Submitted to 31 January 2001 Special Section Deadline Richard M. Bevilacqua Observations and Analysis of PSCs Detected by POAM III during the=20 1999/2000 Northern Hemisphere Winter bevilacq@poamb.nrl.navy.mil Holger Bremer Ozone Depletion Observed by ASUR during the Winter 1999/2000 holger@clox.physik.uni-bremen.de Kenneth S. Carslaw A Vortex-Scale Simulation of the Growth and Sedimentation of Large=20 Nitric Acid Particles Observed during SOLVE/THESEO 2000 carslaw@env.leeds.ac.uk Stewart Davies Modeling the Effect of Denitrification on Arctic Ozone Depletion=20 during Winter 1999/2000 stewart@env.leeds.ac.uk Andreas D=F6rnbrack Evidence for Inertia-Gravity Waves Forming Polar Stratospheric Clouds=20 over Scandinavia andreas.doernbrack@dlr.de Sophie Godin Influence of Arctic Polar Ozone Depletion on the Lower Stratospheric=20 Ozone Amounts at Haute-Provence Observatory (44=9AN, 6=9AE) sophie.godin@aero.jussieu.fr William B. Grant Use of Ozone Distributions, Potential Vorticity, and Cooling Rates to=20 Estimate Arctic Polar Vortex Ozone Loss during the Winter of 1999/2000 w.b.grant@larc.nasa.gov Jeffery B. Greenblatt Defining the Polar Vortex Edge Using an N2O:Potential Temperature=20 Correlation vs. the Nash Criterion: A Comparison jgreenblatt@mail.arc.nasa.gov Jens-Uwe Grooss Simulation of Ozone Depletion in Spring 2000 with the Chemical=20 Lagrangian Model of the Stratosphere (CLaMS) j.-u.grooss@fz-juelich.de Tom F. Hanisco Quantifying the Rate of Heterogeneous Processing in the Arctic Polar=20 Vortex with In Situ Observations of OH tfh@huarp.harvard.edu N. R. P. Harris Comparison of Empirically Derived Ozone Losses in the Arctic Vortex Neil.Harris@ozone-sec.ch.cam.ac.uk Alain Hauchecorne Quantification of the Transport of Chemical Constituents from the=20 Polar Vortex to Middle Latitudes in the Lower Stratosphere Using the=20 High-Resolution Advection Model MIMOSA and Effective Diffusivity alain.hauchecorne@aerov.jussieu.fr Karl W. Hoppel POAM III Observations of Arctic Ozone Loss for the 1999/2000 Winter Karl.Hoppel@nrl.navy.mil Dale Hurst The Construction of a Unified, High-Resolution Nitrous Oxide Data Set=20 for ER-2 Flights during SOLVE NOAA CMDL and U Colorado, CIRES Eric Jensen Impact of Polar Stratospheric Cloud Particle Composition, Number=20 Density, and Lifetime on Denitrification ejensen@sky.arc.nasa.gov Bj=F6rn M. Knudsen Comparison of Stratospheric Long-Duration Balloon Data in February=20 and March 2000 with Analysis Temperatures and Trajectories bk@dmi.dk Gerhard Kopp Evolution of Chlorine Activation and Ozone Loss over Kiruna during=20 the THESEO 2000-SOLVE Campaign Retrieved from Ground-Based Millimeter=20 Wave and Infrared Observations and Simulated with KASIMA gerhard.kopp@imk.fzk.de Jerry D. Lumpe Comparison of POAM III Ozone Measurements with Correlative Aircraft=20 and Balloon Data during SOLVE lumpe@cpi.com Beiping Luo Large Stratospheric Particles Observed by Lidar during the SOLVE Mission luo@mpch-mainz.mpg.de Olaf Morgenstern On the Diagnosis of Mixing from Tracer-Tracer Correlations. Part 2:=20 Comparison of Model and Measurements olaf.morgenstern@atm.ch.cam.ac.uk Claudio Piani Transport of Ozone Depleted Air on Breakup of the Stratospheric Polar=20 Vortex in Spring/Summer 2000 cpiani@atm.ox.ac.uk Cora E. Randall Construction of 3-D Ozone Fields Using POAM III during SOLVE Cora.Randall@lasp.Colorado.edu Markus Rex Chemical Depletion of Arctic Ozone in Winter 1999/2000 mrex@awi-potsdam.de Andrew Robinson Ozone Loss Derived from Balloon-Borne Tracer Measurements and the SLIMCAT CT= M adr22@hermes.cam.ac.uk Ross J. Salawitch Chemical Loss of Ozone during the Arctic Winter of 1999-2000: An=20 Analysis Based on Balloon-Borne Observations Ross.J.Salawitch@jpl.nasa.gov Cornelius Schiller Dehydration in the Arctic Stratosphere during THESEO 2000/SOLVE Campaigns c.schiller@fz-juelich.de M. R. Schoeberl A Multi-Instrument Assessment of the Ozone Loss during the 1999-2000=20 SOLVE Campaign Mark.Schoeberl1@gsfc.nasa.gov A. W. Strawa Discriminating Type Ia and Ib Polar Stratospheric Clouds in POAM Satellite D= ata astrawa@mail.arc.nasa.gov Thomas Wagner Continuous Monitoring of the High and Persistent Chlorine Activation=20 during the Arctic Winter 1999/2000 by the GOME Instrument on ERS-2 thomas.wagner@iup.uni-heidelberg.de Ingo Wohltmann Ozone Depletion and Chlorine Activation in the Arctic Winter=20 1999/2000 Observed in Ny-=C5lesund ingo@ozone2.physik.uni-bremen.de Submitted to 6 July 2001 Special Section Deadline Colette Brogniez PSC microphysical properties measured by microRadibal instrument on=20 January 25, 2000 above Esrange and modeling interpretation colette.brogniez@loa.univ-lille1.fr Michael Y. Danilin Comparison of ER-2 Aircraft and POAM-III, MLS, and SAGE-II Satellite=20 Measurements during SOLVE Using Traditional Correlative Analysis and=20 Traejctory Hunting Technique danilin@aer.com Kai-Uwe Eichmann Ozone Depletion in the Northern Hemisphere Winter/Spring Period 2000=20 as Measured by GOME eichmann@iup.physik.uni-bremen.de Harald Flentje Denitrification inside the Stratospheric Vortex in the Winter=20 1999/2000 by Sedimentation of Large NAT Particles harald.flentje@dlr.de Albert Hertzog In Situ Observations of Gravity Waves and Comparisons with Numerical=20 Simulations during the SOLVE/THESEO 2000 campaign hertzog@lmd.polytechnique.fr Hartwig Hetzheim BrO Profile Retrieval by a Novel Method Using ASUR Measurements=20 during SOLVE / THESEO 2000 hartwig.hetzheim@dlr.de Armin Kleinb=F6hl Vortexwide Denitrification of the Arctic Polar Stratosphere in Winter=20 1999/2000 Determined by Remote Observations kleinb@iup.physik.uni-bremen.de Makoto Koike Redistribution of Reactive Nitrogen in the Arctic Lower Stratosphere=20 in the 1999-2000 Winter koike@stelab.nagoya-u.ac.jp B. Kois Ozone Deficiencies in the Stratosphere over Poland during=20 Winter/Spring Seasons 1994/1995 - 1999/2000 zenoblit@pol.pl Paul Konopka Weak Influence of Mixing on the Chlorine Deactivation during SOLVE:=20 Lagrangian Modeling (CLaMS) versus ER-2 In Situ Observations p.konopka@fz-juelich.de Ivan Kostadinov Aircraft UV/Vis Irradiation Measurements during the APE-GAIA Campaign=20 in Antarctica i.kostadinov@isao.bo.cnr.it Leslie Lait Ozone Loss from Quasi-Conservative Coordinate Mapping during the=20 1999-2000 SOLVE/THESEO 2000 Campaigns lrlait@code916.gsfc.nasa.gov Niels Larsen Microphysical Mesoscale Simulations of Polar Stratospheric Cloud=20 =46ormation over Northern Scandinavia on 25 January 2000 Constrained by=20 In Situ Measurements of Chemical and Optical Cloud Properties nl@dmi.dk Marion Marchand Evaluation of the Influence of the Arctic Ozone Depletion on=20 Mid-Latitudes by a High- Resolution Chemical Transport Model in the=20 Lower Stratosphere in the Winter of 1999-2000 marchand@aero.jussieu.fr Jens Reichardt Retrieval of Polar Stratospheric Cloud Microphysical Properties from=20 Lidar Measurements: Dependence on Particle Shape Assumptions reichardt@code916.gsfc.nasa.gov Jochen Schreiner Chemical, Physical, and Optical Properties of Polar Stratospheric Clouds jochen.schreiner@mpi-hd.mpg.de William H. Swartz Photochemical Ozone Loss in the Arctic as Determined by MSX/UVISI=20 Stellar Occultation Observations during the 1999-2000 Winter william.swartz@jhuapl.edu Christiane Voigt Impact of Large-Scale Low Temperatures on Mountain Wave Polar=20 Stratospheric Clouds Christiane.Voigt@mpi-hd.mpg.de Harald Flentje Analysis of Along-Trajectory Particle Transformations in Mountain=20 Wave PSCs Observed Late January 2000, Based on Lidar Derived=20 Streamlines harald.flentje@dlr.de Dr. Paul A. Newman Code 916 NASA/GSFC Greenbelt, MD 20771 (301) 614-5985 fax: x-5903=20 http://hyperion.gsfc.nasa.gov/Personnel/people/Newman,_Paul_A./ What we have here is a failure to communicate. - The Captain --============_-1214069450==_ma============ Content-Type: text/enriched; charset="iso-8859-1" Content-Transfer-Encoding: quoted-printable CourierSubmitted to 31 January 2001 Special Section Deadline Richard M. Bevilacqua Observations and Analysis of PSCs Detected by POAM III during the 1999/2000 Northern Hemisphere Winter bevilacq@poamb.nrl.navy.mil Holger Bremer Ozone Depletion Observed by ASUR during the Winter 1999/2000 holger@clox.physik.uni-bremen.de Kenneth S. Carslaw A Vortex-Scale Simulation of the Growth and Sedimentation of Large Nitric Acid Particles Observed during SOLVE/THESEO 2000 carslaw@env.leeds.ac.uk Stewart Davies Modeling the Effect of Denitrification on Arctic Ozone Depletion during Winter 1999/2000 stewart@env.leeds.ac.uk Andreas D=F6rnbrack Evidence for Inertia-Gravity Waves Forming Polar Stratospheric Clouds over Scandinavia andreas.doernbrack@dlr.de Sophie Godin Influence of Arctic Polar Ozone Depletion on the Lower Stratospheric Ozone Amounts at Haute-Provence Observatory (44=9AN, 6=9AE) sophie.godin@aero.jussieu.fr William B. Grant Use of Ozone Distributions, Potential Vorticity, and Cooling Rates to Estimate Arctic Polar Vortex Ozone Loss during the Winter of 1999/2000 w.b.grant@larc.nasa.gov Jeffery B. Greenblatt Defining the Polar Vortex Edge Using an N2O:Potential Temperature Correlation vs. the Nash Criterion: A Comparison jgreenblatt@mail.arc.nasa.gov Jens-Uwe Grooss Simulation of Ozone Depletion in Spring 2000 with the Chemical Lagrangian Model of the Stratosphere (CLaMS) j.-u.grooss@fz-juelich.de Tom F. Hanisco Quantifying the Rate of Heterogeneous Processing in the Arctic Polar Vortex with In Situ Observations of OH tfh@huarp.harvard.edu N. R. P. Harris Comparison of Empirically Derived Ozone Losses in the Arctic Vortex Neil.Harris@ozone-sec.ch.cam.ac.uk Alain Hauchecorne Quantification of the Transport of Chemical Constituents from the Polar Vortex to Middle Latitudes in the Lower Stratosphere Using the High-Resolution Advection Model MIMOSA and Effective Diffusivity alain.hauchecorne@aerov.jussieu.fr Karl W. Hoppel POAM III Observations of Arctic Ozone Loss for the 1999/2000 Winter Karl.Hoppel@nrl.navy.mil Dale Hurst The Construction of a Unified, High-Resolution Nitrous Oxide Data Set for ER-2 Flights during SOLVE NOAA CMDL and U Colorado, CIRES Eric Jensen Impact of Polar Stratospheric Cloud Particle Composition, Number Density, and Lifetime on Denitrification ejensen@sky.arc.nasa.gov Bj=F6rn M. Knudsen Comparison of Stratospheric Long-Duration Balloon Data in February and March 2000 with Analysis Temperatures and Trajectories bk@dmi.dk Gerhard Kopp Evolution of Chlorine Activation and Ozone Loss over Kiruna during the THESEO 2000-SOLVE Campaign Retrieved from Ground-Based Millimeter Wave and Infrared Observations and Simulated with KASIMA gerhard.kopp@imk.fzk.de Jerry D. Lumpe Comparison of POAM III Ozone Measurements with Correlative Aircraft and Balloon Data during SOLVE lumpe@cpi.com Beiping Luo Large Stratospheric Particles Observed by Lidar during the SOLVE Mission luo@mpch-mainz.mpg.de Olaf Morgenstern On the Diagnosis of Mixing from Tracer-Tracer Correlations. Part 2:=20 Comparison of Model and Measurements olaf.morgenstern@atm.ch.cam.ac.uk Claudio Piani Transport of Ozone Depleted Air on Breakup of the Stratospheric Polar Vortex in Spring/Summer 2000 cpiani@atm.ox.ac.uk Cora E. Randall Construction of 3-D Ozone Fields Using POAM III during SOLVE Cora.Randall@lasp.Colorado.edu Markus Rex Chemical Depletion of Arctic Ozone in Winter 1999/2000 mrex@awi-potsdam.de Andrew Robinson Ozone Loss Derived from Balloon-Borne Tracer Measurements and the SLIMCAT CTM adr22@hermes.cam.ac.uk Ross J. Salawitch Chemical Loss of Ozone during the Arctic Winter of 1999-2000: An Analysis Based on Balloon-Borne Observations Ross.J.Salawitch@jpl.nasa.gov Cornelius Schiller Dehydration in the Arctic Stratosphere during THESEO 2000/SOLVE Campaigns c.schiller@fz-juelich.de M. R. Schoeberl A Multi-Instrument Assessment of the Ozone Loss during the 1999-2000 SOLVE Campaign Mark.Schoeberl1@gsfc.nasa.gov A. W. Strawa Discriminating Type Ia and Ib Polar Stratospheric Clouds in POAM Satellite Data astrawa@mail.arc.nasa.gov Thomas Wagner Continuous Monitoring of the High and Persistent Chlorine Activation during the Arctic Winter 1999/2000 by the GOME Instrument on ERS-2 thomas.wagner@iup.uni-heidelberg.de Ingo Wohltmann Ozone Depletion and Chlorine Activation in the Arctic Winter 1999/2000 Observed in Ny-=C5lesund ingo@ozone2.physik.uni-bremen.de Submitted to 6 July 2001 Special Section Deadline Colette Brogniez PSC microphysical properties measured by microRadibal instrument on January 25, 2000 above Esrange and modeling interpretation colette.brogniez@loa.univ-lille1.fr Michael Y. Danilin Comparison of ER-2 Aircraft and POAM-III, MLS, and SAGE-II Satellite Measurements during SOLVE Using Traditional Correlative Analysis and Traejctory Hunting Technique danilin@aer.com Kai-Uwe Eichmann Ozone Depletion in the Northern Hemisphere Winter/Spring Period 2000 as Measured by GOME eichmann@iup.physik.uni-bremen.de Harald Flentje Denitrification inside the Stratospheric Vortex in the Winter 1999/2000 by Sedimentation of Large NAT Particles harald.flentje@dlr.de Albert Hertzog In Situ Observations of Gravity Waves and Comparisons with Numerical Simulations during the SOLVE/THESEO 2000 campaign hertzog@lmd.polytechnique.fr Hartwig Hetzheim BrO Profile Retrieval by a Novel Method Using ASUR Measurements during SOLVE / THESEO 2000 hartwig.hetzheim@dlr.de Armin Kleinb=F6hl Vortexwide Denitrification of the Arctic Polar Stratosphere in Winter 1999/2000 Determined by Remote Observations kleinb@iup.physik.uni-bremen.de Makoto Koike Redistribution of Reactive Nitrogen in the Arctic Lower Stratosphere in the 1999-2000 Winter koike@stelab.nagoya-u.ac.jp B. Kois Ozone Deficiencies in the Stratosphere over Poland during Winter/Spring Seasons 1994/1995 - 1999/2000 zenoblit@pol.pl Paul Konopka Weak Influence of Mixing on the Chlorine Deactivation during SOLVE:=20 Lagrangian Modeling (CLaMS) versus ER-2 In Situ Observations p.konopka@fz-juelich.de Ivan Kostadinov Aircraft UV/Vis Irradiation Measurements during the APE-GAIA Campaign in Antarctica i.kostadinov@isao.bo.cnr.it Leslie Lait Ozone Loss from Quasi-Conservative Coordinate Mapping during the 1999-2000 SOLVE/THESEO 2000 Campaigns lrlait@code916.gsfc.nasa.gov Niels Larsen Microphysical Mesoscale Simulations of Polar Stratospheric Cloud =46ormation over Northern Scandinavia on 25 January 2000 Constrained by In Situ Measurements of Chemical and Optical Cloud Properties nl@dmi.dk Marion Marchand Evaluation of the Influence of the Arctic Ozone Depletion on Mid-Latitudes by a High- Resolution Chemical Transport Model in the Lower Stratosphere in the Winter of 1999-2000 marchand@aero.jussieu.fr Jens Reichardt Retrieval of Polar Stratospheric Cloud Microphysical Properties from Lidar Measurements: Dependence on Particle Shape Assumptions reichardt@code916.gsfc.nasa.gov Jochen Schreiner Chemical, Physical, and Optical Properties of Polar Stratospheric Clouds jochen.schreiner@mpi-hd.mpg.de William H. Swartz Photochemical Ozone Loss in the Arctic as Determined by MSX/UVISI Stellar Occultation Observations during the 1999-2000 Winter william.swartz@jhuapl.edu Christiane Voigt Impact of Large-Scale Low Temperatures on Mountain Wave Polar Stratospheric Clouds Christiane.Voigt@mpi-hd.mpg.de Harald Flentje Analysis of Along-Trajectory Particle Transformations in Mountain Wave PSCs Observed Late January 2000, Based on Lidar Derived Streamlines harald.flentje@dlr.de