Table Of ContentINDEX
Volume 59, 2002
January 3-125 No. 13 July
5 January 125-248 No. 14 5 July
| February 249-788 No | August
5 February 789-892 No. | 15 August
March R03 1028 No. | September
5 March 1029 No 5 September
April 1153 No. | October
5 April 1293 No. 2 15 October
| May 1433-1640 | November
15 May 1641-1776 5 November
1777
June 1916 December
5 June 1917-2032 5 December
Corrigenda: 2625
Section A. Index to Contributions by Author
Notes and Correspondence are ndicated by asterisks
Readers are encouraged to brow 4MS journals online to search titles and abstracts of articles
referred Itt o in the index belo AMS Web site (http://www.ametsoc.org/AMS ).
RT, \.; 3421-3435
330] RKEE, KUSSE 1.; Ocus, Harry T., II;
r: see GLUHOVSKY. XANDER: 1383 1393 Coalescence Efficiency Measurements for Minimally Charged
A: see ( : 2033-2056 Cloud Drops, 233-243
AIRES, Fitipe; Rossow, W \M B.; CHEDIN, A Rotation of EOFs iD, Pr see CHABOUREAU, JeAN-PrERRE; 2362-2372
by the Independent Component Analysis Toward a Solution of the . Ericu: SCHMII GERHARD; Energy Deposition and Turbulent
Mixing Problem in the Decomposition of Geophysical Time Series, Dissipation Owing to Gravity Waves in the Mesosphere, 54-68
111-12 ,C . M.; see Hars N; 714-725
hin ruUCE A.: see ZHU. PING: 1983-2005 . J. H.; see Hotton, J. R.; 2019-2023
ALEXANDER,M . JOAN;T \, TOSHITAKA: VINCENT, Rost \ s, JADWIGA H.; ALEXANDER, M. Joan; Hotton, JAMes R.; Effects of
Latitudinal Variations Observed in Gravity Waves with Short Tropospheric Wind Shear on the Spectrum of Convectively
Vertical Wavelengths, 1394—1404 Generated Gravity Waves, 1805—1824
KANDER, M. Joa » BERES WIGA H.: 1805—1824 JOHN W.: Rascu, Puiwip J Parameterizing Vertically
3129
yv, Miki cis, Ad w A.; ( N, BA Coherent Cloud Distributions, 2165
Cairns, Bt AN; Remo te Sensing of Atmospheric Aerosols and Trace mM, R. W see RuSSELL. P. B.: 609-619
Gases by Means of Multifilter Rotating Shadowband Radiomete M, RoBert W.: Russet, Pu p B.; HiGNnetr, Pt
PartI : Retrieval Algorithm, 524—5 elength Dependence of the Absorbtion of Black Carbon
XANDROV, MIKH s, A} w A.: Cat N,B Predictions and Results from the TARFOX Experiment
( Ns. B ; Remote Sensing of Atmospheric Aerosols and for the Aerosol Single Scattering Albedo, 567-5
Gases by Means of Multifiltet Rotating Shadowband Radiom O.: 398-413
Part I: Climatologic al Applications, 544-566 H. W - 2093
. PINHAS; see KRICHAK, SIMO? 243-2252 s J.; Lightning Scaling Relatio 1O86—1 104
Ep L: Hicks, B B.: *( omments on “Critical Test of -e Li, J.; 2883
the Validity of Monin—Obukho Similarity durine Convective O.; Eulerian Variational Principles for Stratified Hydrostatic
Conditions,” 2605-2607 Equat 162
‘, Joun: A Three-Dir nsional Coupled Chemist . KENN ; Carrie, Gordon D.; The Mean-Meridional
Model Simulation of Past Stratospheric Trends, 218 lransport lroposphere in an Idealized GCM,
162. 3163 502-151
M Wind Stress Sin MIcH ee PoLONSKY, IGor N.; 758-768
n AGCM, 3051 4; 2608-2614
1006-101 ns, Davin I 3285-3301
dations for Models of Moist 327 32384
H, RONALD B.; 2073-2092
. H.-O.; Multiscale Bounded Derivative
Initialization for an Arbitrary Domain, 1680—1696
G ; see ZADRA, AY N; 2498-2510, 2811 2829
~H. W LS Ratpo R ; see Pa KER, DouGJt.;a s 1263-1273
Inferencoef Cloud Optical Depth from . N.: see Scaire, A. A.; 1473 1489
Aircraft-Based Solar Radiometric Measurements, 2093-211 | - see GEOGDZHAYI
Barker,H . W.; see Li, J.; 3321-3339
- see CHOW
3588 JOURNAL OF THE ATMOSPHERIC SCIENCES VOLUME 59
Cairns, BRIAN; see ALEXANDROV, MIKHAIL D.; 524-543, 544-566 Crarke, Antony D.; Kapustin, VLADIMIR N.; A Pacific Aerosol Survey.
*ALLAGHAN, PATRICK F.; SALBY, Murry L.; Three-Dimensionality and Part I: A Decade of Data on Particle Production, Transport,
Forcing of the Brewer—Dobson Circulation, 976-99| Evolution, and Mixing in the Troposphere, 363-382
Cammas, J.-P.; see Scott, R. K.; 2347-2361 CoakLey, JAMES A., JR.; WALSH, CHRISTOPHER D.: Limits to the Aerosol
Canuto, V. M.; see CHENG, Y.; 1550-1565 Indirect Radiative Effect Derived from Observations of Ship
“ARBONE, R. E.; Tutte, J. D.; AnvEvycu, D. A.; TRIER, S. B.: Tracks, 668-680
Inferences of Predictability Associated with Warm Season Corton, RICHARD; see LIN, RUEI-FoNG; 2305
Precipitation Episodes, 2033-2056 Corron, WILLIAM R.; see LARSON, VINCENT E.; 35
“ARLSON, BARBARA E.; see ALEXANDROV, MIKHAIL D.; 524-543, 544-566 Corton, WILLIAM R.; see GOLAZ, JEAN-CHRISTOPHE; 3
“arRICO, C. M.: see Russet, P. B.; 609-619 3552-3571
“ARRIE, GORDON D.; see BOWMAN, KENNETH P.; 1502-1514 Couvreux, FLEUR; see Hourbin, Frepeéric; 1105-1123
“ASH, BENJAMIN A.; KUSHNER, PAUL J.; VALLIS, GEOFFREY K.; The Cram, THOMAS A.; MONTGOMERY, MICHAEL T.; HERTENSTEIN, ROLF F. A.;
Structure and Composition of the Annular Modes in an Aquaplanet Early Evolution of Vertical Vorticity in a Numerically Simulated
General Circulation Model, 3399-3414 Idealized Convective Line, 2113-2127
“ASTANHEIRA, J. M.; GRAF, H.-F.; DACAMaARA, C. C.; Rocua, A.; Using a Crocuet, M.; see Luce, H.; 2885-2896
Physical Reference Frame to Study Global Circulation Variability, CROMMELIN, DAAN T.; Homoclinic Dynamics: A Scenario for
1490-1501 Atmospheric Ultralow-Frequency Variability, 1533-1549
"HABOUREAU, JEAN-PIERRE; BECHTOLD, PETER; A Simple Cloud Crossy, Davin; see ZHAO, Tom X.-P.; 294-312
Parameterization Derived from Cloud Resolving Model Data: Curry, JupirH A.; see KHvoROSTYANOV, VITALY I.; 1872-1884
Diagnostic and Prognostic Applications, 2362-2372 DaCamara, C. C.; see CASTANHEIRA, J. M.; 1490-1501
“HAN, JOHNNY C. L.; Ko, Francis M. F.; Let, YING MAN; Relationship DALAUDIER, F.; see Luce, H.; 2885-2896
between Potential Vorticity Tendency and Tropical Cyclone Daum, PeTER H.; see Liu, YANGANG; 2279-2290
Motion, 1317-1336 Davies-Jones, Ropert; Linear and Nonlinear Propagation of Supercell
CHAN, KwinG L.; see Cuow, K. C.; 2930-2950 Storms, 3178-3205
CHAN, Pul-KinG; see CHou, MinG-Dau; 748-757 Davis, ANTHONY B.; MARSHAK, ALEXANDER; Space-Time
Cuan, W. C.; see Monmh, P.; 2513-2534 Characteristics of Light Transmitted through Dense Clouds: A
CHANDRASEKAR, V.; see GorGuUCCI, EUGENIO; 2373-2384 Green’s Function Analysis, 2713-2727
CHARRON, MARTIN; MANZINI, ELIsA; Gravity Waves from Fronts: De Bruin, H. A. R.; see VAN DE WieL, B. J. H.; 942-958, 2567-2581
Parameterization and Middle Atmosphere Response in a General DELENE, Davip J.; OGREN, JOHN A.; Variability of Aerosol Optical
Circulation Model, 923-941 Properties at Four North American Surface Monitoring Sites,
CHATENET, BERNADETTE; See KAUFMAN, Y. J.; 635-646 1135-1150
CHEDIN, ALAIN; see AirES, FILipE; 1 1 1-123 Det Genio, ANTHONY D.; see MENON, SuRABE, 692-713
CHEN, CHIH-CHIEH; see MorGan, MICHAEL C.; 169-185 DeMortr, PAut J.: see Lin, RUEI-FoNG; 2305-2329
CHENG, Y.; CANuTO, V. M.; Howarb, A. M.; An Improved Model for DEROME, JACQUES; see ZADRA, AYRTON; 2498-2510, 2811-2829
the Turbulent PBL, 1550—156€5 DicKINSON, MICHAEL: MOLINARI, JOHN; Mixed Rossby—Gravity Waves
Cun, MIAN; see PENNER, Joyce E.; 441-460 and Western Pacific Tropical Cyclogenesis. Part I: Synoptic
Cun, Mian; Ginoux, PAUL; KINNE, STEFAN; TORRES, OMAR; HOLBEN, Evolution, 2183-2196
Brent N.; DuNCAN, BRYAN N.; MARTIN, RANDALL V.; LOGAN, po Carmo, A. M. C.; see Rao, V. BRAHMANANDA; 1029-1040
JENNIFER A.; HiGURASHI, AKIKO; NAKAJIMA, TERUYUKI; Tropospheric DonG, XIQUAN; MINNIS, PATRICK: MACE, GERALD G.; SmitH, WILLIAM
Aerosol Optical Thickness from the GOCART Model and Jr.; PoELLoT, MICHAEL; MARCHAND, RoGeR T.; Rapp, Anita D.:;
Comparisons with Satellite and Sun Photometer Measurements, Comparison of Stratus Cloud Properties Deduced from Surface,
461-483 GOES, and Aircraft Data during the March 2000 ARM Cloud IOP
3265-3284
Cuou, Minc-Dau; see WEAVER, CLARK J.; 736-747
Cuou, MinG-Dau; CHAN, Pul-KING; WANG, MENGHUA; Aerosol Doy ce, JAMes D.; DurRAN, DALE R.; The Dynamics of Mountain
Radiative Forcing Derived from SeaWiFS-Retrieved Aerosol Wave- Induced Rotors, 186-201
Optical Properties, 748-757 Doy-e, JAMEs D.; see SmMitH, RONALD B.; 2073-2092
Cuow, K. C.; CHAN, Kwina L.; Lau, ALexis K. H.; Generation of DraAGANI, R.; REDAELLI, G.; Visconti, G.; Mariotti, A.; RUDAKOVY, V.;
Moving Spiral Bands in Tropical Cyclones, 2930-2950 MacKenzie, A. R.; Sreranutti, L.; High-Resolution Stratospheric
CuHowpnary, JACEK; CAIRNS, BRIAN; TRAVIS, LARRY D.; Case Studies of racer Fields Reconstructed with Lagrangian Techniques: A
Aerosol Retrievals over the Ocean from Multiangle, Multispectral Comparative Analysiosf Predictive Skill, 1943-1958
Photopolarimetric Remote Sensing Data, 383-397 Dusovik, OLEG; see SMIRNOV, ALEXANDER; 501-523
CHRISTOPHER, SUNDAR A.; ZHANG, JIANGLONG; Daytime Variation of Dusovik, OLEG; HOLBEN, BRENT; EcK, THOMAS F.; SMIRNOV, ALEXANI
Shortwave Direct Radiative Forcing of Biomass Burning Aerosols KAUFMAN, YORAM J.; KinG, Micuaet D.; TAnre, Dinter; SLUTSKER,
from GOES-S Imager, 681-691 ILyA; Variability of Absorption and Optical Properties of Key
Cuu, Peter C.; lvANov, LEoniD M.; MARGOLINA, TATYANA M.;: Aerosol Types Observed in Worldwide Locations, 590-608
MELNICHENKO, OLEG V.; Probabilistic Stability of an Atmospheric Dusovik, OLEG; see SMIRNOV, ALEXANDER; 620-634
Model to Various Amplitude Perturbations, 2860-2873 DuBRULLE, BERENGERE; LAVAL, JEAN-PHILIPPE; SULLIVAN, PETER P.;
CHUANG, CATHERINE C.; see PENNER, Joyce E.; 441-460 WERNE, JosepH; A New Dynamical Subgrid Model for the Planetary
CHUANG, Patrick Y.; see FEINGOLD, GRAHAM; 2006-2018 Surface Layer. Part I: The Model and A Priori Tests, 861-876
Cuun, Hye-YeonG; Baik, Jonc-Jim; An Updated Parameterization of DuBRULLE, BERENGERE; LAVAL, JEAN-PHILIPPE; SULLIVAN, PETER P.; A
Convectively Forced Gravity Wave Drag for Use in Large-Scale New Dynamical Subgrid Model for the Planetary Surface Layer
Models, 1006-1017 Part II: Analytical Computation of Fluxes, Mean Profiles, and
CHUNCHUZOV, IGor P.; On the High-Wavenumber Form of the Eulerian Variances, 877-891
Internal Wave Spectrum in the Atmosphere, 1753-1774 DurreESNE, JEAN-Louis; GAUTIER, CATHERINE; RICCH!AZZ1, PAUL:
Fouquart, Yves; Longwave Scattering Effects of Mineral Aerosols,
1959-1966
DECEMBER 2002 INDEX 3589
DuGas, BERNARD; see ZADRA, AYRTON: 2498-2510 1AYEV, IGOR V.; MISHCHENKO, MICHAEL I.; Rossow, WILLIAM B.:
Duncan, BRYAN N.; see CHIN, MIAN; 461-483 Cairns, BRIAN; Lacis, ANDREW A.; Global Two-Channel AVHRR
DUNKERTON, Timotuy J.; see Sato, Kaoru; 2782-2800 Retrievals of Aerosol Properties over the Ocean for the Period of
DuRDEN, STEPHEN L.; see HEYMS ANDREW J.; 3457-3491 NOAA-9Y Observations and Preliminary Retrievals Using NOAA
DurRKEE, RUSSELL I.; see BEARD, KENNETH 243 and NOAA-/ 1] Data, 262-278
Durran, D. R.; see Eptt u< 1165, 1166-1181 7ZHAYEV, IGOR V.: see PENNER, Joyce E.: 441-460
Durran, DALE R.; see DoyLe, James D.; 186-201 1, Is N; see RASMUSSEN, Roy M.; 837-860
Dye, JAMES E.; see HEYMSFIELD, ANDREW J.; 349] GHAN, STI see REMER, LORRAINE A.: 657—667
Eck, T. F.: see KAUFMAN, Y. J.; 635-646 Ginis, ISAAC: HEN, WEIXING: 789-802
Eck, THOMAS F.; see SMIRNOV, ALEXANDER; 501—523, 620-634 Ginoux, PAUL: see TorrOe.s: , 398-413
Eck, THoMAS F.; see DuBovik, OLEG: 590-608 Ginoux, PAUL: see PENNER, Joyce E.; 441-460
Epiranio, C. C.; DuRRAN, D. R.; Lee- Vortex Formation in Free Ginoux, PAUL: see CHIN, MIAN; 461-483
Stratified Flow over Ridges. Part I: Comparison of Weakly Ginoux, PAuL: see WEAVER, CLARK J.: 7
Nonlinear Inviscid Theory and Fully Nonlinear Viscous GLENDENING, JOHN W.; Lin, CHING-LONG; Large Eddy Simulation
Simulations, 1153-1165 Internal Boundary Layers Created by a Change in
Epiranio, C. C.; DurrAN, D. R.; Lee-Vortex Formation in Free-Slip SurfaceRoughness, 1697-1711
Stratified Flow over Ridges. Part II: Mechanisms of Vorticity and GLENDENING, JOHN W.; see Lin, CHING-LONG; 2
PV Production in Nonlinear Viscous Wakes, 1166-1181 GLUHOVSKY, ALEXANDER; TONG, CHRISTOPHER; ; AGEE, I ; Selection
Evans, K. FRANKLIN; see MCKaGuE, DarrEN; 1371-1382 of Modes in Convective Low-Order Models, 1383 1393
FARRELL, BRIAN F.; IJOANNOU, Petros J.; Perturbation Growth and Go Laz, JEAN-CHRISTOPHE; see LARSON, VINCENT E.; 3519-3539
Structure in Uncertain Flows. Part I, 2629-2646; Part Il, 2647-2664 Go az, JEAN-CHRISTOPHE; LARSON, VINCENT E.; Corton, W MR.; A
FEICHTER, JOHANN; See PENNER, Joyce E.; 441-460 PDF-Based Model for Boundary Layer Clouds. Part I: Method and
FEINGOLD, GRAHAM; CHUANG, PATRICK Y.; Analysis of the Influence of Model Description, 3540-3551; Part Il: Model Results, 3552-3571
Film-Forming Compounds on Droplet Growth: Implications for Goopman, Jason C.; MARSHALL, JOHN; Using Neutral Singular Vectors
Cloud Microphysical Processes and Climate, 2006-2018 to Study Low-Frequency Atmospheric Variability, 3206-3222
FENG, YAN; see PENNER, Joyce E.; 441-460 GorcGuccl, EUGENIO; CHANDRASEKAR, V.; BRINGI, V. N.; SCARCHI
FERNANDO, H. J. S.; see Monm1, P.; 2513-2534 GIANFRANCO; Estimation of Raindrop Size Distribution Parameters
FERRERO, E.; LoGuisci, N.; LoNGHETTO, A.; Numerical Experiments of from Polarimetric Radar Measurements, 2373-2384
Barotropic Flow Interaction with a 3D Obstacle, 3239-3253 Gorocu, ANDREAS K.; see SMIRNOV, ALE> ¢: 620-634
FieLp, Paut R.; see HEYMSFIELD, ANDREW J.; 3457-3491 GrasowskI, W. W.:; see VAILLANC( ; 3421-3435
FLEISHAUER, ROBERT P.; LARSON, VINCENT E.; VONDER HAAR, THOMAS H.; GrasowskI, Wojciech W.:; see YANO, JUN-IcHi; 1566-1577
Observed Microphysical Structure of Midlevel, Mixed-Phase Grar, H.-F.; see CASTANHEIRA, J. M.; 1490-1501
Clouds, 1779-1804 GrainGeR, Cepric A.; see HEYMSFIELD, ANDREW J.; 3457-349]
FOLKINS, IAN; Origin of Lapse Rate Changes in the Upper Tropical GrYANIK, VLADIMIR M.; HARTMANN, JORG; A Turbulence Closure for the
rroposphere, 992—1005 Convective Boundary Layer Based on a Two-Scale Mass-Flux
Forp, Rupert; McIntyre, Mict Reply, Approach, 2729-2744
2878-2882 Gu, Guojun; ZHANG, CHIDONG; Westward-Propagating Synoptic-Scale
FouQuartT, Y VES; see DUFRESNE, JEAN-Louts; 1959-1966 Disturbances and the ITCZ, 1062-1075
FouRNIER, AIME; Atmospheric Energetics in the Wavelet Domain. Part GUICHARD, F.; see REDELSPERGER, J.-L.; 2438—245
I: Governing Equations and Interpretation for Idealized Flows, Guo, G.; see HARSHVARDHAN; 714-725
1182-1197 Hakim, Grecory J.; Sn Curis; Muraki, Davin J.; \ New Surface
“OWLER, LAURA D.; RANDALL, Davi A.: Interactions between Cloud Model for Cyclone—Anticyclone Asymmetry, 2405-2420
Microphysics and Cumulus Convection in a General Circulation Haut, W M; see HEYMSFIEI ANDREW J.; 345 349]
Model, 3074—3098 Ha OHN . , YANGANG; 2279-2290
ANCHITO, SERGIO H.; see Rao, V. BRAHMANANDA; 1029-1040
Z7KE, CHRISTIAN; Dynamics of Low-Frequency Variability Han, Qincyuan: Rossow, WILLIAM B.: ZENG, Ji
Barotropic Mode, 2897—2909 Three Different Behaviors of Liquid Water Path of Water Clouds in
REDERIKSEN, JORGEN S.; Genesis of Intraseasonal Oscillations and Aerosol—Cloud Interactions, 726—735
Equatorial Waves, 2761-2781 HARLANDER, Uwe; Rossby Waves in Zonal Barotropic Flows with
Fu, X1iouHUA; see KEMBALL-CooK, SuSAN; 1433-1453 Pseudocritical Levels, 2665—2680
Fucus, ELJKA; RayMonp, Davin J.; Large-Scale Modes of a Harnik, Nivi; The Evolution of a Stratospheric Wave Packet, 2"0)?2 -21
Nonrotating Atmosphere with Water Vapor and Cloud—Radiation HARSH ScHWartz, S. E.: Benkovitz, C. M.: Guo, G.; Aerosol
Feedbacks, 1669-1679 Influence on Cloud Microphysics Examined by Satellite
Fukao, S.; see Luce, H.; 2885-2896 Measurements and Chemical Transport Modeling, 714—725
Garcia, ROLANDO R.; see RANDEL, W AM J.; 2141-2 Hart ey, S.; see Russect, P. B.; 609-619
Garrett, Timotny J.; RADKE, LAWRENCE F.; Hopss, PETER Aerosol HARTMANN ; seeG RYANIK, VLADIMIR M.; 2729-2744
Effects on Cloud Emissivi y and Surface Longwave Heating in the HAYASAKA, TADAHIRO; see IWABUCHI, HiRONOBU; 2227
Hayasut, Yosui- Yuki; see IsHnwatari, MASAKI; 3223
Arctic, 769 778
Garrett, Timotny J.; Hopes, Peter V.; RADKE, LAWRENCE F.; *High Haynes, P. H.; see Scort, R. K.; 803-822
Aitken Nucleus Concentrations above Cloud Tops in the Arctic, HEIDINGER, A? v K.: STEPHENS, GRAEME | Molecular Line
779-783 Absorption in a Scattering Atmosphere. Part III: Pathlength
GAUTIER, CATHERISNeeE ; DUFRESNE, JEAN-Louts; 1959-1966 Characteristics and Effects of Spatially Heterogeneous Clouds,
GELLER, MARVIN A: ZHOU. XU NG: ZH NG. MINGH 4; Simulations of 1641-1654
the Interannual Variability of Stratospheric Water Vapor, 1076-1085 Heip, Isaac M.; see Paucuts, OLtvier; 125-139; 140-149
HERMAN, J. R.: see Torres, O.; 398-413
HERTENSTEIN, ROLF F. A.; see CRAM, THomas A.; 2113-2127
SOURNAL-OF THE ATMOSPHERIC SCIENCES VOLUME 59
HeERz0G, MICHAEL: see PENNER, Joyce E.; 441-460 IWABUCHI, HiRONOBU; HAYASAKA, TADAHIRO; Effects of Cloud
HeyYMSFIELD, A. J.; see PLatr, C. M. R.; 3163-3177 Horizontal Inhomogeneity on the Optical Thickness Retrieved from
HeyMSFIELD, ANDREW J.: Lewis, SHARON; BANSEMER, AARON; [AQUINTA, Moderate-Resolution Satellite Data, 2227-2242
JEAN: MitosHevicn, Larry M.; KankKAwa, MASAHIRO; TWOHY, IWASA, YOSHIHARU: ABE, YUTAKA; TANAKA, Hirosut; Structure of the
CynruiA; PoeLtor. Micuaet R.; A General Approach for Deriving Atmosphere in Radiative—Convective Equilibrium, 2197-2226
the Properties of Cirrus and Stratiform Ice Cloud Particles, 3—29 JENSEN, Eric; see Lin, RugEI-FonG; 2305—2329
HEYMSFIELD, ANDREW J.; BANSEMER, AARON: FIELD, PAUL R.; DURDEN, JOHANSSON, CECILIA: SMEDMAN, ANN-Sort; HOGSTROM, ULF: BRASSEUR,
STEPHENL .; StirH, JEFFREY L.; Dye, JAMES E.; HALL, WILLIAM; JAMES G.; *Reply, 2608-2614
GRAINGER, Crpric A.; Observations and Parameterizations of Jounson, D. E.: Tao, W.-K.; Simpson, J.; Sut, C.-H.; A Study of the
Particle Size Distributions in Deep Tropical Cirrus and Stratiform Response of Deep Tropical Clouds to Large-Scale Thermo-
Precipitating Clouds: Results from In Situ Observations in TRMM dynamic Forcings. Part I: Modeling Strategies and Simulations of
Field Campaigns, 3457-349| TOGA COARE Convective Systems, 3492-3518
Hicks, Bruce B.; see ANDREAS, EpGar L; 2605—2607 JOINER, JOANNA: see WEAVER, CLARK J.; 736-747
HIGNETT, PHILLIP; see BERGSTROM, ROBERT W.; 567-577 Jonas, P. R.; see Woop, R.; 268 1—2693
HIGURASHI, AKIKO; see PENNER, Joyce E.; 441-460 Jones, Parrick A.; BANNON, PETER R.; A Mixed-Layer Model of the
HiGurasui, AKIKO; see CHIN, MIAN; 461-483 Diurnal Dryline, 2582-2593
Hines, Couin O.: Comments on the Gravity Wave Theory of J. Jonker, H. J. J.: see NEGGeRS, R. A. J.; 1655-1668
Weinstock Concerning Dissipation Induced by Nonlinear Effects, JosepH, BINSON; LEGRAS, BERNARD; Relation between Kinematic
2024-2030 Boundaries, Stirring, and Barriers for the Antarctic Polar Vortex,
Hosss, P. V.; see Russeii, P. B.; 609-619 1198-1212
Hosss, PETER V.; see GARRETT, TIMOTHY J.; 769-778, 779-783 KABANOV, Dmitry M.; see SAKERIN, SERGEY M.; 484—500
Hopces, Kevin I.; see Hoskins, BRIAN J.; 1041-1061 KAJIKAWA, MASAHIRO; See HEYMSFIELD, ANDREW J.; 3-29
HOGstTROM, ULF: see JOHANSSON, CECILIA; 2608-2614 KANAK, KATHARINE M.; see SHAPIRO, ALAN; 2253-2269
Hosen, B. N.; see KAUFMAN, Y. J.; 635-646 KAPUSTIN, VLADIMIR N.; see CLARKE, ANTONY D.; 363-382
HoLBeN, BRENT: see Torres, O.; 398-413 K.ARCHER, BERND; see LIN, RUEI-FONG; 2305-2329
HoLBeNn, BRENT: see DuBovik, OLEG:; 590-608 KarpLus, ELI; see RASMUSSEN, Roy M.; 837-860
HoLBEN, BRENT N.; see CHIN, MIAN: 461-483 KAUFMAN, Y. J.: TANRE, D.; HoLBEN, B. N.; Matroo, S.; REMER, L. A.;
HoLpBeNn, Brent N.; see SMIRNOV, ALEXANDER: 501—523; 620-634 Eck, T. F.; VAUGHAN, J.; CHATENET, BERNADETTE; Aerosol Radiative
Hotton, J. R.; Beres, J. H.; ZHou, X.: On the Vertical Scale of Gravity Impact on Spectral Solar Flux at the Surface, Derived from
Waves Excited by Localized Thermal Forcing, 2019-2023 Principal-Plane Sky Measurements, 635-646
Hotton, JAMES R.: see BerEs, JapwiGA H.; 1805-1824 AUFMAN, YORAM J.; see SMIRNOV, ALEXANDER: 501—523
Hottsiac, A. A. M.: see VAN DE Wie, B. J. H.; 942—958: 2567-2581 KAUFMAN, YORAM J.; see DuBovik, OLEG; 590-608
Horinoucui, Takesut; Mesoscale Variability of Tropical Precipitation: KAUFMAN, YORAM J.; see REMER, LORRAINE A.; 657-667
Validation of Satellite Estimates of Wave Forcing Using TOGA KEMBALL-Cook, SUSAN; WANG, BIN; Fu, XiouHuA; Simulation of the
COARE Radar Data, 2428-2437 Intraseasonal Oscillation in the ECHAM-4 Model: The Impact of
Hoskins, BriAN J.; HopGes, Kevin I.; New Perspectives on the Northern Coupling with an Ocean Model, 1433-1453
Hemisphere Winter Storm Tracks, 1041-106] KHAIROUTDINOV, MARAT F.; RANDALL, Davip A.; Similarity of Deep
HourbIn, FREDERIC; COUVREUX, FLEUR; MENUT, LAURENT; Continental Cumulus Convection as Revealed by a Three-
Parameterization of the Dry Convective Boundary Layer Based on Dimensional Cloud-Resolving Model, 2550-2566
a Mass Flux Representation of Thermals, | 105-1123 KHVOROSTYANOV, VITALY I.; Curry, JupirH A.; Terminal Velocitieosf
Houze, Ropert A., JR.: see SERRA, YOLANDE L.; 1723-1743 Droplets and Crystals: Power Laws with Continuous Parameters
Howarp, A. M.; see CHENG, Y.; 1550-1565 over the Size Spectrum, 1872-1884
Hsu, N. Curistina; see WEAVER, CLARK J.; 736-747 KIEMLE, CHRISTOPH; see SMITH, RONALD B.; 2073
Hu, YONGYUN; PIERREHUMBERT, RAYMOND T.; The Advection—Diffusion KiLapis, GEORGE N.; see STRAUB, KATHERINE H.; 30-5
Problem for Stratospheric Flow. Part II: Probability Distribution Kim, HyuN Mee; MoraGan, Micuaet C.; Dependence of Singular Vector
Function of Tracer Gradients, 2830-2845 Structure and Evolution on the Choice of Norm, 3099-3116
[Acono, R.; Local Energy Generation in Barotropic Flows, 2153-2163 KIMMEL, SHARI J.; WYNGAARD, JOHN C.; Orre, Martin J.; “Log-Chipper”
TAQUINTA, JEAN; See HEYMSFIELD, ANDREW J.; 3—29 lurbulence in the Convective Boundary Layer, 1124-1134
IGNATOV, ALEXANDER; STOWE, LARRY; Aerosol Retrievals from Individual KinG, Micuae D.; see DuBovik, OLEG; 590-608
AVHRR Channels. Part I: Retrieval Algorithm and Transition from KINNE, STEFAN; see CHIN, MIAN; 461-483
Dave to 6S Radiative Transfer Model, 313-334: Part II: Quality KLEEMAN, RICHARD; Measuring Dynamical Prediction Utility Using
Control, Probability Distribution Functions, Information Content, and Relative Entropy, 2057-2072
Consistency Checks of Retrievals, 335-362 Kiemp, JosePH B.; see SKAMAROCK ILLIAM C.; 2270-2278
INATSU, MASARU; MukouGAwa, Hirosut; Xie, SHANG-P1NG; Stationary KNAP, WouTeR H.: STAMMES, PIET; KOELEMEUER, RoBerT B. A.; Cloud
Eddy Response to Surface Boundary Forcing: Idealized GCM lhermodynamic-Phase Determination from Near-Infrared Spectra
Experiments, 1898-1915 of Reflected Sunlight, 83-96
JOANNOU, PETROS J.; see FARRELL, BRIAN F.; 2629-2646; 2647-2664 KNApP, KENNETH R.; Stowe, Larry L.; Evaluating the Potential for
IRONS, S.; see Woop, R.: 2681-2693 Retrieving Aerosol Optical Depth over Land from AVHRR
ISHIKAWA, HIROHIKO; see ITANO, TosHtHisa; 3255-3263 Pathfinder Atmosphere Data, 279-293
ISHIWATARI, MASAKI; TAKEHIRO, SHIN-ICHI; NAKAJIMA, KENSUKE; KNIGHT, CHARLES A.; VIVEKANANDAN, JOTHIRAM; LASHER-TRAPP, SONIA
HAyaAsHi, Yosui-Yukt; A Numerical Study on Appearance of the G.; First Radar Echoes and the Early Z,, History of Florida
Runaway Greenhouse State of a Three-Dimensional Gray Cumulus, 1454-1472
Atmosphere, 3223-3238 KNYAZIKHIN, Y.; MARSHAK, A.; WiscomBE, W. J.; MARTONCHIK, J. V
ITANO, TOSHIHISA; ISHIKAWA, Hirouiko; Effect of Negative Vorticity on Mynenl, R. B.; A Missing Solution to the Transport Equation and Its
the Formation of Multiple Structure of Natural Vortices, 3255-3263 Effect on Estimation of Cloud Absorptive Properties, 3572-3585
IvANov, LEonID M.; see Cuu, PETER C.; 2860-2873 Ko, Francis M. F.; see CHAN, Jounny C. L.; 1317-1336
DECEMBER 2002 INDEX
Kocu, Dorotuy; see PENNER, Joyce E.; 441-460 Liu, XIAOHONG; see Lin, RuEI-FonG; 2305-2329
Kocnu, Dorotuy; see MENON, SuraABI; 692-713 Liu, YANGANG; Daum, Peter H.; HALLETT, Joun; A Generalized Systems
KOELEMEWER, ROBERT B. A.; see KNAP, WoureR H.; 83-96 Theory for the Effect of Varying Fluctuations on Cloud Droplet
KowALEwsSKI, T. A.; see Monrti, P.; 2513-2534 Size Distributions, 2279-2290
Kreiss, H.-O.: see BROwNING, G. L.: 1680-1696 I IVINGSTON,J . M.: see Russet, P. B.: 609-619
KRICHAK, SIMON O.; ALPERT, PINHAS; A Fractional Approach to the LOGAN, JENNIFER A.; see CHIN, MIAN; 461-483
Factor Separation Method, 2243-2252 I ci, N.; see FER », E.; 3239-3253
KUSHNER, PAUL J.; see CASH, BENJAMIN A.: 3399-3414 I OHMANN, ULRIKE; see PENNER, Joyce E.: 441-460
Lac, C.; Larore, J.-P.; REDELSPERGER, J.-L.; Role of Gravity Waves in I IKE; Possible Aerosol Effects on Ice Clouds vi
Triggering Deep Convection during TOGA COARE, 1293-1316 Nucleation, 647-656
.ACIS, ANDREW A.; see GEOGDZHAYEV, IGoR V.; 262—278 HI A.; see FERRERO,E .; 3239-3253
ACIS, ANDREW A.; see ALEXANDROV, MikuaiL D.; 524-543; 544-566 , H.; Fuxao, S.; DALaupier, F.; CRocuet, M.; Strong Mixing
AFORE, J.-P.; see Lac, C.; 1293-1316 Events Observed near the Tropopause with the MU Radar and
LAND, CHRISTINE; See PENNER, Joyce E.; 441-460 High-Resolution Balloon Techniques, 2885-2896
LARSON, VINCENT E.; see FLEISHAt ER, Ropert P.; 1779-1804 Mace, GERALD G.: see DoNG, XIQUAN: 3265-3284
LARSON, VINCENT E.; GOLAZ, JEAN-CHRISTOPHE: COTTON, WILLIAM R.; Macke, ANDREAS; see MCFARQUHAR, GRE¢ 2 458
Small-Scale and Mesoscale Variability in Cloudy Boundary Layers MAckKE, ANDREAS; see ZHANG, YING; 2951-2965
Joint Probability Density Functions, 3519-3539 MacKenzie, A. R.; see DRAGANI, R.; 1943-1958
LARSON, VINCENT E.; see GOLAZ, JEAN-CHRISTOPHE: 3540. MAGNusbotTir,G N; see WALKER, C
3571 Mak, MAnkIN; Wave-Packet Resonance
LASHER- TRAPP, SONIA G.: see KNIGHT, CHARLES LocalizedBarotropic Jet, 823-836
AU, ALEXIS K. H.; see Cuow, K. C.; 2930-2950 MAncinl,E .; see Prrart, G.;
LAU, K.-M.; see Li, XIAOFAN; 1712—1722 MANNING, KEVIN; see RASM
AVAL, JEAN-PHILIPPE; See DUBRULLE, BERENGERE; 861-876; 877-891 MANZINI,E LISA; see CHARR :
.AWRENCE, DAvip M.; WEBSTER, PETER J.: The Boreal Summer MARCHAND, ROGER T.; see DonG, X1Q
Intraseasonal Oscillation: Relationship between Northward and M I M.; see Cuu, Pt
Eastward Movement of Convection, 1593-1606 Mar 1, A.; see DraGani, R.; 1943
LEGRAS, BERNARD; See JOSEPH, I ) Mat 1K, A.; see B . H. W.; 2093
LEI, YING MAN; see CHAN, JOHNN’ Ma I
LEVIN, ZEV; see REMER, Lori Mars
LEWELLEN, D. C.; LEWEI N, W. S.; Entrainment and Decouplins Mar
Relations for Cloudy Boundary Layers, 2966-2986 Ma
-EWELLEN, W. S.; see Lewt D. C.: 2966-2986 Ma
WIS. SHARON: see HEYMSFIELD. ANDRI M
A, J.: Boer, G. J.: Corrigendum, 2883 M
A, J.; Min, QILONG; *Parameterization of the Optical Propertie G
Sulfate Aerosols in the Inft (
1, J.; Accounting fer Unresolved Clouds in a 1D Infrared Radiative
Transfer Model. Part !: Solution for Radiative Transfer, Ir
Cloud Scattering and Overlap
. J.; BARKER, H. W.; Accounting
Infrared Radiative Transfer
Cloud Water Path, 3321
1, XIAOFAN; Sut, C.-H.: Lau,
Convection and Its Environmen
Cloud Resolving Simulation
1, Z.; see BARKI H. W
SK
Edged and Smoothe
3353-3361
nN,¢ -LONG; see
N, CHING-LONG; G
Inhomogenous Atmosph
Conditions, 2479-244
IN, JOHNNY WEI-BING: N
Convective Parameteriz
N, RueI-Fonc; S D
SASSEN, KENNETH: JENS GCM Simulations of the Aerosol Ind
Cirrus Parcel Model Comy Aerosol Bu
Components to Simul
u, C. L.; see ZHANG, J
. QUANHUA: WENG, F
Stream Radiative Transfer
JOURNAL OF THE ATMOSPHERIC SCIENCES VOLUME 59
MINNIS, PATRICK: See DONG, XIQUAN; 3265-3284 Petry, GRANT W.; Area-Average Solar Radiative Transfer in Three-
MISHCHENKO, MICHAEL: see PENNER, JoYCE E.; 441-460 Dimensionally Inhomogeneous Clouds: The Independently
MISHCHENKO, MICHAEL I.; see GEOGDZHAYEV, IGoR V.; 262—278 Scattering Cloudlet Model, 2910-2929
MitcuecL, D. L.; see Platt, C. M. R.; 3145-3162 PIERREHUMBERT, RAYMOND T.; see Hu, YONGYUN; 2830-2845
MircuHe, Davip L.; Effective Diameter in Radiation Transfer: General PiETRAS, CHRISTOPHE; See SMIRNOV, ALEXANDER; 501—523; 620-634
Definition, Applications, and Limitations, 2330-2346 Pirart, G.; MANCINI, E.; Rizi, V.; SHINDELL, D. T.; Impact of Future
MryaAwakI, KuUNIKO; see TAKAHASHI, TsuTOMU; 1018-1025 Climate and Emission Changes on Stratospheric Aerosols and
Moeng, A. F.; see VAN DE WiEL, B. J. H.; 942-958; 2567-258| Ozone, 414-440
Mo .inari, JOHN; see DICKINSON, MICHAEL; 2183-2196 PiTARI, GIOVANNI; See PENNER, JOYCE E.; 441-460
Moncricrr, MITCHELL W.; see YANO, JuN-IcuHt; 1566-1577; 1578-1592 Piatt, C. M.R.; Youna, S. A.; Austin, R. T.; PATTERSON, G. R.;
MontGomery, MICHAE! f Ke see SCHECTER, Davin A.; 150-168 Mircue, D. L.; Miter, S. D.; LIRAD Observations of Tropical
MontGoMery, MICHAEL T.; see CRAM, THomas A.; 2113-2127 Cirrus Clouds in MCTEX. Part I: Optical Properties and Detection
MonTGOMERY, MICHAE! Ts see TERWEY, WESLEY D.; 2421-2427 of Small Particles in Cold Cirrus, 3145-3162
MonTGOMERY, MICHAEI T: see NoLan, Davin S.; 2989-3020 Piatt, C. M. R.; Austin, R. T.; YouNG, S. A.; HEYMSFIELD, A. J.;
Montl, P.; FERNANDO, H. J. S.; PRINCEVAC, M.; CHAN, W. C.; KOWALEWSKI, LIRAD Observations of Tropical Cirrus Clouds in MCTEX. Part II:
T. A.; ParDyJAK, E. R.; Observations of Flow and Turbulence in the Optical Properties and Base Cooling in Dissipating Storm Anvil
Nocturnal Boundary Layer over a Slope, 2513-2534 Clouds, 3163-3177
Morcan, MIcHaet C.; CHEN, CHIH-CHIEH; Diagnosis of Optimal PoELLOT, MICHAEL; see DONG, XIQUAN; 3265-3284
Perturbation Evolution in the Eady Model, 169-185 PoELLOT, MICHAEL R.; see HEYMSFIELD, ANDREW J.; 3-29
Moraan, Micuaet C.; see Kim, HyuN Mee; 3099-3116 PoLONSKY, IGor N.; Box, Micuaet A.; Perturbation Technique to
Mort, Atsusut; Nuno, Hirosui; Time Evolution of Nonlinear Retrieve Scattering Medium Stratification, 758-768
Horizontal Convection: Its Flow Regimes and Self- PoLvani, L. M.; Sopet, A. H.; The Hadley Circulation and the Weak
SimilarSolutions, 1841-1856 Temperature Gradient Approximation, 1744-1752
MuxkouGawa, Hitosui; see INatsu, Masaru; 1898-1915 PRINCEVAC, M.; see Monti, P.; 2513-2534
Murakli, Davin J.; see HAkim, Grecory J.; 2405-2420 Puso., T.; Nortu, G. R.; Runaway Greenhouse Effect in a Semigray
Mynenl, R. B.; see KNYAZIKHIN, Y.; 3572-3585 Radiative—Convective Model, 2801-2810
NAKAJIMA, KENSUKE; see ISHIWATARI, MASAKI; 3223-3238 QuINN, P. K.; see RussELL, P. B.; 609-619
NAKAJIMA, TERUYUKI; See PENNER, Joyce E.; 441-460 RADKE, LAWRENCE F.; see GARRETT, TIMOTHY J.; 769-778; 779-783
NAKAJIMA, TERUYUKI; see CHIN, MIAN; 461-483 RAMIREZ, S. A.; see RUSSELL, P. B.; 609-619
NeELIN, J. DAvip; see Lin, JOHNNY WeI* BING; 959-975 RANDALL, Davip A.; see KHAIROUTDINOV, MARAT F.; 2550-2566
NEELIN, J. Davip; see Su, Hur; 2694-2712 RANDALL, Davip A.; see FowLer, Laura D.; 3074-3098
Neacers, R. A. J.; StEBESMA, A. P.; JONKER, H. J. J.; A Multiparcel RANDEL, WILLIAM J.; GARCIA, ROLANDO R.; Wu, Fet; Time-Dependent
Model for Shallow Cumulus Convection, 1655-1668 Upwelling in the Tropical Lower Stratosphere Estimated from the
Nuno, Hirosui; see Mori, Atsusut; 1841-1856 Zonal-Mean Momentum Budget, 2141-2152
Notan, Davin S.; MONTGOMERY, Micuacet T.; Nonhydrostatic, Three Rao, V. BRAHMANANDA; DO Carmo, A. M. C.; FRANCHITO, SERGIO H.;
Dimensional Perturbations to Balanced, Hurricane-like Vortices. Seasonal Variations in the Southern Hemisphere Storm Tracks and
Part I: Linearized Formulation, Stability, and Evolution, 2989-3020 Associated Wave Propagation, 1029-1040
Noone, K. J.; see RUSSELL, P. B.; 609-619 Rapp, ANiTA D.; see DONG, XIQUAN; 3265-3284
North, G. R.; see Pujot, T.; 2801-2810 Rascu, Pup J.; see BERGMAN, JOHN W.; 2165-2182
Norton, WARWICK A.; see Forp, RuPERT; 2878-2882 RASMUSSEN, Roy M.; Gerespi, IStvVAN; THOMPSON, GREG; MANNING,
Ocus, Harry T., Il; see BEARD, KENNETH V.; 233-243 KEVIN; KARpLUuS, ELI; Freezing Drizzle Formation in Stably Stratified
OGrREN, JOHN A.; see DELENE, Davip J.; 1135-1150 Layer Clouds: The Role of Radiative Cooling of Cloud Droplets,
O’ NEILL, Norm T.; see SMIRNOV, ALEXANDER; Cloud Condensation Nuclei, and Ice Initiation, 837-860
OstTrOM, E.: see RussELL, P. B.; 609-619 RAYMOND, Davin J.; see FucHs, ELIKA; 1669-1679
Otte, MartIN J.; see KIMMEL, SHAR! J.; 1124-1134 Reasor, Pau D.; see SCHECTER, DAvip A.; 150-168
PANCHENKO, MIKHAIL V.; TERPUGOVA, SVETLANA A.:; Reconstruction of REDAELLI, G.; see DRAGANI, R.; 1943-1958
the Scattering Coefficient in the Lower Troposphere Using Ground REDELSPERGER, J.-L.; see Lac, C.; 1293-1316
Based Measurements, 581—589 REDELSPERGER, J.-L.; PARsoNs, D. B.; GuicHarp, F.; Recovery Processes
ParDYJAK, E. R.; see Monrti, P.; 2513-2534 and Factors Limiting Cloud-Top Height following the Arrival of a
PARKER, DouGLas J.: BURTON, RALPH R.: The Two-Dimensional Dry Intrusion Observed during TOGA COARE, 2438-2457
Response of a Tropical Jet to Propagating Lines of Convection, REDEMANN, J.; see RuSssELL, P. B.; 609-619
1263-1273 RemeRr, L.; see RUSSELL, P. B.; 609-619
Parsons, D. B.:; see REDELSPERGER, J.-L.; 2438-2457 Remer, L. A.; see KAUFMAN, Y. J.; 635-646
PATTERSON, G. R.; see Piatt, C. M. R.; 3145-3162 ReEMER, LORRAINE A.; KAUFMAN, YORAM J.; Levin, ZEV; GHAN, STEVEN:
PauLuts, OLIviER; HELD, Isaac M.; Entropy Budget of an Atmosphere Model Assessment of the Ability of MODIS to Measure Top-of-
in Radiative—Convective Equilibrium. Part I: Maximum Work and Atmosphere Direct Radiative Forcing from Smoke Aerosols, 657
Frictional Dissipation, 125-139; Part Il: Latent Heat Transport and 667
Moist Processes, 140-149 RICCHIAZZ1, PAUL; see DUFRESNE, JEAN-Louts; 1959-1966
PENNER, JOYCE E.; ZHANG, SOPHIA Y.; CHIN, MIAN; CHUANG, CATHERINI Ripout, J. A.; see WALISER, D. E.; 3436-3456
C.; FEICHTER, JOHANN; FENG, Y AN; GEOGDZHAYEV, IGOR V.; GINOUX, Ripout, JAMeEs A.; Sensitivity of Tropical Pacific Convection to Dry
PauL; HERZoG, MICHAEL; HiGuRASHI, AKIKO; Kocu, Dorotuy; LAND, Layers at Mid to Upper Levels: Simulation and Parameterization
CHRISTINE; LOHMANN, ULRIKE; MISHCHENKO, MICHAEL: NAKAJIMA, Tests, 3362-3381
TERUYUKI; Prrari, GIOVANNI; SODEN, BRIAN: TEGEN, INA; STOWE, Rizi, V.; see Pirari, G.; 414-440
LAWRENCE; A Comparison of Model- and Satellite-Derived Aerosol Rocua, A.; see CASTANHEIRA, J. M.; 1490-1501
Optical Depth and Reflectivity, 441-460 Ronpa, R. J.; see VAN DE WIEL, B. J. H.; 942-958; 25
Roop, M. J.; see RusseL, P. B.; 609-619
DECEMBER 2002 INDEX
Rossow, WILLIAM B.; see Aires, Fiire; 111-1 SMIRNOV, ALEXANDER; see DuBovik, OLEG; 590-608
Rossow, WILLIAM B.; see GEOGDZHAYEV, IGOR SMIRNOV, ALEXANDER; HOLBEN, Brent N.; DuBovik, OLEG; O’ NEILL,
Rossow, WILLIAM B.; see HAN, QINGYUAN; 726 Norm T.; Eck, THOMAS F.; WESTPHAL, DouGLas L.; Gorocu, ANI
ROTUNNO, RICHARD; see SKAMAROCK, WILLIAM C.; 2270-2278 K.; PlETRAS, CHRISTOPHE; SLUTSKER, ILyA; Atmospheric Aerosol
Rupakov, V.; see DRAGAN, R.; 1943-1958 Optical Properties in the Persian Gulf, 620-634
Russe.L, P. B.; REDEMANN, J.: SCHMID, B.; BERGSTROM, R. W.; SMITH, ROGER K.; see ZHU, HONGYAN; 1825-1840
LivinGsTon,J . M.; McIntosn, D. M.; Ramirez, S. A.; HARTLEY, S.; Situ, RONALD B.: Skusis, STEVEN; DoyLe, JAMES D.; BROAD, ADRIAN S.:
Hoss, P. V.; Quinn, P. K.; Carrico, C. M.; Roop, M. J.; Ostrom, E.; KIEMLE, CHRISTOPH; VOLKERT, HANS: Mountain Waves over Mont
Noone, K. J.; VON HOYNINGEN-HUENE, W.; REMER, L.; Comparison of Blanc: Influence of a Stagnant Boundary Layer, 2073-2092
Aerosol Single Scattering Albedos Derived by Diverse Techniques Situ, WILLIAM L., Jr.; see DONG, XIQUAN; 3265-3284
in Two North Atlantic Experiments, 609-619 SNYDER, Curis; see HAKIM, Grecory J.; 2405-2420
RUSSELL, PHILIP B.; see BERGSTROM, ROBERT W.; 567-577 SoBe, A. H.; see PoLvaAni, L. M.; 1744-1752
SAKERIN, SERGEY M.; KaBanov, Dmitry M.; Spatial Inhomogeneities SODEN, BRIAN; see PENNER, Joyce E.; 441-460
and the Spectral Behavior of Atmospheric Aerosol Optical Depth SODERBERG, STEFAN; TJERNSTROM, MICHAEL; *Diurnal Cycle of
over the Atlantic Ocean, 484—500 Supercritical Along-Coast Flows, 2615-2624
SALBY, Murry L.; see CALLAGHAN, PATRICK F.; 976-991 SOLMAN, SILVINA A.; MENENDEZ, CLAUDIO G.; ENSO-Related Variability
SAPPER, JOHN; see ZHAO, TOM X.-P.; 294-312 of the Southern Hemispkere Winter Storm Track over the Eastern
SASSEN, KENNETH; See WANG, ZHIEN; 2291-2302 Pacific—Atlantic Sector, 2128-2140
SASSEN, KENNETH: see Lin, RuEI-FoNG; 2 305-2329 SPALART, PHILIPPE R.; see MAYor, SHANE D.; 2385—2395
SATO, Kaoru; DUNKERTON, Timotuy J.; Layered Structure Associated STAMMES, Piet; see KNAP, WouTER H.: 83-96
with Low Potential Vorticity near the Tropopause Seen in High- Starr, Davip O'C.: see Lin, RuEI-FoNG; 2305—232
Resolution Radiosondes over Japan, 2782-2800 STEFANUTTI,L - see DRAGANI, R.: 1943 58
SAUJANI, SIMAL; SHEPHERD, THEODORE G.; *Comments on “Balance and STEPHENS, GRAEME I ; see HEIDINGER, ANDREW K.:
the Slow Quasimanifold: Some Explicit Results,” 2874-2877 STEVENS, Davib E.; ACKERMAN, ANDREW S.; BRETH
AIFE, A. A.; BuTcHart, N.; WARNER, C. D.; SWINBANK, R.; Impact of a S.; Effects of Domain Size and Numerical Resolution on the
Spectral Gravity Wave Parameterization on the Stratosphere in the Simulation of Shallow Cumulus Convection, 3285—3301
Met Office Unified Model, 1473-1489 TITH, JEFFREY L.: see HEYMSFIELD, ANDREW J.; 3457-349|
ARCHILLI, GIANFRANCO; see GOoRGUCCI, EUGENIO; 2373-2384 TOWE, l ARRY; see kc NATE AI EXANDER 3] 3 334
HECTER, Davip A.; MONTGOMERY, MICHAEL T.; REASOR, PauL D.; A rowe, LARRY L.: see KNAPP, KENNETH R.; 279-293
Theory for the Vertical Alignment of a Quasigeostrophic Vortex STOWE, Larry L.; see ZHAO, Tom X.-P.; 294—312
150-168 OWE, LAWRENCE; see PENNER, Joyce E.; 441-460
HMID, B.; see RUSSELL, P. B.; 609-619 STRAUB, KATHERINE H.: Kitapis, GeorGe N.; Observations of a
HMITZ, GERHARD; See BECKER, ErIcH; 54-68 Convectively Coupled Kelvin Wave in the Eastern Pacific ITCZ
SCHWARTZ, S. E.; see HARSHVARDHAN; 714—725 30-53
Scott, R. K.; Haynes, P. H.; The Seasonal Cycle of Planetary Waves in . Hur; Neewin, J. Davin; Teleconnection Mechanisms for Tropical
the Winter Stratosphere, 803-822 Pacific Descent Anomalies during El Nino, 2694—27
Scott, R. K.; Cammas, J.-P.; Wave Breaking and Mixing at the 2, MAX J.; see BACMEISTER, Jt l.: 3051-3073
Subtropical Tropopause, 2347-2361 H.: see Li, XIAOFAN; 1712-1722
Scorr, R. K.; Wave-Driven Mean Tropical Upwelling in the Lower H.: see Jounson, D. E.; 3492-3518
Stratosphere, 2745-2759 IVAN, PETER P.; see DuBR . BERENGERE; 861-876
SERRA, YOLANDE L.; Houze, Rosert A., Jr.; Observations of Variability \, PHitip; Noise-Induced Transitions in a Barotropic
on Synoptic Timescales in the East Pacific ITCZ, 1723-1743 vannel, 97-110
SHapiro, ALAN; KANAK, KATHARINE M.; Vortex Formation in Ellipsoidal VK, R.: see Se \. A.: 1473-1489
Thermal Bubbles, 2253—2269 , W.; see Bat ,H.W .; 2093-2111
SHEN, WEIXING; GINiS, ISAAC; TULEYA, RoBERT E.; A Numerical \GUCHI, MASAKAZU:; YODEN, SHIGE ); Internal Interannual Variability
Investigation of Land Surface Water on Landfalling Hurricanes of the Troposphere—Stratosphere Coupled System in a Simple
789-802 Global Circulation Model. Part I: Parameter Sweep Experiment
SHEN, Z. B.: see ZHANG, J.: 1515-1532 3021-3036: Part Il: Millennium Integrations, 3037—3050
SHEPHERD, T. G.; see WIROSOETISNO, D.; 3382 \HASHI Ts TOM - My Ww \KI, K Reexamination of Riming
SHEPHERD, THEODORE G.; see SAUJANI, SIMAI Electrification in a Wind Tunnel, 1018—1025
SHINDELL, D. T.: see Prtari, G.; 414-440 \KEHIRO, SHIN CHI; see ISHIW \RI, MASAK 3223 3238
SHIRER, HAMPTON N.:; see Mason, RICHARD A.; 133 \KA, H. | ToKINAGA, Hiroki; Baroclinic Instability in High
SigBESMA, A. P.; see Neccers, R. A. J.; 1655-1668 Latitudes Induced by Polar Vortex: A Connection to the Arctic
Simpson, J.; see JOHNSON, D. E.; 3492-3518 Oscillation, 69-82
Sinyuk, A.; see Torres, O.; 398-413 \NAKA, HirosuHi; see IWASA, YOSHIHARU:
SKAMAROCK, WILLIAM C.; ROTUNNO, RICHARD; KLEMP, JOSEPH B TANRE, D.; see KAUFMAN, Y. J.: 635-646
Catalina Eddies and Coastally Trapped Disturbances, 2270-2278 TanrE, Dipier: see DuBovik, OLEG; 590-608
SkuBis, STEVEN; see SMITH, RONALD B.; 2073-2092 Tao, W.-K.: see Jonnson, D. E.; 3492-3518
SLUTSKER, ILYA: see SMIRNOV, ALEXANDER; 501-523; 620-634 TEGEN, INA; see PENNER, Joyce E.; 441-460
SLUTSKER, ILya; see DuBovik, OLEG; 590-608 TemAm, R. M.:; see Wirosoetisno, D.; 3382-3398
SMEDMAN, ANN-Sort; see JOHANSSON, CECILIA; 2608-2614 (OVA, SVETLANA A.: see PANCHENKO, MIKHAIL V.; 581-589
SMIRNOV, ALEXANDER; see ZH AO, Tom X P.; 294 312 RWEY, WesLeY D.: MonTGOMERY, MicHAEL T.; Wavenumber-2 and
SMIRNOV, ALEXANDER: HOLBEN, BRENT N.; KAUFMAN, YORAM J.; Wavenumber-m Vortex Rossby Wave Instabilities in a Generalized
Dusovik, OLEG; Eck, THOMASF .; SLUTSKER, ILYA; PIETRA Three-Region Model, 2421-2427
CHRISTOPHE; HALTHORE, RANGASAYI N.; Optical Properties of THOMPSON, GREG; see RASMUSSEN, Roy M.; 837—860
Atmospheric Aerosol in Maritime Environments, 501-523 TyERNSTROM, MICHAEL; See SODERBERG, STEFAN; 2615-2624
JOURNAL OF THE ATMOSPHERIC SCIENCES VOLUME 59
ToKINAGA, Hiroki; see TANAKA, H. L.; 69-82 Wanc, YuQING; Vortex Rossby Waves in a Numerically Simulated
Tompkins, ApriAN M.; A Prognostic Parameterization for the Subgrid- Tropical Cyclone. Part I: Overall Structure, Potential Vorticity, and
Scale Variability of Water Vapor and Clouds in Large-Scale Models Kinetic Energy Budgets, 1213-1238; Part II: The Role in Tropical
and Its Use to Diagnose Cloud Cover, 1917-1942 Cyclone Structure and Intensity Changes, 1239-1262
TONG, CHRISTOPHER; See GLUHOVSKY, ALEXANDER; 1383-1393 WANG, ZHIEN; SASSEN, KENNETH; Cirrus Cloud Microphysical Property
Torres, O.; BHARTIA, P. K.; HERMAN, J. R.; Sinyuk, A.; GInoux, PAUL; Retrieval Using Lidar and Radar Measurements. Part II: Midlatitude
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TorRRES, OMAR; see CHIN, MIAN; 461-483 Simulated Zonal Flow Vacillation, 1274-1288
Torn, Z.; see VANNITSEM, S.; 2594—2604 WEAVER, CLARK J.; Ginoux, PauL; Hsu, N. Curistina; CHou, MING-Dau;
Travis, LARRY D.; see CHOWDHARY, JACEK; 383-397 JOINER, JOANNA; Radiative Forcing of Saharan Dust: GOCART
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TRISHCHENKO, A.; see BARKER, H. W.; 2093-2111 WELCH, RONALD; see HAN, QINGYUAN; 726-735
TsELIOUDIS, GEORGE; see MENON, SuRABI; 692-713 WELLS, ROBERT; see Mason, RICHARD A.; 1337-1355
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WALSH, CHRISTOPHER D.; see COAKLEY, JAMES A., JR.; 668-680 Yellow Sea in the Spring and Summer of 1995 and 1996, 1515-1532
WaAnc, Bin: see KEMBALL-Cook, SuSAN: 1433-1453 ZHANG, JIANGLONG; See CHRISTOPHER, SUNDAR A.; 681-691
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ZHANG, MINGHUA; see GELLER, MARVIN A.; 1076-1085
ZHANG, SOPHIA Y.; see PENNER, Joyce E.; 441—460
DECEMBER 2002 INDEX
ZHANG, Y.; see ZHANG, J.; 1515-1532 ZuHou, X.; see HoLton, J. R.; 2019-2023
ZHANG, YING; Li, ZHANQING; MACKE, ANDREAS; Retrieval of Surface ZHOU, XUELONG; see GELLER, MARVIN A.; 1076-1085
Solar Radiation Budget under Ice Cloud Sky: Uncertainty Analysis ZuuU, HONGYAN; Smit, RoGeR K.; The Importance of 7
and Parameterization, 2951-2965 Processes in a Minimal Three-Dimensior
ZHAO, Tom X.-P.; Stowe, LARRY L.; SMIRNOV, ALEXANDER; CRrosBy, Model, 1825-1840
Davip; SAPPER, JOHN; McCLain, CHARLES R.; Development of a Zuu, PING; ALBRECHT, Bruce A.; A Theoretical and
Global Validation Package for Satellite Oceanic Aerosol Optical Analysis on the Formation of Fair-Weather Cun
Thickness Retrieval Based on AERONET Observations and Its
Application to NOAA/NESDIS Operational Aerosol Retrievals,
294-312
Section B. Subject Index
3D obstacle, interaction, numerical experiments, barotropic flow, 3239 radiative impact on solar flux at the surt
Absorption photometer, aerosol single scattering albedo in two North measurements, 635
Atlantic experiments, 609 reconstruction of the scat
Advection troposphere, 581
advection—diffusion problem for stratospheric flow: PDF of
gradients, 2830 radic
effectiveness of variational objective analysis for producing retrieval over the ocean from multispe
realistic diagnoses of atmospheric field data, 3436
Aerosols single scattL ic ring albedo in two North
AERONET aerosol optical depth measurements are analyzed spatial variability of atmospheri
(Persian Gulf area), 620 behavior of aerosol opti
algorithm for retrieval of aerosol properties using a shadowband variability of optical properties
radiometer, 524 variability of optiticc al properties
assessment of MODIS ability to measure aerosol radiative forcing 590
657
atmospheric longwave scattering effects of mineral aerosols, 1959
calculating direct aerosol radiative forcing over global oceans, 748 rosol albed
changes of cloud LWP associated with changes of cloud droplet
number, 726
comparison of model- and satellite-derived aerosol optical dept
Dave and 6S radiative transfer models for AVHRR aerosol
retrievals, 313
daytime variation of radiative forcing of biomass bur
68|
degree to which clouds altered by increased antht
aerosols, 668
effect of increasing the LW emissivity of clouds—warming earth
769
effects on ice clouds via contac
GCM simulations of aerosol e
parameterizations, 692
global retrievals of aerosol properties over the ocean using NOAA-8
data, 262
high Aitken nucleus concentrations above cloud tops in the Arctic
y
impact of climate and emission changes on stratosphere aerosols
and ozone, 414
influence on cloud microphysics from satellites and models
long-term aerosol optical depths from TOMS observations, 398
model simulations of Sahara dust forcing compared to ERBE data
36
optical properties of aerosols in a marine environment using
AERONET data, 501
optical thickness from GOCART model, satellites, and photometer erosol radiative forcing, AVHRR-based retri«
461 heavy smoke aerosol plumes, 250
perturbation technique to retrieve scattering medium stratification erosol ret ivil i f model
758 1erosol optica
quality and consistency of individual channel AVHRR aerosol Aerosol sampling, major chemical component
retrievals, 33: China during 1995 and 1996, 1515
JOURNAL OF THE ATM OSPHERIC SCIENCES VoLuME 5
Aerosol transport Backscatter coefficient, optical properties of anvil cloud-base cooling
aerosol optical thickness from GOCART model, satellites, and using LIRAD observations, 3163
photometer, 461 Balanced flow, multiscale bounded derivative initialization for an
assessment of MODIS ability to measure aerosol radiative forcing, arbitrary domain, 1680
657 Ballistic stirring, turbulence closure for the convective boundary layer
major chemical components of aerosols in northern China during with coherent structure, 2729
1995 and 1996, 1515 Balloon temperature measurements, turbulence and associated
African easterly jet, two-dimensional response of a tropical jet to temperature fluctuations near tropopause, 2885
propagating convection lines, 1263 Baroclinic instability, in high latitudes induced by the Polar vortex,
Aircraft cloud probes, observed microphysical structure of midlevel Arctic Oscillation, 69
mixed-phase clouds, 1779 Barotropic flow
Aircraft data, comparison, stratus cloud properties, GOES, surface, local energy generation in barotropic flow, 2153
ARM Cloud IOP 3/2000, 3265 numerical experiments, 3D obstacle interaction, 3239
Aircraft measurements, reconstruction of the scattering coefficient Barotropic growth, barotropic mode in dynamics of low-frequency
profile in the lower troposphere, 58] atmospheric variability, 2897
Air-sea interaction, simulation of the intraseasonal oscillation, 1433 Barotropic instability, local energy generation in barotropic flow, 2153
Air-surface interaction, intermittent turbulence in the stable boundary Barotropic jet instability, wave-packet resonance, 823
layer over the land surface, 2567 Basic-state shear, two-dimensional response of a tropical jet to
Aitken nuclei, high Aitken nucleus concentrations above cloud tops in propagating convection lines, 1263
the Arctic, 779 Beta-plane model, noise-induced transitions in a barotropic beta-plane
Along-coast flows, diurnal cycle and transient behavior of channel, 97
supercritical along-coast flow, 2615 Biomass burning
Angstrom parameter, AERONET aerosol optical depth measurements AVHRR-based retrieval of optical depth for heavy smoke aerosol
are analyzed (Persian Gulf area), 620 plumes, 250
Annular-mode events, structure/composition of annular modes in daytime variation of radiative forcing of biomass burning
atmospheric GCM (aquaplanet), 3399 aerosols, 681
Antarctic boundary layer, momentum budget of the East Antarctic Black carbon absorption, wavelength dependence of absorption
atmospheric boundary layer, 3117 coefficient measurements of aerosols, 567
Anticyclone merger, model study of tropopause cyclone— anticyclone Boreal summer, intraseasonal oscillation: northward versus eastward
size asymmetry, 2405 movement of convection, 1593
Aquaplanet, structure/composition of annular modes in atmospheric Boundary layer
GCM (aquaplanet), 3399 inhomogeneous, large eddy simulation of neutral inhomogeneous
Arctic climate, comparison of simulations by uncoupled and coupled atmospheric boundary layer, 2479
global models, 1983 internal, convective, mesoscale, large eddy simulation, perturbation
Arctic Oscillation, baroclinic instability in high latitudes induced by recycling method, 2385
the Polar vortex, 69 land, intermittent turbulence and oscillations, 942
Arctic ozone, three-dimensional coupled chemistry—climatesimulation neutral, large eddy simulation of neutral inhomogeneous
of stratosphere, 218 atmospheric boundary layer, 2479
Arctic stratus, high Aitken nucleus concentrations above cloud tops in parameterization of dry convective boundary layer based on mass
the Arctic, 779 flux, 1105
Assumed joint PDF method reconstruction of the scattering coefficient profile in the lower
method/model description of a PDF-based model for boundary troposphere, 581
layer clouds, 3540 stable, intermittent turbulence and oscillations, 942
model results of a PDF-based model for boundary layer clouds, 3552 Boundary layer cloud models
Atmospheric boundary layer, turbulence interaction with mesoscale method/model description of a PDF-based model for boundarylayer
variations generating scalar fluctuations, 1124 clouds, 3540
Atmospheric chemistry, impact of climate and emission changes on results of a PDF-based model for boundary layer clouds, 3552
stratosphere aerosols and ozone, 414 Boundary layer flow, wind stress simulations in the equatorial
Atmospheric circulation, calculating direct aerosol radiative forcing momentum budget of an AGCM, 3051
over global oceans, 748 Boundary layer separation, dynamics of mountain-wave-induced
Atmospheric dynamics rotors, 186
free gravity waves and balanced dynamics, 3382 Boundary temperature anomalies, singular vector evolution using
local energy generation in barotropic flow, 215 3 potential vorticity and Eliassen—Palm diagnostics, 3309
Atmospheric electricity, lightning scaling relations, 1086 3oundary thermal anomalies, structure and evolution of Eady model
Atmospheric field programs, effectiveness of variational objective singular vector streamfunction perturbations, 169
analysis for producing realistic diagnoses of atmospheric field Bounded derivative theory, multiscale bounded derivative
data, 3436 initialization for an arbitrary domain, 1680
Atmospheric models, probabilistic stability of an atmospheric model to Bragg scattering, early radar echoes in Florida cum us clouds using
amplitude perturbations, 2860 polarization radar, 1454
Atmospheric modeling, investigating water vapor transport in a Brewer—Dobson circulation, diabatic 3D structure of the middle
radiative—-convective equilibrium, 2197 atmosphere and circulation forcing, 976
Atmospheric surface layer, vertical transports by plumes within the Buoyancy flux, relationship between flux at cloud top and
convective marine surface layer, 1337 entrainment, 3353
AVHRR, retrieving aerosol information over many land cover Catalina eddies, observations and simulations of Catalina eddies and
classes, 279 coastal disturbances, 2270
