1 HIRDLS Science Team Meeting 26,27 June 2008 To be held in the Dobson Room, Atmospheric, Oceanic and Planetary Physics, Department of Physics, Oxford.

Slides:

Advertisements

Similar presentations

UK OZONE MONITORING AND RESEARCH Andy Chalmers UK Department for Environment Food and Rural Affairs 7 th ORM, 20 May 2008.

Advertisements

Arctic ozone loss 2011 John Pyle Scientific Assessment Panel National Centre for Atmospheric Science, UK & Centre for Atmospheric Science Department of.

Institut für Physik der Atmosphäre Institut für Physik der Atmosphäre Climate-Chemistry Interactions - User Requirements Martin Dameris DLR-Institut für.

9-10 November 2011 Atmospheric Waves Workshop, ESTEC Atmospheric Waves Workshop Scott Osprey 1, Corwin Wright 2 Evidence of atmospheric gravity waves and.

REFERENCES Alexander et al (2008): Global Estimates of Gravity Wave Momentum Flux from HIRDLS Observations. JGR 113 D15S18 Ern et al (2004): Absolute Values.

WOAP 4 meeting, Hamburg, 29 – 31 March 2010 Perspectives from WCRP projects SPARC: Objectives of the next two years Christian von Savigny (IUP Bremen)

Requirements for monitoring the global tropopause Bill Randel Atmospheric Chemistry Division NCAR.

Quantitative retrievals of NO 2 from GOME Lara Gunn 1, Martyn Chipperfield 1, Richard Siddans 2 and Brian Kerridge 2 School of Earth and Environment Institute.

Institute for Climate and Atmospheric Science SCHOOL OF EARTH AND ENVIRONMENT 3D SLIMCAT Studies of Arctic Ozone Loss Wuhu Feng Acknowledgments: Martyn.

Validation of Tropospheric Emission Spectrometer (TES) nadir stare ozone profiles using ozonesonde measurements during Arctic Research on the Composition.

Chemistry and Transport in the Lower Stratosphere Wuhu Feng 1, Martyn Chipperfield 1, Howard Roscoe 2 1. Institute for Atmospheric Science, School of the.

24/6/05Dr. J.J. Remedios, EOEP review, 27/6/ Highlights of Atmospheric Science from ESA Satellites J.J. Remedios EOS-SRC, Physics and Astronomy,

Remote Sensing of the Oceans and Atmosphere Tom Collow December 10, 2009.

Atmospheric, Oceanic & Planetary Physics, University of Oxford A Dudhia ASSFTS-13 Toulouse 7-9 Nov 2007 Page 1 Oxford Retrievals of MIPAS Data Anu Dudhia.

FMI’s special measurement sites - Jokioinen and Sodankylä 1)Basic infrastructure and routine operations 2)Special instrumentation and research Sodankylä.

Atmospheric, Oceanic & Planetary Physics, University of Oxford A Dudhia MIPAS ST6 Karlsruhe 18/19 Sep 2007 Page 1 Long Term Trends Anu Dudhia University.

Atmospheric, Oceanic & Planetary Physics, University of Oxford A Dudhia MIPAS QWG15 ESRIN Jan 2008 Page 1 Recent MIPAS L2 Data Retrieved at Oxford.

3D CTM Study of Arctic Ozone Loss and Denitrification Effect  Arctic ozone loss for 13 winters  DLAPSE Coupled to SLIMCAT  Denitrification effect on.

3D CTM Study of Arctic Ozone Loss and Denitrification Effect Wuhu Feng 1, Martyn Chipperfield 1, Stewart Davies 1, V.L. Harvey 2, C.E. Randall 2 1. School.

. Sensitivity Studies of Ozone Depletion with a 3D CTM Wuhu Feng 1, M.P. Chipperfield 1, S. Dhomse 1, L. Gunn 1, S. Davies 1, B. Monge-Sanz 1, V.L. Harvey.

Wuhu Feng and Martyn Chipperfield

Three-Dimensional Chemical Transport Model Studies of Arctic Ozone Depletion Wuhu Feng and Martyn Chipperfield School of the Earth and Environment, University.

INSTITUTET FÖR RYMDFYSIK Swedish Institute of Space Physics U. Raffalski, NDSC MW workshop, KOS, KIMRA Kiruna Microwave Radiometer U. Raffalski.

Larger Chemical Ozone Loss in 2004/2005 Arctic Winter/Spring Wuhu Feng and Martyn Chipperfield School of Earth and Environment, University of Leeds Acknowledgments.

Introduction. A major focus of SCOUT-O3 is the tropics and a key issue here is testing how well existing global 3D models perform in this region. This.

1 Motivation 2 Instrumentation and Retrieval 3 CONTRAST Profile Comparison Stratospheric case study 4 TORERO NH/SH gradients 5 Summary and conclusions.

Studies of Stratospheric NO y Chemistry with Three- Dimensional Chemical Transport Model Wuhu Feng 1, Martyn Chipperfield 1, Stewart Davies 1, B. Sen 2,

Ben Kravitz November 12, 2009 Limb Scanning and Occultation.

Assimilation of EOS-Aura Data in GEOS-5: Evaluation of ozone in the Upper Troposphere - Lower Stratosphere K. Wargan, S. Pawson, M. Olsen, J. Witte, A.

CHEM Science Team March 2000 Cloud processes near the tropopause HIRDLS will measure cloud top altitude and aerosol concentrations: the limb view gives.

HIBISCUS General Objective

Y. J. ORSOLINI Norwegian Institute for Air Research – NILU C. RANDALL LASP, University of Colorado, Boulder, USA G. MANNEY NASA Jet Propulsion.

Using GPS data to study the tropical tropopause Bill Randel National Center for Atmospheric Research Boulder, Colorado “You can observe a lot by just watching”

Irion et al., May 3, 2005 Page 1 Ozone validation for AIRS V4 Fredrick W. Irion, Michael R. Gunson Jet Propulsion Laboratory California Institute of Technology.

HIRDLS Validation Status (v ) B. Nardi, J. Gille & HIRDLS Team AURA, Science Meeting Pasadena, Oct 1-5, 2007.

Proposal for the CLOUD experiment; Cosmic Ray – Aerosol – Cloud - Climate Interactions Markku Kulmala University of Helsinki Department of Physical Sciences.

Satellite Observations and Simulations of Subvortex Processing and Related Upper Troposphere / Lower Stratosphere Transport M.L. Santee, G.L. Manney, W.G.

Water and Methane in the Upper Troposphere and Stratosphere based on ACE-FTS Measurements Acknowledgements: The Canadian Space Agency (CSA) is the primary.

Photochemical Control of the Distribution of Venusian Water and Comparison to Venus Express SOIR Observations Christopher D. Parkinson 1, Yuk L. Yung 2,

EOS CHEM. EOS CHEM Platform Orbit: Polar: 705 km, sun-synchronous, 98 o inclination, ascending 1:45 PM +/- 15 min. equator crossing time. Launch date.

EOS CHEM. EOS-CHEM Platform Orbit: Polar: 705 km, sun-synchronous, 98 o inclination, ascending 1:45 PM +/- 15 min. equator crossing time. Launch date.

Herman G.J. Smit, COST 723, Bern, 6-7 Oct, MOZAIC-Data, Particularly the Use of Water Vapor Data for UTLS-Studies and the Urgent Need for Integrated.

Studies of Emissions & Atmospheric Composition, Clouds and Climate Coupling by Regional Surveys (SEAC 4 RS) Brian Toon Department of Atmospheric and Oceanic.

SCIAMACHY long-term validation M. Weber, S. Mieruch, A. Rozanov, C. von Savigny, W. Chehade, R. Bauer, and H. Bovensmann Institut für Umweltphysik, Universität.

Chemistry Climate Modeling of the UTLS An update on model inter-comparison and evaluation with observations Andrew Gettelman, NCAR & CCMVal Collaborators.

Global Observing System Simulation Experiments (Global OSSEs) How It Works Nature Run 13-month uninterrupted forecast produces alternative atmosphere.

Seasonal variability of UTLS hydrocarbons observed from ACE and comparisons with WACCM Mijeong Park, William J. Randel, Louisa K. Emmons, and Douglas E.

Chapter 1: The Earth’s Atmosphere

REFERENCES Alexander et al (2008): Global Estimates of Gravity Wave Momentum Flux from HIRDLS Observations. JGR 113 D15S18 Ern et al (2004): Absolute Values.

HIRDLS Ozone V003 (v ) Characteristics B. Nardi, C. Randall, V.L. Harvey & HIRDLS Team HIRDLS Science Meeting Boulder, Jan 30, 2008.

HIRDLS – Oxford Open Science Meeting HIRDLS Observations of Cirrus Near the Tropopause Based upon: Spring 2008 AGU Joint Assembly Ft. Lauderdale, Florida.

REFERENCES Alexander et al (2008): Global Estimates of Gravity Wave Momentum Flux from HIRDLS Observations. JGR 113 D15S18 Ern et al (2004): Absolute Values.

Model evolution of a START08 observed tropospheric intrusion Dalon Stone, Kenneth Bowman, Cameron Homeyer - Texas A&M Laura Pan, Simone Tilmes, Doug Kinnison.

Status of the Development of a Tropospheric Ozone Product from OMI Measurements Jack Fishman 1, Jerald R. Ziemke 2,3, Sushil Chandra 2,3, Amy E. Wozniak.

Sub-hourly Variation of Tropospheric Ozone Profiles Measured by the Huntsville DIAL Shi Kuang 1*, John Burris 2, M. J. Newchurch 1*, Steve Johnson 3, and.

AIRS science team meeting Camp Springs, February 2003 Holger Vömel University of Colorado and NOAA/CMDL Upper tropospheric humidity validation measurements.

Development and Applications of the TOMCAT/SLIMCAT 3-D CTM Wuhu Feng and Martyn Chipperfield NCAS, School of Earth and Environment, University of Leeds,

Chapter 1. Overview of the Earth’s Atmosphere  The atmosphere is a delicate life giving blanket of air surrounding the Earth.  Without the atmosphere.

1. Abstract An examination is made of parameterised gravity waves in the Hadley Centre’s HadGEM2-A L60 and small-scale gravity waves retrieved from HIRDLS-AURA.

HIRDLS Science Meeting 1 26 June 2008 A Comparison of HIRDLS and the Hadley Centre Model: Extratropical Variability University of Oxford Scott Osprey,

School of Earth and Environment INSTITUTE FOR CLIMATE AND ATMOSPHERIC SCIENCE The UK Chemistry and Aerosol Project (UKCA)

A Study of Variability in Tropical Tropospheric Water Vapor Robert L. Herman 1, Robert F. Troy 2, Holger Voemel 3, Henry B. Selkirk 4, Susan S. Kulawik.

Climate & Trends in the TTL: Science Questions Part I Climate & Trends TTL Workshop October 18, 2012 Takuji Sugidachi, Takatoshi Sakazaki, Wiwiek Setyawati,

Impact of OMI data on assimilated ozone Kris Wargan, I. Stajner, M. Sienkiewicz, S. Pawson, L. Froidevaux, N. Livesey, and P. K. Bhartia   Data and approach.

UEE Seminar Series Lidar Sensing of Tropospheric Aerosols and Clouds

When Lower Atmosphere Waves Invade the Upper Atmosphere

Hugo De Backer, Roeland Van Malderen

Static Stability in the Global UTLS Observations of Long-term Mean Structure and Variability using GPS Radio Occultation Data Kevin M. Grise David W.

University of Colorado and NCAR START08/Pre HIPPO Workshop

Presentation transcript:

1 HIRDLS Science Team Meeting 26,27 June 2008 To be held in the Dobson Room, Atmospheric, Oceanic and Planetary Physics, Department of Physics, Oxford University. THURSDAY 26 June :00 Introduction and domestic arrangements. INTRODUCTION TO HIRDLS 10:05"The HIRDLS instrument and its atmospheric measurements." Dr John Barnett, Atmospheric Oceanic and Planetary Physics, Department of Physics, University of Oxford. (15 min) 10:20"Correction algorithms applied to HIRDLS data." Dr John Gille, National Center for Atmospheric Research, and the University of Colorado, Boulder, Colorado, USA. (20 min) 10:40"Cloud and aerosol detection and retrieval" Dr Steve Massie, National Center for Atmospheric Research, Boulder, Colorado, USA. (15 min)

2 HIRDLS Science Team Meeting 26,27 June :55 BREAK 11:15"HIRDLS retrieval algorithms." Dr Rashid Khosravi, National Center for Atmospheric Research, Boulder, Colorado, USA. (20 min) 11:35"Overview of HIRDLS Validation." Dr Bruno Nardi, National Center for Atmospheric Research, Boulder, Colorado, USA. (30 min) 12:05"Processing of HIRDLS data and a guide to the versions." Mrs Cheryl Craig, National Center for Atmospheric Research, Boulder, Colorado, USA. (10 min) 12:15"BADC holdings of HIRDLS data, and how to obtain them." Dr Wendy Garland, Rutherford Appleton Laboratory, STFC. (10 min) 12:25-14:00 LUNCH

3 HIRDLS Science Team Meeting 26,27 June 2008 SCIENCE TALKS (all 20 minutes including questions) 14:00"HIRDLS ozone and HNO3: assimilation and validation against ACEFTS" Dr Martin Juckes, Rutherford Appleton Laboratory, STFC. 14:20"Assimilation of satellite data on atmospheric composition: effective collaboration between academic/research institutions and operational centres" Dr Stefano Migliorino, Department of Meteorology, University of Reading. 14:40"Resolution-dependent data analysis of stratospheric species: value and impact of HIRDLS and MLS data" Dr Valery Yudin, National Center for Atmospheric Research, Boulder, Colorado, USA. 15:00"HIRDLS analysis of gravity wave activity in the 2006 Arctic Stratosphere" Mr Corwin Wright, Atmospheric Oceanic and Planetary Physics, Department of Physics, University of Oxford. 15:20"Observations of gravity waves in HIRDLS data." Miss Xiuping Yan, Department of Physics and Astronomy University of Leicester.

4 HIRDLS Science Team Meeting 26,27 June :40 BREAK 16:00"A comparison between HIRDLS and the Hadley Centre Model: extratropical variability" Dr Scott Osprey, Atmospheric Oceanic and Planetary Physics, Department of Physics, University of Oxford. 16:20"MST radar measurements relating to vertical temperature structure." Dr David Hooper, Rutherford Appleton Laboratory, STFC. 16:40"3D SLIMCAT modelling Studies of Arctic Ozone Loss" Dr Wuhu Feng, School of the Environment, University of Leeds. 17:00"The United Kingdom Chemistry and Aerosol Community Model (UKCA): validation and recent results" Dr Peter Braesicke, Centre for Atmospheric Science, University of Cambridge. 17:20"Evaluation of the Whole Atmosphere Community Climate Model of HNO3: A comparison with HIRDLS Observations” Dr Doug Kinnison, National Center for Atmospheric Research, Boulder, Colorado, USA. 17:20 END

5 HIRDLS Science Team Meeting 26,27 June 2008 FRIDAY 27 June :30"Validation of HIRDLS fine vertical scale temperature structure using COSMIC radio occultation measurements." Dr John Barnett, Atmospheric Oceanic and Planetary Physics, Department of Physics, University of Oxford. 09:50"Validation of HIRDLS Temperature and Ozone profiles against sonde and ECMWF data" Dr Alison Waterfall, Rutherford Appleton Laboratory, STFC. 10:10"HIRDLS observations of Ozone intrusions from the upper troposphere in to the lower stratosphere (and vice versa)" Dr John Gille, National Center for Atmospheric Research, and the University of Colorado, Boulder, Colorado, USA. 10:50 BREAK

6 HIRDLS Science Team Meeting 26,27 June :00"MIPAS retrievals at Oxford" Dr Anu Dudhia, Atmospheric Oceanic and Planetary Physics, Department of Physics, University of Oxford. 11:20"Overview of Current Oxford MIPAS Cloud Products" Miss Jane Hurley, Atmospheric Oceanic and Planetary Physics, Department of Physics, University of Oxford. 11:40"HIRDLS Observations of Cirrus Near the Tropopause" Dr Steve Massie, National Center for Atmospheric Research, Boulder, Colorado, USA. 12:30 END