Land study VOCAL
- Slides: 23
VOCAL VAMOS Ocean – Cloud – Atmosphere - Land study
VOCAL THEME The theme of VOCAL is to better understand simulate how marine boundary layer cloud systems surrounding the Americas interact with the coupled ocean-atmosphere-land system on diurnal to interannual timescales.
VOCAL Scientific Issues • On what time and space scales does continental heating/mechanical forcing impact boundary layer cloud/radiative forcing? • How sensitive is the overall tropical circulation and ENSO to variations of Eastern Pacific cloud topped boundary layer properties and why? • What are dominant S/I feedbacks among Sc clouds, surface winds, upwelling, coastal currents and SST in E Pacific? • Does natural and anthropogenic aerosol variability significantly modulate the Sc?
VOCAL STRATEGIES • Global and mesoscale model evaluation and improvement (e. g parameterization development) using multiscale data sets. • Model sensitivity studies to refine hypotheses and target observations. • Science by synthesis/use of existing data sets, enhancement through targeted instrument procurement, algorithm evaluation and development, and enhanced observation periods. • Co-ordination with oceanographic, aerosol, cloud process communities, including CLIVAR CPT, CLOUDSAT, etc.
Progress/hypothesis generation • • • Cloud microphysics/drizzle (polynyas) Diurnal cycle (role of Andes, Sc dynamics) Role of Andes/flow blocking in influencing Sc. WHOI buoy/ocean energy budget Interest in coastal oceanography of region, including O-A interactions thru trapped coastal (e. g. Kelvin) waves. • Implementation of some VPM 5 plans
Galapagos I. Lima WHOI buoy San Felix I. Arica
Recommendations • Major continuing efforts in diagnostic, sensitivity, parameterization studies of SE Pac stratocumulus and variability based on past field studies, satellite/model products, and observational enhancements. • Add an ocean diagnostic study component based on ARGO/ODA, cruises, WHOI buoy aimed at better understanding of ocean upwelling/lateral heat transport processes and their reln. to atmospheric variability. • Global atm. /coupled, mesoscale atm. , and regional ocean modeling. • VOCAL ‘radiator fin’ coupled O-A-L expt. (Oct 06)
• Augment San Felix Island instrumentation with wind profiler, radiation, microwave LWP, and aerosol sampler. • NOAA/ETL sfc/remote sensing instrumentation on Pacific and Atlantic buoy maintenance cruises, as well as in RICO. • Develop a VOCAL data set through a distributed satellite/model/in situ data archive maintained by JOSS. Archive ECMWF and NCEP hi-res column data at WHOI buoy, SFI in co-ordination with CEOP. • Coordinate with proposed US CLIVAR cloud-climate sensitivity “climate process team” to feed into coupled model development.
VEPIC Timeline 2003 -2010 diagnostic/modeling work 2003 ETL-enhanced cruises SFI profiler VEPIC data archive 2004/11 Cloudsat 2005/01 RICO 2006/10 Radiator expt. Modeling, empirical, and satellite studies
Diurnal subsidence wave Cld microphys. gradient Coastal jet Ocn heat transport
Science Issues Cloud/drizzle/aerosol interactions Further offshore, usually larger cloud drop radius • Why? More aerosol near the coast? Pollution? Ocean productivity, DNS? Salt/wind? • How does this feedback on mean Sc albedo? Vertical PBL structure?
OCEAN (1) • Ekman. vs. eddy heat transport to the west. vs. airsea interaction • Vertical mixing at buoy: role of “sagging trades”, comparison with ocean GCMs • Horizontal extent of nutrients and relation to offshore transport mechanisms
OCEAN (2) • Space/time nature of eddy heat transport offshore • Vertical ocean (and atmosphere) cross-section along a latitude line • Regional ocean modeling of 1500 km nearest South American coast • Coastal wind jet and relation with coastal upwelling and clouds
CLOUD-PBL DYNAMICS • Space/time nature of eddy heat transport offshore • Vertical ocean (and atmosphere) cross-section along a latitude line • Regional ocean modeling of 1500 km nearest South American coast • Coastal wind jet and relation with coastal upwelling and clouds
COUPLED ISSUES • Seasonal cycle of SST • Continental influence on long timescales • Cloud feedbacks on ENSO
IMPLEMENTATION (1) • San Felix (Rene, Bruce, Bob): Now: Met. , ceilometer (funded 1, 5 y), SST Plan: Drizzle detection, sonic Need: Profile ($20 K+), radiation, aerosols Cloud radar (? ) • RH Brown (or other US ship, Chris Fairall) Covered already by PACS/other NOAA (250 K/y) Student for analysis (Bretherton/Student, 100 k/y)
IMPLEMENTATION (2) • RICO/trade Cu: (Graciela Raga, aerosol) • Satellite observations – JOSS: Coordinate sat. obs. for RICO site – Diagnostic studies, analysis, post-processing • SCM/LES of diurnal cycle/drizzle in Scu
IMPLEMENTATION (3) • Mesoscale modeling: UCH (Rene et al. ), synoptic scale/diurnal variability, parameterization, connection to Andes heating. • Global modeling: UCLA/UR-Uruguay: mean circulation, ENSO feedbacks, interaction with orography on seasonal timescale. CAM-UW: PBL
IMPLEMENTATION (4) • Ocean diagnostic studies: – Ken T. , Bob W. , Ted Strub, Pilar C. – O. Pizarro, A. Miller – Ocean data assimilation, ECCO. vs. buoy – Horizontal heat transport via eddies
IMPLEMENTATION (5) • Ocean regional modeling – Patrick M. (France), coastal E. P, Bibliography – Oscar Pizarro’s colleague @ Concepcion – Pablo Lagos (Princeton ocean model) – Art Miller (Scripps) • CPT • Field Experiment “SE Pacific Radiator” (Oct. 06)
• Physical processes that contribute to the circulation whose predictability we are trying to assess.
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