Difference between revisions of "Presentations and Posters"
From UKCA
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==Presentations== |
==Presentations== |
||
− | * |
+ | * {{pdf|PB_MIPAS_DUM.pdf|Confronting UKCA with MIPAS Observations}} (P. Braesicke) |
− | * |
+ | * {{pdf|PB_UKCA_UMUM.pdf|The United Kingdom Chemistry and Aerosol Community Model (UKCA)}} (P. Braesicke) |
− | * |
+ | * {{pdf|Telford_NCAS_0812.pdf|Effects of Climate Induced Changes in Isoprene Emissions After the Eruption of Mt Pinatubo}} (P. Telford) |
− | * |
+ | * {{pdf|EGU_Vienna_200803XX.pdf|Reassessment of the Atmospheric Response to the Pinatubo eruption using a Nudged CCM}} (P. Telford) |
− | * |
+ | * {{pdf|Seminar_Cambridge_20080225.pdf|Producing a "Nudged" version of the UKCA CCM}} (P. Telford) |
− | * |
+ | * {{pdf|Telford_RMS_20070906.pdf|Development of a Nudged CCM}} (P. Telford) |
− | * |
+ | * {{pdf|QUEST_Annual_Science_Meeting_DMS.pdf|Influence of oceanic DMS emissions on CCN concentrations over the Southern Ocean: A global model study}} (K. Carslaw) |
− | * |
+ | * {{pdf|NCAS_aerosol_strategy.pdf|The UK Chemistry and Aerosol Project (UKCA)}} (K. Carslaw) |
− | * |
+ | * {{pdf|NCAS_2008.pdf|Global aerosol and climate: Why do we care about microphysics?}} (K. Carslaw) |
− | * |
+ | * {{pdf|AeroCom_Mann_NPF.pdf|Global aerosol microphysics modeling: Implications of new particle formation & growth for aerosol-climate simulations}} (G. Mann) |
− | * |
+ | * {{pdf|Mann_QUEST_dust.pdf|Global size-resolved dust modeling with GLOMAP}} (G. Mann) |
− | * |
+ | * {{pdf|Mann_Leeds.pdf|Enhanced UK capability in global aerosol modeling}} (G. Mann) |
− | * |
+ | * {{pdf|NCAS_Dec08_Mann_UKCA.pdf|The UK Chemistry and Aerosol Model (UKCA): An NCAS-Met Office collaboration. Advancing the realism of aerosol-climate effects in UK climate model simulations}} (G. Mann) |
− | * |
+ | * {{pdf|JamieRaeSeminar_14_10_08.pdf|Climate-chemistry-aerosol coupling for HadGEM2-ES}} (J. Rae) |
− | * |
+ | * {{pdf|Ukca_rms_4sep2007.pdf|UKCA Tropospheric Chemistry: Evaluation and Sensitivity to Climate Change}} (F. O'Connor) |
− | * |
+ | * {{pdf|Ukca_as_part_of_hadgem2es.pdf|Introduction to HadGEM2-ES}} (F. O'Connor) |
− | * |
+ | * {{pdf|Aqum_savage.pdf|Application of the Met Office Unified Model for Air Quality Forecasting}} (Nick Savage) |
==Posters== |
==Posters== |
||
− | * |
+ | * {{pdf|SPARC08_Age_PB.pdf|Zonal Asymmetries in Age-of-air and their Relevance for Transport into the Subtropical Lowermost Stratosphere}} (P. Braesicke) |
− | * |
+ | * {{pdf|SPARC08_WWind_PB.pdf|The Role of Tropical Vertical Velocities in Determining Tracer Gradients in the Upper Troposphere and Lower Stratosphere}} (P. Braesicke) |
− | * |
+ | * {{pdf|Telford_Annecy_20080901_poster.pdf|Impact of the Pinatubo eruption on Isoprene}} (P. Telford) |
− | * |
+ | * {{pdf|Telford_Manchester_20080108_poster.pdf|Development and Assessment of a Nudged Version of the UKCA Model}} (P. Telford) |
− | * |
+ | * {{pdf|NCAS_ASM_York_poster.pdf|Developments in Global Aerosol Modelling}} (K. Carslaw, G. Mann) |
− | * |
+ | * {{pdf|GMann_IGAC_poster_Sep08.pdf|Realistic aerosol simulations with the UKCA composition-climate model}} (G. Mann) |
− | * |
+ | * {{pdf|Poster_JamieRae_Nov08_Edited.pdf|Achieving an improved sulphur cycle in the HadGEM model through online calculation of oxidant concentrations}} (J. Rae) |
− | * |
+ | * {{pdf|Hamburg_poster_foc.a4.pdf|Effect of Climate Change on Tropospheric Oxidants}} (F. O'Connor) |
− | * |
+ | * {{pdf|Igac.pdf|Sensitivity of a coupled chemistry-climate model to climate model biases}} (F. O'Connor) |
− | * |
+ | * {{pdf|Ncgg5_poster_foc.a4.pdf|Methane Wetland Emissions: Influence of the El Niño Southern Oscillation}} (F. O'Connor) |
− | * |
+ | * {{pdf|Ccmval_agu_hardiman.pdf|Preliminary investigation of ozone recovery and climate change in the 21st century using the UM-UKCA climate-compostion model}} (S. Hardiman) |
− | * |
+ | * {{pdf|CO_EGU_2009_Edited.pdf|Regional air quality forecasting in the Met Office Unified Model}} (Carlos Ordonez) |
− | * |
+ | * {{pdf|MW_RMS.pdf|Development of the Met-UM for Air Quality Forecasting}} (Mark Weeks) |
− | * |
+ | * {{pdf|NLA_NCAS_20091110-11.pdf|Chemistry in the Unified Model: Climate-Chemistry Studies with UKCA}} (Luke Abraham) |
− | * |
+ | * {{pdf|NCAS2009_N2O_PB.pdf|Tracer PDFs as touchstones for CCM validation: The N2O example}} (Peter Braesicke) |
Revision as of 16:01, 30 April 2010
Presentations
- Confronting UKCA with MIPAS Observations (P. Braesicke)
- The United Kingdom Chemistry and Aerosol Community Model (UKCA) (P. Braesicke)
- Effects of Climate Induced Changes in Isoprene Emissions After the Eruption of Mt Pinatubo (P. Telford)
- Reassessment of the Atmospheric Response to the Pinatubo eruption using a Nudged CCM (P. Telford)
- Producing a "Nudged" version of the UKCA CCM (P. Telford)
- Development of a Nudged CCM (P. Telford)
- Influence of oceanic DMS emissions on CCN concentrations over the Southern Ocean: A global model study (K. Carslaw)
- The UK Chemistry and Aerosol Project (UKCA) (K. Carslaw)
- Global aerosol and climate: Why do we care about microphysics? (K. Carslaw)
- Global aerosol microphysics modeling: Implications of new particle formation & growth for aerosol-climate simulations (G. Mann)
- Global size-resolved dust modeling with GLOMAP (G. Mann)
- Enhanced UK capability in global aerosol modeling (G. Mann)
- The UK Chemistry and Aerosol Model (UKCA): An NCAS-Met Office collaboration. Advancing the realism of aerosol-climate effects in UK climate model simulations (G. Mann)
- Climate-chemistry-aerosol coupling for HadGEM2-ES (J. Rae)
- UKCA Tropospheric Chemistry: Evaluation and Sensitivity to Climate Change (F. O'Connor)
- Introduction to HadGEM2-ES (F. O'Connor)
- Application of the Met Office Unified Model for Air Quality Forecasting (Nick Savage)
Posters
- Zonal Asymmetries in Age-of-air and their Relevance for Transport into the Subtropical Lowermost Stratosphere (P. Braesicke)
- The Role of Tropical Vertical Velocities in Determining Tracer Gradients in the Upper Troposphere and Lower Stratosphere (P. Braesicke)
- Impact of the Pinatubo eruption on Isoprene (P. Telford)
- Development and Assessment of a Nudged Version of the UKCA Model (P. Telford)
- Developments in Global Aerosol Modelling (K. Carslaw, G. Mann)
- Realistic aerosol simulations with the UKCA composition-climate model (G. Mann)
- Achieving an improved sulphur cycle in the HadGEM model through online calculation of oxidant concentrations (J. Rae)
- Effect of Climate Change on Tropospheric Oxidants (F. O'Connor)
- Sensitivity of a coupled chemistry-climate model to climate model biases (F. O'Connor)
- Methane Wetland Emissions: Influence of the El Niño Southern Oscillation (F. O'Connor)
- Preliminary investigation of ozone recovery and climate change in the 21st century using the UM-UKCA climate-compostion model (S. Hardiman)
- Regional air quality forecasting in the Met Office Unified Model (Carlos Ordonez)
- Development of the Met-UM for Air Quality Forecasting (Mark Weeks)
- Chemistry in the Unified Model: Climate-Chemistry Studies with UKCA (Luke Abraham)
- Tracer PDFs as touchstones for CCM validation: The N2O example (Peter Braesicke)