Author(s) |
Title |
Country |
Pages
|
M.G. Akperov |
Tropospheric Lapse Rate and its Relation to Surface Temperature for warm and cold seasons from Reanalysis Data |
Russia |
2-01 |
O.A. Alduchov, I.V. Chernykh |
Temperature Trends in Antarctic Atmosphere Detected by the Method Based on the Using of Hourly Observations |
Russia |
2-03
|
A.V. Chernokulsky |
Cloudiness anomalies and El Nino effects |
Russia |
2-05
|
I.V. Chernykh |
About Accuracy of High Cloud Amount Detecting from Radiosonde Sounding |
Russia |
2-07
|
I.V. Chernykh, O. Alduchov |
Trends in Low Cloud Boundary for Antarctic Region |
Russia |
2-09
|
I.V. Chernykh, O.A. Alduchov |
Trends in Low Boundary of Cloud Layers with Cloud Amount 80-100% of the Sky for Antarctic Region |
Russia |
2-11
|
H.P. Frank, D. Majewski |
Hindcasts of historic storms with GME, COSMO-LMQ, and COSMO-LMK |
Germany |
2-13
|
S. Gregory, D. Noone, D. Schneider |
Variability in the Teleconnection Between ENSO and West Antarctic Climate |
USA |
2-15 |
I.N. Kuznetsova, M.N. Khaikine, M.I. Nakhayev |
The mean yearly temperature lapse rates in the urban atmospheric boundary layer (ABL) on microwave sounding data |
Russia |
2-17 |
I.I. Mokhov, V.A. Bezverkhny, A.A. Karpenko, N.S. Keenlyside, S.S. Kozlenko |
Cross-wavelet analysis of coherence and time lags between El Niño and Atlantic equatorial mode |
Russia |
2-19 |
A.V. Muraviev, I.A. Kulikova, E.N. Kruglova |
Circulation indices extremes in seasonal hindcast integrations |
Russia |
2-21 |
A.B. Pezza, T. Durrant, I. Simmonds, I. Smith |
Southern Sea Ice, cyclone behaviour and rainfall in Melbourne and Perth |
Australia |
2-23 |
A.B. Pezza, I. Simmonds |
The climatic importance of South Atlantic hurricane Catarina (2004) |
Australia |
2-25 |
I. Simmonds, M.R. Drinkwater |
A ferocious and extreme Arctic storm in a time of decreasing sea ice |
Australia |
2-27 |
M. Ueno |
An analytical expression for the amplitude of wavenumber-one vertical velocity in the inner-core region of tropical cyclones under the influence of vertical ambient shear |
Japan |
2-29 |
Author(s) |
Title |
Country |
Pages
|
F. Baer, H. Wang, J.J. Tribbia, A. Fournier
|
|
USA |
3-01 |
M. Déqué, S. Somot |
Variable resolution versus limited area modelling: perfect model approach |
France |
3-03
|
M. Fox-Rabinovitz, J. Côté, B. Dugas, M. Déqué, J.L. McGregor |
Initial Results of the SGMIP-2 (Stretched-Grid Model Intercomparison Project, phase-2) |
USA |
3-05 |
T. Heinze, T. Ruppert, P. Korn, L. Bonaventura |
Velocity reconstruction by radial basis functions in a triangular staggered C grid |
Germany |
3-07
|
J. Ishida |
Development of a hybrid terrain-following vertical coordinate for JMA Non-hydrostatic Model |
Japan |
3-09
|
V.M. Krasnopolsky, M.S. Fox-Rabinovitz, A. Belochitski |
Compound Parameterization for a Quality Control of Outliers and Larger Errors in NN Emulations of Model Physics |
USA |
3-11
|
V.P. Parkhomenko |
AGCM parallel realization on cluster |
Russia |
3-13
|
J.A. Pudykiewicz |
Shallow Water Equations with Chemical Transport |
Canada |
3-15 |
B.-W. Shen, W.-K. Tao, J.-D. Chern |
Improvements in the Scalability of the NASA Goddard Multiscale Multicomponent Modeling Framework for Hurricane Climate Studies |
USA |
3-17 |
Author(s) |
Title |
Country |
Pages
|
N. Buenning, D. Noone, W. Riley, C. Still, J. Randerson, L. Welp, J. White, B. Vaughn, J. Miller, P. Tans |
Modeling Interannual Variability of δ18O of Atmospheric CO2 and its Dependence on Humidity and Isotope Hydrology |
USA |
4-01
|
L.R. Dmitrieva Arrago, M.V. Shatunova |
The Method of the Cloud Radiation Interaction Description for the Atmospheric Hydrodynamical Model
|
Russia |
4-03
|
J.-F. Geleyn, Y. Bouteloup, B. Catry, R. Brožková |
A PDF-based method for computing the sedimentation effects within a full prognostic microphysical scheme |
Czech Republic |
4-05
|
T. Hara |
Implementation of improved Mellor-Yamada Level 3 scheme and partial condensation scheme to JMANHM and their performance |
Japan |
4-07
|
Y. Jiao, C. Jones |
Cloud processes simulated by the Canadian Regional Climate Model along a cross-section in the Pacific Ocean |
Canada |
4-09
|
J. Ruiz, F. Lorena, C. Saulo |
WRF-ARW sensitivity to different planetary boundary layer parameterization over South America |
Argentina |
4-11
|
N. Kohno, A. Murata |
The Impact of the Sea State on the Typhoon Intensity in Atmosphere-wave coupled model |
Japan |
4-13
|
A. Murata |
Entrainment and Detrainment in Numerically Simulated Cumulus Clouds and Their Relationship to Buoyancy |
Japan |
4-15
|
S. Nickovic |
Coupled atmosphere-hydrology system for routine prediction of overland water flow |
Malta |
4-17
|
S. Nickovic, Z.I. Janjic, P. Kishsha, P. Alpert |
Model for simulation of the sea salt aerosol atmospheric cycle |
Malta |
4-19
|
D. Noone |
Assessing global model hydrology with simulations from the Stable Water-isotope Intercomparison Group |
USA |
4-21
|
C. Papon, C. Jones, D. Paquin, Y. Jiao |
Shallow cumulus parameterisation in the CRCM |
Canada |
4-23
|
D.W. Shin, S. Cocke, T.E. LaRow, Y.-K. Lim |
Climate Model Capability in Resolving Diurnal Cycle of Rainfall |
USA |
4-25
|
Author(s) |
Title |
Country |
Pages
|
M. Baldauf, K. Stephan, S. Klink, C. Schraff, A. Seifert, J. Förstner, T. Reinhardt, C.-J. Lenz |
The new very short range forecast model COSMO-LMK for the convection-resolving scale |
Germany |
5-01
|
L. Berkovich, Y. Tkacheva, V. Shnaydman |
Surface wind prediction by the boundary layer model |
Russia |
5-03
|
F. Bouttier and collaborators |
Progress and plans of the Mété-oFrance NWP system in 2006: ARPEGE, ALADIN and AROME systems |
France |
5-05
|
H. Eito, K. Aonashi |
Resolution dependence of hydrometeor structures generated by cloud resolving model |
Japan |
5-07
|
G. Faure, S. Westrelin |
A new Mété-oFrance NWP system over the southwest Indian ocean |
France |
5-09
|
T. Hara, K. Aranami, R. Nagasawa, M. Narita, T. Segawa, D. Miura, Y. Honda, H. Nakayama, K. Takenouchi |
Upgrade of the operational JMA non-hydrostatic mesoscale model |
Japan |
5-11
|
T. Kato, S. Hayashi |
Relation of Dec. 2005 heavy snowfall and cloud-top heights around the Japan-Sea side of the Japan Islands, estimated from objective analyses and forecasts of cloud-resolving model |
Japan |
5-13
|
W. Mashiko |
Numerical simulation of tornado-producing supercell storm and tornado associated with Typhoon Shanshan (2006) |
Japan |
5-15
|
A. Murata |
Precipitation Efficiency in Numerically Simulated Orographic Rainfall Associated with Typhoon Meari (2004) |
Japan |
5-17
|
H. Nakayama, Y. Ishikawa, T. Fujita, K. Takenouchi |
Experimental operation of a high-resolution local forecast model at JMA |
Japan |
5-19
|
A.E. Pokhil, A.D. Naumov, M.Y. Zaichenko |
Calculation of the tracks of typhoons threatening the coasts of Russia |
Russia |
5-21
|
J. Ruiz |
A high resolution, real time experimental forecast for the Río de la Plata: A “Sea-Breeze” case study |
Argentina |
5-23
|
K. Saito, H. Seko, M. Kunii, T. Hara, M. Kyouda, M. Yamaguchi |
Preliminary Mesoscale Ensemble Prediction experiment for WWRP Beijing 2008 RDP |
Japan |
5-25
|
K. Saito |
Development of a BGM method with the JMA nonhydrostatic mesoscale model |
Japan |
5-27
|
T. Segawa, Y. Honda |
Verification method to evaluate simultaneously both intensity and coverage of precipitation forecast |
Japan |
5-29
|
H. Seko, K. Saito, M. Kunii, T. Hara, M. Kyouda, M. Yamaguchi |
Japan Area Mesoscale Ensemble Experiments using JMANHM |
Japan |
5-31
|
V. Shnaydman, G. Stenchikov, L. Berkovitch |
Advanced Model of Atmospheric Boundary Layer |
Russia |
5-33
|
I. Takano, Y. Aikawa, S. Gotoh |
Improvement of photochemical oxidant information by applying transport model to oxidant forecast |
Japan |
5-35
|
W. Tennant |
Installation of the Unified Model for NWP in South Africa |
South Africa |
5-37
|
E. Tourigny , C. Jones |
Seasonal Prediction at the Regional Scale: An Analysis of Regional Climate Model Performance Over the Tropical Americas |
Canada |
5-39
|
Author(s) |
Title |
Country |
Pages
|
V.M. Khan, K. Rubinstein, M. Zoloeva |
Sensitivity of Snow Water Equivalent Distribution to Variations of Critical Snow Albedo in GCM Experiments of Hydrometcentre of Russia |
Russia |
7-01
|
V.C. Khon, I.I. Mokhov, E. Roeckner |
Changes of seasonal ice area in the Arctic Ocean from model simulations with IPCC SRES scenario |
Russia |
7-03
|
V.C. Khon, M. Latif, I.I. Mokhov, E. Roeckner, V.A. Semenov |
Impact of the North Atlantic thermohaline circulation on the European and Northern Atlantic weather in a coupled GCM simulation |
Russia |
7-05
|
Z. Kothavala, C. Jones, D. Paquin, A. Zadra |
The transferability of Regional Climate Models through an assessment of the diurnal cycle |
Canada |
7-07
|
E.-P. Lim, I. Simmonds |
Sensitivity of the general circulation and extratropical cyclone characteristics to tropical and polar heating |
Australia |
7-09
|
Y.-K. Lim, D.W. Shin, T.E. LaRow, S. Cocke |
Categorical predictability of regionalized surface temperature and precipitation over the southeast United States |
USA |
7-11
|
M. Markovic, C. Jones, P. Vaillancourt, D. Paquin |
The Simulated Surface Radiation Budget over North America in a Suite of Regional Climate Models |
Canada |
7-13
|
I.I. Mokhov, M.G. Akperov, A.V. Chernokulsky, J.-L. Dufresne, H. Le Treut |
Comparison of cloudiness and cyclonic activity changes over extratropical latitudes in Northern Hemisphere from model simulations and from satellite and reanalysis data |
Russia |
7-15
|
D. Paquin-Ricard, C. Jones, P. Vaillancourt |
Comparison of Cloud Microphysics between GEM and ARM-SGP Observations |
Canada |
7-17
|
V.A. Semenov |
Simulation of the Arctic temperature variability in the 20th century with a set of atmospheric GCM experiments |
Germany |
7-19
|