logging in or signing up wp3 Prudenza Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINTLite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 36 Category: Education License: All Rights Reserved Like it (0) Dislike it (0) Added: February 28, 2008 This Presentation is Public Favorites: 0 Presentation Description No description available. Comments Posting comment... Premium member Presentation Transcript AMMA-UK WP3 – Convection and dynamics : AMMA-UK WP3 – Convection and dynamics Doug Parker Institute for Atmospheric Science School of Earth and Environment University of Leeds 29 November 2004WP3 Objectives: WP3 Objectives To explain the basic dynamics and transport properties of the WAM system, including the diurnal cycle of the boundary layer control on the monsoon, and the response to shallow and deep cumulus convection. Slide3: Water vapour 17/6/97 Moist convection in the south, dry convection in the north (the Sahara): a ‘natural laboratory’ for tropical continental convection. Monsoon winds African Easterly Jet (AEJ) 600 hPaSlide4: Shallow cumulus Mixed layer Deep convectionSlide5: 1. The analysis of the African Easterly Jet is good ECMWF analyses (Adrian Tompkins; in Thorncroft et al, BAMS 2003): Sahara ITCZSlide6: Courtesy Tompkins, ECMWF. 700 hPa zonal winds, averaged over August 2003 Systematic error! We need to represent the physics better. 2. The forecast has systematic errorSlide7: 3. Significnt errors in ECMWF PBL fields compared to observations (Aida Diongue; in Thorncroft et al., BAMS 03) Potential temperature Equivalent potential temperatureThere is cool, humid air too far north. Surface fluxes? Advective fluxes? Column radiation?: There is cool, humid air too far north. Surface fluxes? Advective fluxes? Column radiation?Slide9: 4. The monsoon flow is active at night and in the morning.Slide10: The observed monsoon (v-wind) is much more irregular. Recent rainfallSlide11: Chris Taylor, CEH Wallingford Surface temperature (1200 UTC) and boundary layer TKE in the afternoon (around 1500 UTC)WAM dynamics: WAM dynamics By day, the boundary layer ‘maps’ onto soil moisture By night, airflow responds to pressure gradientsWP3 Objectives Convection-soil moisture-diurnal: WP3 Objectives Convection-soil moisture-diurnal WP3.1 To develop validated model case studies of the diurnal cycle of convection in the continental WAM, and over anomalies of soil moisture (with WP1; using OWP1, OWP3 and OWP4 data). WP3.2 To use case studies to quantify the response of the WAM dynamics to Mesoscale Convective Systems (MCSs) (using OWP1,3,4). Slide14: Mixing ratio – an atmospheric tracer showing nocturnal circulations WP3 Objectives: Transport: WP3 Objectives: Transport WP3.3 To quantify the transport properties of dry and moist convective circulations, on the mesoscale and the continental scale, through model case studies and through use of chemical tracers that act as markers of source regions and of air mass ages (with WP4). Within this, to model mixing in the monsoon layer and its implication for the monsoon fluxes (using OWP1,3,4 data).Slide16: C. M. Taylor et al, QJRMS, 2005WP3 Objectives: synoptic: WP3 Objectives: synoptic WP3.4 To develop synoptic cases studies of AEW structure both north and south of the AEJ, and explore the interaction of these AEWs with soil moisture patterns (with WP1; using OWP1,3,4 data). WP3.5 To describe the evolution of the SAL on synoptic and diurnal timescales.Flight patterns: Flight patterns Stacked N-S legs in association with MCSs Early morning / late evening Long straight legs in boundary layerSummary of ‘soundbites’: Summary of ‘soundbites’ The analysis of the African Easterly Jet is good The forecast has systematic error Significnt errors in ECMWF PBL fields compared to observations The monsoon flow is active at night and in the morning Slide21: African Monsoon Multidisciplinary Analyses Afrikanske Monsun: Multidisiplinære Analyser Afrikaanse Moesson Multidisciplinaire Analyse Analisi Multidisciplinare per il Monsone Africano Afrikanischer Monsun: Multidisziplinäre Analysen Analisis Multidiciplinar de los Monzones Africanos Analyses Multidisciplinaires de la Mousson Africaine You do not have the permission to view this presentation. In order to view it, please contact the author of the presentation.
wp3 Prudenza Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINTLite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 36 Category: Education License: All Rights Reserved Like it (0) Dislike it (0) Added: February 28, 2008 This Presentation is Public Favorites: 0 Presentation Description No description available. Comments Posting comment... Premium member Presentation Transcript AMMA-UK WP3 – Convection and dynamics : AMMA-UK WP3 – Convection and dynamics Doug Parker Institute for Atmospheric Science School of Earth and Environment University of Leeds 29 November 2004WP3 Objectives: WP3 Objectives To explain the basic dynamics and transport properties of the WAM system, including the diurnal cycle of the boundary layer control on the monsoon, and the response to shallow and deep cumulus convection. Slide3: Water vapour 17/6/97 Moist convection in the south, dry convection in the north (the Sahara): a ‘natural laboratory’ for tropical continental convection. Monsoon winds African Easterly Jet (AEJ) 600 hPaSlide4: Shallow cumulus Mixed layer Deep convectionSlide5: 1. The analysis of the African Easterly Jet is good ECMWF analyses (Adrian Tompkins; in Thorncroft et al, BAMS 2003): Sahara ITCZSlide6: Courtesy Tompkins, ECMWF. 700 hPa zonal winds, averaged over August 2003 Systematic error! We need to represent the physics better. 2. The forecast has systematic errorSlide7: 3. Significnt errors in ECMWF PBL fields compared to observations (Aida Diongue; in Thorncroft et al., BAMS 03) Potential temperature Equivalent potential temperatureThere is cool, humid air too far north. Surface fluxes? Advective fluxes? Column radiation?: There is cool, humid air too far north. Surface fluxes? Advective fluxes? Column radiation?Slide9: 4. The monsoon flow is active at night and in the morning.Slide10: The observed monsoon (v-wind) is much more irregular. Recent rainfallSlide11: Chris Taylor, CEH Wallingford Surface temperature (1200 UTC) and boundary layer TKE in the afternoon (around 1500 UTC)WAM dynamics: WAM dynamics By day, the boundary layer ‘maps’ onto soil moisture By night, airflow responds to pressure gradientsWP3 Objectives Convection-soil moisture-diurnal: WP3 Objectives Convection-soil moisture-diurnal WP3.1 To develop validated model case studies of the diurnal cycle of convection in the continental WAM, and over anomalies of soil moisture (with WP1; using OWP1, OWP3 and OWP4 data). WP3.2 To use case studies to quantify the response of the WAM dynamics to Mesoscale Convective Systems (MCSs) (using OWP1,3,4). Slide14: Mixing ratio – an atmospheric tracer showing nocturnal circulations WP3 Objectives: Transport: WP3 Objectives: Transport WP3.3 To quantify the transport properties of dry and moist convective circulations, on the mesoscale and the continental scale, through model case studies and through use of chemical tracers that act as markers of source regions and of air mass ages (with WP4). Within this, to model mixing in the monsoon layer and its implication for the monsoon fluxes (using OWP1,3,4 data).Slide16: C. M. Taylor et al, QJRMS, 2005WP3 Objectives: synoptic: WP3 Objectives: synoptic WP3.4 To develop synoptic cases studies of AEW structure both north and south of the AEJ, and explore the interaction of these AEWs with soil moisture patterns (with WP1; using OWP1,3,4 data). WP3.5 To describe the evolution of the SAL on synoptic and diurnal timescales.Flight patterns: Flight patterns Stacked N-S legs in association with MCSs Early morning / late evening Long straight legs in boundary layerSummary of ‘soundbites’: Summary of ‘soundbites’ The analysis of the African Easterly Jet is good The forecast has systematic error Significnt errors in ECMWF PBL fields compared to observations The monsoon flow is active at night and in the morning Slide21: African Monsoon Multidisciplinary Analyses Afrikanske Monsun: Multidisiplinære Analyser Afrikaanse Moesson Multidisciplinaire Analyse Analisi Multidisciplinare per il Monsone Africano Afrikanischer Monsun: Multidisziplinäre Analysen Analisis Multidiciplinar de los Monzones Africanos Analyses Multidisciplinaires de la Mousson Africaine