[3] AKIYOSHI Hideharu,
SUGATA Seiji, NAKANE Hideaki, KUROKAWA Jun'ichi TAKIGAWA Masayuki, NAGASHIMA
Tatsuya, and TAKAHASHI Masaaki
Development of Stratospheric Nudging CTM
[6] AOKI
Teruo, AOKI Tadao, FUKABORI Masashi, and TAKAO Toshinori
Comparison in Ultraviolet
Irradiance at Syowa Station, Antarctica Between the Observation and the
Simulation With a Radiative Transfer Model
[7] ARABOV A. Ya., ELANSKY N. F., and ELOKHOV A. S.
Twenty-year NO2 measurements by direct sunlight method
at the Kislovodsk mountain observatory [NEA]
[9] WILLIAMS,
V., AUSTIN, J., and HAIGH, J.
Model Simulations of the Impact of the 27-day Solar Rotation
Period on the Stratosphere
[10] BAEK Seon-Kyun, CHO Hi-Ku, CHOI
Young-Jean, and OH Jai-Ho
Characteristics of Recent Total Ozone Variations over
Seoul, Korea[NEA]
[11] BALIS,
Dimitris, ZEREFOS, Christos, BAIS, Alkiviadis, TAALAS, Petteri, VOGIATZIS,
Nikos, RAMOS, Nikos, MIHELARAKI, Maria, and ANTHIS, Anastastios
Four Years Comparison of GOME and Ground-Based Total Ozone
Measurements
[12]
BALIS, Dimitris, ZEREFOS, Christos, KARCHER, F., and MEYER,
J.-P.
Comparison of TOVS-HIRS Total Ozone Estimates and Ground-Based
Total Ozone Measurements
[13]
BANERJEE, Swaroop B., and CHAKRABORTY, Dipak K.
Slant Column Density of Iodine Oxide at a Low Latitude Station,
Ahmedabad
[16] BARON, Philippe, RICAUD ,Philippe, and
De LA NOE, Jerome
Temporal Evolution of ClO in the Middle Stratosphere,
2. Ground-based vs. Model Results [NEA]
[17] BARRET,
Brice, De MAZI_RE, Martine, DEMOULIN, Philippe, MAHIEU, Emmanuel, MÉLEN,
Francine, CONNOR, Brian J., and JONES, Nicholas
Investigation of Height-resolved Information in Ground-based
High-resolution Fourier Infrared Solar Spectra Above the Jungfraujoch
[19] BASS,
Stephen F., GRAINGER, Roy G., REMEDIOS, John, NEWNHAM, David A., and LAMBERT,
A.
Refractive Indices of Laboratory Generated Supercooled Ternary
Solution Aerosol
[20]
BASSET, H. Abdel and GAHEIN, A.
Diagnostic Study on the Relation Between Ozone and Potential
Vorticity
[21] BEDNAR, Jan and HALENKA, Tomas
On the modeling of photochemical smog in Bohemian
basin with real data[NEA]
[22] BEHRENDT,
Andreas, REICHARDT, Jens, DÖRNBRACK, Andreas, and WEITKAMP, Claus
Lidar Temperature Profiling in the Lee of the Scandinavian
Mountain Ridge: Investigation of Polar Stratospheric Cloud Formation Conditions
[25] BELOGLAZOV, M. I. , Karpechko, A. Yu., Nikulin,
G. N., and Roumiantsev, S. A.
Observations of Interraction of Surface Ozone and
Nitrogen Oxides at the Atmosphere of Polar City [NEA]
[26] BERDUNOV, N., DAVID, C., BEKKI, S., and
MORANDI, M.
PSC Correlation and Trajectory Studies at Dumont dfUrville
[NEA]
[27]
BERNTSEN, Terje K., AUNAN Kristin, and SEIP, Hans Martin
Surface Ozone in China and its Possible Impact on Agricultural
Crop Yields
[30]
BEYERLE, Georg, BIELE, Jens, NEUBER, Rolan, and STEBEL, Kerstin
The Lidar Data Set of Polar Stratospheric Cloud Observations at
Koldewey Station, Ny-Ålesund, Spitsbergen: An Analysis of Clouds Spatial
Characteristics
[32] BIRD, John C., CARSWELL, Allan I., PAL, Shiv R.,
BERMAN, Richard, and DUCK, Tom,
Lidar Studies of the Arctic Stratosphere [NEA]
[35] BODEKER, G. E., BOYD, I. S., CANZIANI, Pablo,
COMPAGNUCCI, Rosa, and MATTHEWS, W. Andrew
Analysis of Trends and Variability in Vertical Ozone and
Temperature Profiles at Lauder, New Zealand, Using Linear Least Squares Trend
Analysis and Principal Component Analysis: 1986 to 2000
[37] BODEKER, G. E., UMBERS, P., and MCKENZIE, R.
Modeled Surface Erythemal Irradiances over New
Zealand, Including the Effects of Clouds
[38]
BOJKOV, Bojan R.
The WMO-GAW World Data Centre for Surface Ozone (WDCSO3).
[41] BOJKOV, Rumen
D., KOSMIDIS, Evagelos, FIOLETOV, Vitali E., DELUISI, John D.,
PETROPAVLOVSKIKH, Irina, GODIN, Sophie, and ZEREFOS, Christos S.
Vertical Ozone Distribution Characteristics
Deduced from 40,000 Re-Evaluated Umkehr Profiles of 1957-1999 Period
[42]
BOJKOV, Rumen D. and BALIS, Dimitris S.
Episodes with Extremely Low Ozone Values in the Northern Latitudes
Registered During the Last 43 Years
[43] BONASONI,
P., SCHEEL, H.E., STOHL, A., TRICKL, T., and COLOMBO, T.
Ozone Transport Between Apennines and Alps: Influence of
Po-basin-polluted air Masses
[46] BRAATHEN, Geir
Quantification of Chemical Ozone Loss in the Polar
Vortex during the Twelve Winters from 1988-89 to 1999-2000 [NEA]
[47] BRAATHEN, Geir
Polar Vortex Climatology from the ECMWF ERA-15 Data [NEA]
[48] BRASSEUR, P. Guy, KINNISON, E. Douglas, KHOSRAVI,
Rashid, GRANIER, Claire, and SMITH, K. Anne
The Impact of Anthropogenic Activity on Mesospheric
Ozone and Temperature [NEA]
[50] BRÖNNIMANN, Stefan, SCHMUTZ, Christoph,
LUTERBACHER, Joerg., and STAEHELIN, Johannes
Total Ozone and Climate Variability over Europe
[51] BRÖNNIMANN, Stefan, EUGSTER, Werner, and SIDLE,
Christopher E.
A Modelling Study on the Influence of UV-B Radiation
Changes on Surface Ozone Photochemistry in Switzerland and Comparison with
Observations
[54] BÜHLER,
Stefan, VERDES, C., von ENGELN, A., KUHN, T., and KÜNZI, Klaus
Observational Capabilities of JEM/SMILES.
[56]
BURTON, S. P., and THOMASON, L. W.
Calculation of Air Density from SAGE II Version 6.0 Data
[57]
BURTON, S.P., and THOMASON, L.W.
Polar Mesospheric Clouds in SAGE II Version 6.0 Data
[59] CAIRO,
Francesco, ADRIANI, Alberto, VITERBINI, Maurizio, Di DONFRANCESCO, Guido, MITEV,
V., MATTHEY, R., BASTIANO, M., REDAELLI, Gianluca, DRAGANI, Rossana, FERRETTI,
Rossella, and PAOLUCCI, Tiziana
A Large Event of Polar Stratospheric Cloud
Observed Over the Antarctic Peninsula With the Airborne Backscattersonde MAS
and the Lidar MAL, in Comparison With Synoptic and Mesoscale Modeling
[60] CAIRO,
Francesco, ADRIANI, Alberto, VITERBINI, Maurizio, Di DONFRANCESCO, Guido,
MITEV, V., MATTHEY, R., BASTIANO, M., REDAELLI, Gianluca, DRAGANI, Rossana,
FERRETTI, Rossella, and BERNARDINI, Livio
Presence of a Thin Laminar Structure of Aerosol Observed by the
Backscattersonde MAS and the Lidar MAL in the APE GAIA campaign
[63]
CAPOUET, Manuel
Simulation of Ozone and Nonmethane Hydrocarbons Using a Center for
Climate System Research /National Institute for Environmental Studies
Atmospheric GCM with Coupled Tropospheric Chemistry
[65] CASALE,
Giuseppe R., SIANI, Anna Maria, MIANO, Sonia, MELONI, Daniela, PALMIERI,
Sabino, CAPPELLANI, Franco, and GALLIANI, A.
An Investigation on High/Low Frequency Ozone and UV Variations
[66] CASICCIA, S. C., KIRCHHOFF, V. W. J.
H., and TROSNIKOV, I.
Ozone Depletions at Punta Arenas and Transport of air
Masses from the Antarctic Region [NEA]
[67] CASICCIA, S. C., KIRCHHOFF, V. W. J.
H., ZAMORANO B. F., and VALDERRAMA, V.
Simultaneous UV-B Radiation and Ozone Measurements at Punta
Arenas, Chille, during Appearances of the Ozone Hole [NEA]
[68]
CHANDRA, S. and ZIEMKE, J. R.
Recent Changes in Tropospheric Ozone in the Tropics
[70] CHIPPERFIELD, Martyn
Progress in Multiannual 3D Model Simulations of
Stratospheric O3 at Mid and High Latitudes [NEA]
[71]
CHMELIK, Miroslav
Temperature Trends in Upper Atmosphere Calculated from
Poprad-Ganovce Data (1962-1999) and Total Ozone
[72]
CHMELIK, Miroslav
Determination of the Long Term Total Ozone Average over
Poprad-Ganovce Station
[74]
CHUBACHI Shigeru
Climatology of Antarctic Ozone Hole
[76] CISNEROS , Juan M. and MANZANO, Juan
Index for Vertical Ozone Transport [NEA]
[77] CLAUDE, Hans and STEINBRECHT, Wolfgang
Impact of non-Chemical Processes on Ozone Variance and
Trends at Hohenpeissenberg
[78] CLERBAUX,
Cathy, HADJI-LAZARO, Juliette, HAUGLUSTAINE, Didier, and KHATTATOV, Boris
Global Distribution of CO using Measurements Recorded by the
Nadir-viewing IMG/ADEOS Remote Sensor
[80] COLOMBO,
Tiziano, SANTAGUIDA, R., BONASONI, P., and CALZOLARI, F.
Total ozone trend at Sestola * Italy
[81] CONNOR, Brian, JONES, Nicholas, WOOD, Stephen,
MATTHEWS, Andrew, RINSLAND, Curtis, GOLDMAN, Aaron, STEPHEN, Thomas, and
MANNING, Paul
SFIT2: A General Profile Retrieval Package for
Ground-based FTIR Absorption Measurements [NEA]
[82] CONNOR, Brian, KREHER, Karin, SALAWITCH, Ross,
SANTEE, Michelle, LAWRENCE, Bryan, AJTIC, Jelena, SOLOMON, Philip, LEE, Adrian,
and CHIPPERFIELD, Martyn
Mapping of Active Chlorine and Bromine in the
Antarctic Vortex for Studies of Ozone Loss [NEA]
[83]
CORDERO, Eugene and GRAINGER, Simon
An Examination of low Ozone Values in the Southern Hemisphere
Middle Latitudes during 1997
[84] Cristofanelli,
P., Tositti, L., Colombo, T., Stohl, A., Evangelisti,
F., CalzolarI, F., and BonasonI, P.
Vertical Ozone Transports on the North Apennines,
Contribution of Stratospheric Intrusions [NEA]
[85] CUNNOLD, Deek M., WANG, H. J., ZAWODNY, J. M., and
THOMASON, L. W.
SAGE II Lower Stratospheric Ozone and Trends [NEA]
[87] De GUZMAN, Rosalina G.
Total Ozone Measurements and Changes Observed Over the
Philippines in Recent Years [NEA]
[88] De La
No*, Jérôme, Ovarlez, J.,
Ovarlez, H., Schiller, C., Lautie, N., Ricaud, P., Urban, J., Feist, D. G.,
Zalesak, L., KÄMPFER, N, Ridal, M., Murtagh, D., Lindner, K., Klein, U., and KÜnzi, K. P. F.
Water Vapour Distribution Inside and Outside the Polar
Vortex during THESEO [NEA]
[89] DEGORSKA, Malgorzata, KRZYSCIN, Janusz, and
RAJEWSKA-WIECH, Bonawentura
The Summer-Midwinter Correlation in Total Ozone over
North America and Europe for the Period 1963-1997 [NEA]
[90] DeLAND, Matthew, CEBULA, Richard, TAYLOR, Steven,
HUANG, Liang-Kang, STOLARSKI, Richard, and McPETERS, Richard
Calibration of NOAA-9 and NOAA-11 SBUV/2 Total Ozone
Data for Trend Analysis [NEA]
[91] DELUISI,
John, PETROPAVLOVSKIKH, Irina, THEISEN, Dave, STEVERMER, Amy, and KOSMIDIS,
Evangelos
Aerosol Error Corrections in Umkehr Ozone Profile Record
[92] DEMO