15th Symposium on Boundary Layers and Turbulence: 15 - 19 July, 2002 Wageningen, the Netherlands
Gespeichert in:
| Körperschaft: | |
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| Format: | Tagungsbericht Buch |
| Sprache: | English |
| Veröffentlicht: |
Boston, Mass.
2002
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| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XXIX, 691 S. graph. Darst. |
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| 245 | 1 | 0 | |a 15th Symposium on Boundary Layers and Turbulence |b 15 - 19 July, 2002 Wageningen, the Netherlands |c sponsored by American Meteorological Society |
| 246 | 1 | 3 | |a Fifteenth Symposium on Boundary Layers and Turbulence |
| 264 | 1 | |a Boston, Mass. |c 2002 | |
| 300 | |a XXIX, 691 S. |b graph. Darst. | ||
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| 650 | 4 | |a Boundary layer (Meteorology) |v Congresses | |
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| adam_text | IMAGE 1
15TH SYMPOSIUM ON
BOUNDARY LAYERS AND TURBULENCE
15-19 JULY, 2002
UNLVERSITATSBIBLIOTHEK HANNOVER TECHNISCHE INF0RMATI0NSBS3U0THEK
WAGENINGEN, THE NETHERLANDS
SPONSORED BY
AMERICAN METEOROLOGICAL SOCIETY
COSPONSORED BY
WAGENINGEN UNIVERSITY S DEPARTMENT OF METEOROLOGY AND AIR QUALITY
FRONT COVER:THE FRONT COVER SHOWS A MAP OF THE NETHERLANDS. THE
DIFFERENT INSERTS SHOW TYPICAL LANDSCAPES, AND LOCATIONS WHERE
OBSERVATIONS ARE (AND HAVE BEEN) TAKEN TO GAIN MORE UNDERSTANDING OF THE
ATMOSPHERIC BOUNDARY LAYER AND THE EXCHANGE PROCESSES OF ENERGY, WATER
VAPOR, CARBON-DIOXIDE, MOMENTUM, AIR POLLUTANTS, ET CETERA, BETWEEN THE
ATMOSPHERE AND THE LAND SURFACE OVER DIFFERENT TYPES OF TERRAIN. IN
ADDITION TO THE CONTINUOUS FIELD OBSERVATIONS AND THE SPECIAL
EXPERIMENTS, MANY SCIENTISTS AND RESEARCH GROUPS IN THE NETHERLANDS DEAL
WITH THE SIMULATION, MODELING, AND PARAMETERIZATION OF THE ATMOSPHERIC
BOUNDARY LAYER. MUCH OF THE ONGOING WORK IS PRESENTED AT THIS
CONFERENCE.
STARTING WITH WAGENINGEN, THE INSERT AT THE RIGHT HAND SHOWS THE HAARWEG
WEATHER STATION, WHICH IS OPERATED BY THE METEOROLOGY AND AIR QUALITY
GROUP AT WAGENINGEN UNIVERSITY FOR EDUCATIONAL AND RESEARCH PURPOSES
(SEE HTTP//: WWW.MET.WAGENINGEN-UR.NL). THE OTHER INSERT GIVES A
PHOTOGRAPH (COURTESY IDA BLOK) OF THE LANDSCAPE AROUND WAGENINGEN IN THE
DIRECTION OF THE CITY OF RHENEN (KNOWN FOR ITS DUTCH MOUNTAINS ).
THE NEXT TWO INSERTS IN THE CLOCKWISE DIRECTION, DEAL WITH THE 213 METER
OPERATIONAL TOWER AT CABAUW (COURTESY GERARD VAN DER VLIET). THIS TOWER
AND ITS SURROUNDING FACILITIES IS OPERATED BY THE ROYAL NETHERLANDS
METEOROLOGICAL INSTITUTE (KNMI; SEE HTTP//: WWW.KNML.NL). THE UPPER
INSERT AT CABAUW SHOWS A PHOTO OF A LARGE-APERTURE-SCINTILLOMETER OVER
THE SURROUNDING LANDSCAPE. THIS INSTRUMENT PROVIDES AN ESTIMATE FOR THE
SENSIBLE HEAT FLUX ON A SCALE UP TO 10 KILOMETERS IN HETEROGENEOUS
TERRAIN. THE VALIDITY OF THIS TYPE OF INSTRUMENTWAS FIRST TESTED IN THE
FLAT BUT HETEROGENEOUS TERRAIN OF THE FLEVOPOLDER,(THE SUBSEQUENT INSERT
IN THE CLOCKWISE DIRECTION).
THE NEXT INSERT SHOWS A TOWER OVER ONE OFTHE VELUWE FOREST SITES
( LOOBOS ), AS OPERATED BY THE LAND-ATMOSPHERE INTERACTIONS GROUP AT
ALTERRA SINCE 1995 (NOW PART OF EUROFLUX).
SPONSORSHIP FOR THE COVER IMAGE WAS PROVIDED BY THE METEOROLOGY AND AIR
QUALITY GROUP AT WAGENINGEN UNIVERSITY.
ALL RIGHTS RESERVED, NO PART OF THIS PUBLICATION MAY BE REPRODUCED OR
COPIED IN ANY FORM OR BY ANY MEANS-GRAPHIC, ELECTRONIC, OR MECHANICAL,
INCLUDING PHOTOCOPYING,
TAPING, ORINFORMATION STORAGE AND RETRIEVAL SYSTEMS-WITHOUT THE
PRIORWRITTEN PERMISSION OF THE PUBLISHER. CONTACTAMSFOR PERMISSION
PERTAINING TO THE OVERALL COLLECTION.
AUTHORS RETAIN THEIR INDIVIDUAL RIGHTS AND SHOULD BE CONTACTED DIRECTLY
FOR PERMISSION TO USE THEIR MATERIAL SEPARATELY. THE MANUSCRIPTS
REPRODUCED HEREIN ARE UNREFEREED PAPERS PRESENTED AT THE J5 SYMPOSIUM
ON BOUNDARY LAYERS AND TURBULENCE. THEIR APPEARANCE IN THIS COLLECTION
DOES NOT CONSTITUTE FORMAL PUBLICATION.
UB/TIB HANNOVER 89 123 321 131...
AMERICAN METEOROIOBICAI SOCIETY 45 BEACON STREET, BOSTON, MASSACHOSETFS
USA 02108-3BVAP
IMAGE 2
TABLE OF CONTENTS
15TH SYMPOSIUM ON BOUNDARY LAYERS AND TURBULENCE
PAGE
SESSION 1: OPENING SESSION
SESSION 2: ENERGY BALANCE AND SURFACE FLUX OBSERVATIONAL METHODS AND
STUDIES
1 2.1 THE ENERGY BALANCE EXPERIMENT EBEX-20OO. STEVEN P. ONCLEY, NCAR,
BOULDER, CO; AND T. FOKEN, R. VOGT, C. BERNHOFER, W. KOHSIEK, H. LIU, A.
PITACCO, D. GRANTZ, L. RIBERIO, AND T. WEIDINGER
5 2.2 RENAISSANCE OF SCINTILLOMETRY. HENK A. R. DE BRUIN, METEOROLOGY
AND AIR QUALITY GROUP, WAGENINGEN UNIV., WAGENINGEN, THE NETHERLANDS
8 2.3 THE APPLICABILITY OF THE SCINTILLATION METHOD OVER HETEROGENEOUS
AREAS. WOUTER M. L. MEIJNINGER, METEOROLOGY AND AIR QUALITY GROUP,
WAGENINGEN UNIV., WAGENINGEN, THE NETHERLANDS; AND W. KOHSIEK AND H. A.
R. DE BRUIN
12 2.4 USE OF THE R.E.A TECHNIQUE TO MEASURE SCALAR FLUXES ON
GROUND-BASED AND MOBILE PLATFORM. AURORE BRUT, CNRM, METEO-FRANCE,
TOULOUSE, FRANCE; AND D. LEGAIN, P. DURAND, P. LAVILLE, A. FOTIADI, AND
D. SERGA
16 2.5 SIGNIFICANCE OF AXIS ROTATION FOR EDDY-COVARIANCE MEASUREMENTS.
ARNOLD F. MOENE, METEOROLOGY AND AIR QUALITY GROUP, WAGENINGEN UNIV.,
WAGENINGEN, THE NETHERLANDS; AND 0. K. HARTOGENSIS, B. G. HEUSINKVELD,
W. M. L. MEIJNINGER, AND A. VAN DIJK
20 2.6 INFERRING LEAF EMERGENCE AND ESTIMATING EVAPOTRANSPIRATION FROM
EDDY COVARIANCE MEASUREMENTS AND RUNOFF RECORDS. MATTHEW J. CZIKOWSKY,
UNIV. AT ALBANY, SUNY, ALBANY, NY; AND D. R. FITZJARRALD, R. M.
STAEBLER, AND R. K. SAKAI
24 2.7 OBSERVATIONS AND MODEL RESULTS FOR WATER VAPOR AND CARBON DIOXIDE
FLUXES ABOVE A SPARSELY VEGETATED BOG AREA. ADRIE F. G. JACOBS,
METEOROLOGY AND AIR QUALITY GROUP, WAGENIGEN UNIV., WAGENINGEN, THE
NETHERLANDS; AND R. J. RONDA AND A. A. M. HOLTSLAG
27 2.8 EDDY SAMPLING METHODS, A COMPARISON USING SIMULATION RESULTS.
JOHANNES RUPPERT, UNIV. OF BAYREUTH, BAYREUTH, GERMANY; AND B. WICHURA,
A. DELANY, AND T. FOKEN
SESSION 3: CONVECTIVE BLS
31 3.1 DYNAMICS OF CONVECTIVE ENTRAINMENT IN A HETEROGENEOUSLY
STRATIFIED ATMOSPHERE WITH
WIND SHEAR. ROBERT CONZEMIUS, UNIV. OF OKLAHOMA, NORMAN, OK; AND E.
FEDOROVICH
35 3.2 THE SHEAR CONTRIBUTION TO THE EVOLUTION OF A CONVECTIVE BOUNDARY
LAYER. DAVID PINO, INSTITUTE FOR SPACE STUDIES OF CATALONIA, BARCELONA,
SPAIN; AND P. G. DUYNKERKE AND J. VILA-GUERAU DE ARELLANO
39 3.3 EFFECTS OF INITIAL TEMPERATURE AND VELOCITY PERTURBATIONS ON THE
DEVELOPMENT OF CONVECTION IN THE ATMOSPHERIC BOUNDARY LAYER. EVGENI
FEDOROVICH, UNIV. OF OKLAHOMA, NORMAN, OK; AND R. CONZEMIUS
43 3.4 TURBULENT STRUCTURES IN THE CONVECTIVE BOUNDARY LAYER, SUCH AS
PLUMES AND PUFFS, IN RELATION TO THE THERMAL CHARACTERISTICS OF THE
SURFACE. F. T. M. NIEUWSTADT, DELFT UNIV. OF TECHNOLOGY, DELFT, THE
NETHERLANDS; AND J. C. R. HUNT AND H. S. FERNANDO
45 3.5 BROADENING OF CONVECTIVE CELLS DURING COLD AIR OUTBREAKS: A HIGH
RESOLUTION STUDY USING
A PARALLELIZED LES MODEL. MICHAEL SCHROTER, UNIV. OF HANNOVER, HANNOVER,
GERMANY; AND S. RAASCH
49 3.6 EVALUATION OF RELATIONSHIPS BETWEEN BOUNDARY-LAYER HEIGHT AND
HEAT FLUX. JANUS W.
SCHIPPER, WAGENINGEN UNIV., WAGENINGEN, THE NETHERLANDS; AND W. M.
ANGEVLNE, A, B. WHITE, AND T. MYERS
*
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TABLE QF CONTENTS
15TH SYMPOSIUM ON BOUNDARY LAYERS AND TURBULENCE
PAGE
53 3.7 AIR MASS TRANSFORMATION OVER THE SEA OF JAPAN DURING COLD-AIR
OUTBREAKS REVEALED BY
AIRCRAFT OBSERVATIONS. JUN INOUE, HOKKAIDO UNIV., SAPPORO, JAPAN; AND M.
KAWASHIMA, Y. FUJIYOSHI, AND M. YOSHIZAKI
55 3.8 EDDY-DIFFUSIVITY AND CONVECTIVE BOUNDARY LAYERS: A NEW MIXING
LENGTH FORMULATION. JO3O
TEIXEIRA, UCAR VISITING SCIENTIST, NRL, MONTEREY, CA; AND S. CHEINET
POSTER SESSION PI: CLOUDY AND CONVECTIVE BLS
P1.1 SHIP-BASED EXPLORATORY OBSERVATIONS OF THE SE PACIFIC
STRATOCUMULUS-CAPPED BOUNDARY
LAYER DURING EPIC 2001. CHRISTOPHER S. BRETHERTON, UNIV. OF WASHINGTON,
SEATTLE, WA; AND K. COMSTOCK, S. YUTER, T. UTTAL, AND 0 W. FAIRALL
59 P1.2 SIZE STATISTICS OF CUMULUS CLOUD POPULATIONS IN LARGE-EDDY
SIMULATIONS. ROEL A. J. NEGGERS,
KNMI, DE BLLT, THE NETHERLANDS; AND H. J. J. JONKER AND A. P. SIEBESMA
63 P1.3 STATISTICAL ANALYSIS OF THE CLOUDS DIURNAL EVOLUTION IN THE PBL.
N. KITOVA, INSTITUTE OF
ELECTRONICS, BULGARIAN ACADEMY OF SCIENCES, SOFIA, BULGARIA; AND K.
IVANOVA, M. A. MIKHALEV, AND M. AUSLOOS
66 P1.4 TETHERED-BALLOONE BORNE MEASUREMENTS OF THE FINE-SCALE STRUCTURE
OF BOUNDARY LAYER CLOUDS. HOLGER SIEBERT, INSTITUTE FOR TROPOSPHERIC
RESEARCH, LEIPZIG, GERMANY; AND M. WENDISCH
70 P1.5 THE FORMATION OF VERTICAL VORTICES IN THE CONVECTIVE BOUNDARY
LAYER. KATHARINE M. KANAK, CIMMS/UNIV. OF OKLAHOMA, NORMAN, OK; AND D.
K. LILLY AND J. T. SNOW
74 P1.6 TURBULENCE STRUCTURE OF THE ASTEX FIRST LAGRANGIAN BOUNDARY AND
CLOUD LAYER. MICHAEL TJEMSTRSM, STOCKHOLM UNIV., STOCKHOLM, SWEDEN; AND
A. RUNE
78 P1.7 TRIGGERING MECHANISMS OF BOUNDARY LAYER CONVECTIONS OVER THE
TAIWAN AREA IN SPRING SEASON. TAI-HWA HOR, CHUNG CHENG INST, OF
TECHNOLOGY, TAOYUAN, TAIWAN; AND C.-H, WEI AND M.-H. CHANG
82 P1.8 TURBULENT FLUXES, TEMPERATURE AND HUMIDITY CONVERGENCE AFTER
SUNRISE. RODRIGO SILVA, UNIVERSIDADE FEDERAL DE SANTA MARIA, SANTA
MARIA, RS, BRAZIL; AND 0. C. ACEVEDO, 0. MORAES, D. R. FITZJARRALD, R.
K. SAKAI, M. CZIKOWSKY, AND R. STAEBLER
84 P1.9 UNDERSTANDING THE PROCESSES OF STRATOCUMULUS BREAK-UP IN THE
COASTAL REGION. QING WANG, NPS, MONTEREY, CA; AND D. L. ROSENBERG AND S.
WANG
88 P1.10 USE OF SIMULTANEOUS RADAR AND LIDAR DATA FOR THE RETRIEVAL OF
MICROPHYSICAL PARAMETERS IN LOW-LEVEL WATER CLOUDS. OLEG A. KRASNOV,
DELFT UNIV. OF TECHNOLOGY, DELFT, THE NETHERLANDS; AND H. W.
J. RUSSCHENBERG
P1.11 VARIATION OF THE CLOUD-TOPPED BOUNDARY LAYER HEIGHT NEAR THE
CALIFORNIA COAST OBSERVATIONS FROM DECS. QING WANG, NPS, MONTEREY, CA;
AND I. A. KALOGIROS AND S. WANG
92 P1.12 TURBULENCE CLOSURE AND CLOUD DYNAMICS IN CLOUD-RESOLVING
SIMULATIONS OF BOUNDARYLAYER CLOUD REGIMES. ANNING CHENG, HAMPTON UNIV.
AND NASA/LRC, HAMPTON, VA; AND K.-M. XU
96 P1.13 SELF-SIMILARITY CONSTRAINTS FOR CONVECTIVE BOUNDARY LAYERS.
JIANJUN DUAN, UNIV. OF CALIFORNIA, LOS ANGELES, CA; AND B. STEVENS
98 P1.14 NONLINEAR SCALE INTERACTIONS IN LAKE-EFFECT CLOUDS. NATASHA L
MILES, PENN STATE UNIV., UNIVERSITY PARK, PA; AND J. VERLINDE
P1.15 PAPER WITHDRAWN
102 P1.16 AIRCRAFT OBSERVATIONS OF AIR MASS TRANSFORMATION OVER
ADVANCING ICE COVER IN THE SEA OF OKHOTSK. JUN INOUE, HOKKAIDO UNIV.,
SAPPORO, JAPAN; AND M. KAWASHIMA, Y. FUJIYOSHI, AND M. WAKATSUCHI
*
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TABLE OF CONTENTS
15 SYMPOSIUM ON BOUNDARY LAYERS AND TURBULENCE
PAGJ
104 P1.17 COHERENCE OF VERTICAL VELOCITY FROM A ZENITH-POINTING DOPPLER
LIDAR. SHANE D. MAYOR, NCAR, BOULDER, CO; AND D. H, LENSCHOW
P1.18 COMPARISON OF PARAMETERIZED CLOUD VARIABILITY TO ARM DATA. STEPHEN
A. KLEIN, NOAA/GFDL, PRINCETON, NJ; AND J. R. NORRIS
108 P1.19 EFFECTS OF DOMAIN SIZE AND NUMERICAL RESOLUTION ON THE
SIMULATION OF SHALLOW CUMULUS CONVECTION. DAVID E. STEVENS, LLNL,
LIVERMORE, CA
112 P1.20 ESTIMATING DIVERGENCE AND VORTICITY FROM AIRCRAFT DATA IN THE
STRATOCUMULUS TOPPED BOUNDARY LAYER. VERICA SAVIC-JOVCIC, UNIV. OF
CALIFORNIA, LOS ANGELES, CA; AND B. STEVENS AND D. H. LENSCHOW
P1.21 INTERACTIONS OF DEEP CUMULUS CONVECTION AND THE BOUNDARY LAYER
OVER THE SOUTHERN GREAT PLAINS. STEVEN K. KRUEGER, UNIV. OF UTAH, SALT
LAKE CITY, UT; AND M. A. JENKINS, S. M. LAZARUS, Y. LUO, AND K.-M. XU
114 P1.22 MASSFLUX BUDGETS OF SHALLOW CUMULUS CLOUDS. STEPHAN R. DE
ROODE, UNIV. OF WASHINGTON, SEATTLE, WA; AND C. S. BRETHERTON
118 P1.23 MODELING THE CLOUD-TOPPED MARINE PBL; TURBULENCE INFLUENCE ON
THE CONDENSATIONAL GROWTH. GUNILLA SVENSSON, STOCKHOLM UNIV., STOCKHOLM,
SWEDEN; AND J. H. SEINFELD
120 P1.24 OBSERVATIONS OF THE MORNING TRANSITION OF THE CONVECTIVE
BOUNDARY LAYER. WAYNE M. ANGEVINE, CIRES/UNIV. OF COLORADO AND NOAA/AL,
BOULDER, CO; AND H. KLEIN BALTINK AND F. C. BOSVELD
POSTER SESSION P2: OBSERVATIONAL METHODS
121 P2.1 INFLUENCES OF SURFACE HETEROGENEITY ON TOWER-BASED FLUX
MEASUREMENTS. WEIGUO WANG, PENN STATE UNIV., UNIVERSITY PARK, PA; AND K.
J. DAVIS
125 P2.2 LONG RANGE SCINTILLOMETRY. WILLIAM KOHSIEK, KNMI, DE BILT, THE
NETHERLANDS; AND W. M. L. MEIJNINGER AND H.A. R. DE BRUIN
129 P2.3 RE-EVALUATION OF INTEGRAL TURBULENCE CHARACTERISTICS AND THEIR
PARAMETERISATIONS.
CHRISTOPH THOMAS, UNIV. OF BAYREUTH, BAYREUTH, GERMANY; AND T. FOKEN
133 P2.4 REMOTE SENSING OF THE LATE-SUMMER BOUNDARY LAYER NEAR THE NORTH
POLE. P. OLA G. PERSSON, CIRES/NOAA/ETL, BOULDER, CO; AND S. ABBOTT, M.
L. JENSEN, B. LARSSON, V. LEUSKI, A. TARGINO, M. TJERNSTROM, AND A.
WHITE
137 P2.5 SPATIAL VARIABILITY OF EDDY COVARIANCE MEASUREMENTS: A
COMPARISON OF TWO IDENTICAL EDDY CORRELATION SYSTEMS IN ADJACENT PLOTS.
JON WARLAND, UNIV. OF GUELPH, GUELPH, ON, CANADA; AND K. TAILLON
139 P2.6 THE INFLUENCE OF PULSE-FIRING DELAYS ON SONIC ANEMOMETER
RESPONSE CHARACTERISTICS.
MORTEN NIELSEN, RIS0 NATIONAL LABORATORY, ROSKILDE, DENMARK; AND S. E.
LARSEN
143 P2.7 THE SURFACE ENERGY BALANCE OVER A DESERT, AND THE RELEVANCE OF
SOIL HEAT FLUX
MEASUREMENTS. BERT G. HEUSINKVELD, METEOROLOGY AND AIR QUALITY GROUP,
WAGENINGEN UNIV., WAGENINGEN, THE NETHERLANDS; AND A. F. G. JACOBS, A.
A. M. HOLTSLAG, AND S. M. BERKOWICZ
147 P2.8 INFLUENCE OF THE AIRFLOW DISTORTION ON AIR-SEA FLUX
MEASUREMENTS ABOARD RESEARCH VESSEL: RESULTS OF PHYSICAL SIMULATIONS
APPLIED TO THE EQUALANT99 EXPERIMENT. AURORE BRUT,
CNRM, METEO-FRANCE, TOULOUSE, FRANCE; AND A. BUTET, S. PLANTON, P,
DURAND, AND G. CANIAUX
*
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TABLE OF CONTENTS
PAGE
151 P2.9
155 P2.10
15M SYMPOSIUM ON BOUNDARY LAYERSAND TURBULENCE
AN AIRBORNE DISJUNCT EDDY COVARIANCE SYSTEM; SAMPLING STRATEGY AND
INSTRUMENT DESIGN. JANNE RINNE, CNRM, METEO-FRANCE, TOULOUSE, FRANCE;
AND P. DURAND AND A. GUENTHER
BOUNDARY LAYER PROFILES OF AEROSOL SIZE DISTRIBUTION OBTAINED BY KITES
AND A TETHERED BALLOON DURING THE ARCTIC OCEAN EXPEDITION (AOE-2001).
MICHAEL L. JENSEN, CIRES/UNIV. OF COLORADO, BOULDER, CO; AND C. LEEK, A.
TARGINO, B. WEHNER, C. FISCHER, AND E. SWIETLICKI
159 P2.11 DISPLACED-BEAM SMALL APERTURE SCINTILLOMETER TEST: CASES-99
STABLE BOUNDARY LAYER EXPERIMENT. OSCAR K. HARTOGENSIS, METEOROLOGY AND
AIR QUALITY GROUP, WAGENINGEN UNIV., WAGENINGEN, THE NETHERLANDS; AND H.
A. R. DE BRUIN
163 P2.12 FETCH AND FOOTPRINT CONSIDERATIONS DURING MEASUREMENT OF TRACE
GAS EMISSIONS: A REFINERY LANDFARM CASE STUDY. SANDRA AUSMA, UNIV. OF
GUELPH, GUELPH, ON, CANADA; AND G. C. EDWARDS AND T. J. GILLESPIE
167 P2.13 FINDING BOUNDARY LAYER TOP FOR THE STABLE LAYER: APPLICATION
OF A HAAR WAVELET COVARIANCE TRANSFORM TO LIDAR OBSERVATIONS. IAN M.
BROOKS, SLO/UNIV. OF CALIFORNIA, LA JOLLA, CA
P2.14 FLUX FOOTPRINTS OVER CANOPIES WITH VARYING STRUCTURE AND DENSITY.
TIINA MARKKANEN, UNIV. OF HELSINKI, HELSINKI, FINLAND; AND 0. RANNLK AND
T. VESALA
171 P2.15 IMPROVED TURBULENT FLUX CALCULATIONS. DEAN VICKERS, OREGON
STATE UNIV., CORVALLIS, OR; AND L. MAHRT
SESSION 4: DUYNKERKE MEMORIAL
175 4.1 REMEMBERING PETER DUYNKERKE. ALBERT A. M. HOLTSLAG, METEOROLOGY
AND AIR QUALITY GROUP, WAGENINGEN UNIV., WAGENINGEN, THE NETHERLANDS;
AND S. R. DE ROODE
4.2 SCIENTIFIC HIGHLIGHTS FROM THE GCSS BOUNDARY LAYER CLOUD WORKING
GROUP UNDER PETER DUYNKERKE S LEADERSHIP. CHRISTOPHER S. BRETHERTON,
UNIV. OF WASHINGTON, SEATTLE, WA 4.3 INTREPID INVESTIGATIONS OF CLOUD
TOPPPED BOUNDARY LAYERS. BJORN STEVENS, UNIV. OF CALIFORNIA, LOS
ANGELES, CA
177 4.4 LES: HOW LARGE IS LARGE ENOUGH? PETER G. DUYNKERKE, INSTITUTE
FOR MARINE AND ATMOSPHERIC RESEARCH, UTRECHT UNIV., UTRECHT, THE
NETHERLANDS; AND H. J. J. JONKER AND S. R. DE ROODE
183 4.5 THE ROLE OF THE FILTER IN THE FILTERED NAVIER-STOKES EQUATION.
ARJAN VAN DIJK, UTRECHT UNIV., UTRECHT, THE NETHERLANDS; AND P. G.
DUYNKERKE
187 4.6 COUNTERGRADIENT FLUXES IN THE CLEAR CONVECTIVE BOUNDARY LAYER:
THE ROLE OF THE ENTRAINMENT FLUX. STEPHAN R. DE ROODE, UTRECHT UNIV.,
UTRECHT, THE NETHERLANDS; AND P. G. DUYNKERKE AND H.J. J. JONKER
191 4.7 THE TOTAL WATER BUDGET OF NOCTURNAL STRATOCUMULUS. MARGREET C.
VANZANTEN, UNIV. OF CALIFORNIA, LOS ANGELES, CA; AND B. STEVENS, G.
VALI, AND D. LENSCHOW
193 4.8 CUMULUS PROPERTIES FROM AIRCRAFT AND SATELLITE MEASUREMENTS.
STEFAAN M. A. ROCLTS, UTRECHT UNIV., UTRECHT, THE NETHERLANDS; AND H. J.
J. JONKER AND P. G, DUYNKERKE
SESSION 5: CLOUDY BLS
197 5.1 ENTRAINMENT IN NOCTURNAL STRATOCUMULUS. BJORN STEVENS, UNIV. OF
CALIFORNIA, LOS ANGELES, CA; AND D, H. LENSCHOW, I. FALOONA, V.
SAVIC-JOVCIC, AND M. VANZANTEN
199 5.2 SHALLOW CUMULUS CONVECTION: VALIDATION OF LARGE-EDDY SIMULATION
AGAINST AIRCRAFT AND LANDSAT OBSERVATIONS. R. A. J. NEGGERS, KNMI, DE
BILT, THE NETHERLANDS; AND P. G. DUYNKERKE AND S. M. A. RODTS
*
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TABLE OF CONTENTS
15 SYMPOSIUM ON BOUNDARY LAYERS AND TURBULENCE
PAGE
203 5.3 RETRIEVAL OF BOUNDARY LAYER CLOUD PROPERTIES USING INFRARED
SATELLITE DATA DURING THE DYCOMS-II FIELD EXPERIMENT. JUAN C. PEREZ,
UNIVERSIDAD DE LA LAGUNA, CANARY ISLANDS, SPAIN; AND P. H. AUSTIN AND A.
GONZOLAZ
205 5.4 OBSERVATIONS OF STRATOCUMULUS ENTRAINMENT IN THE COASTAL ZONE.
JOHN KALOGIROS, NATIONAL
OBSERVATORY OF ATHENS, ATHENS, GREECE AND NPS, MONTEREY, CA; AND Q. WANG
209 5.5 ENTRAINMENT AND LARGE EDDY STRUCTURE IN CLOUDY BOUNDARY LAYERS.
DAVID C. LEWELLEN, WEST
VIRGINIA UNIV., MORGANTOWN, WV; AND W. S. LEWELLEN
5.6 PAPER WITHDRAWN
213 5.7 DIURNAL CYCLES OF A MARINE SC LAYER AND CU OVER LAND SIMULATED
WITH A TKE SCHEME USING A UNIFIED FORMULATION OF THE MIXING LENGTH. E.
SANCHEZ, INSTITUTE NACIONAL DE METEOROLOGIA, MADRID,
SPAIN; AND J. CUXART
5.8 A NEW SUBCLOUD MODEL FOR CONVECTION PARAMETERIZATION. A.P. SIEBESMA,
KNMI, DE BILT, THE
NETHERLANDS; AND C. JAKOB, J. TEIXEIRA, AND P. SOARES
215 5.9 AN EXAMINATION OF A UNIFIED CLOUDINESS-TURBULENCE SCHEME WITH
VARIOUS TYPES OF CLOUDY BOUNDARY LAYERS. JOCELYN MAILHOT, MSC, DORVAL,
QC, CANADA; AND S. B6LAIR
219 5.10 SIMILARITY OF DEEP VS. SHALLOW CONVECTION AS REVEALED BY A
THREE-DIMENSIONAL CLOUDRESOLVING MODEL. MARAT F. KHAIROUTDINOV, COLORADO
STATE UNIV., FORT COLLINS, CO; AND D. A. RANDALL
221 5.11 A SPECTRAL MODEL FOR THE COHERENT STRUCTURES IN THE DRY AND
MOIST CONVECTIVE BOUNDARY
LAYERS. SYLVAIN CHEINET, LABORATOIRE DE METEOROLOGIE DYNAMIQUE, PARIS,
FRANCE
5.12 MESOSCALE SIMULATIONS OF STRATOCUMULUS-TOPPED BOUNDARY LAYERS AND
COMPARISONS WITH
AIRCRAFT OBSERVATIONS. QING WANG, NPS, MONTEREY, CA; AND T. CHANG AND S.
WANG
225 5.13 A DIAGNOSTIC STUDY OF EPISODIC MIXING MODELS OF SHALLOW CUMULUS
CLOUDS. MING ZHAO, UNIV. OF BRITISH COLUMBIA, VANCOUVER, BC, CANADA; AND
P. H. AUSTIN
SESSION 6: CHEMICAL PROCESSES AND DISPERSION
227 6.1 FLUXES AND (CO-)VARIANCES OF REACTING SCALARS IN THE CONVECTIVE
BOUNDARY LAYER. JEAN-
FRANGOIS VINUESA, METEOROLOGY AND AIR QUALITY GROUP, WAGENINGEN UNIV.,
WAGENINGEN, THE NETHERLANDS; AND J.
VILA-GUERAU DE ARELLANO
233 6.2 INITIAL APPLICATION OF A COUPLED LES-PHOTOCHEMICAL MODEL TO
EXAMINE NEAR-SOURCE OZONE
PRODUCTION FROM INDUSTRIAL EMISSIONS. JEROLD A. HERWEHE, NOAA/ARL/ATDD,
OAK RIDGE, TN; AND R. T. MCNIDERAND R. K. DECKER
237 6.3 THE EFFECT OF NORTH FOEHN ON BOUNDARY LAYER OZONE CONCENTRATIONS
IN THE PO BASIN. MARKUS FURGER, PAUL SCHERRER INSTITUT, VILLIGEN PSI,
SWITZERLAND; AND A. S. H. PR6V6T AND R. 0. WEBER
239 6.4 FIRST MEASUREMENTS OF H202 AND ORGANIC PEROXIDES SURFACE FLUXES
BY THE RELAXED EDDY
ACCUMULATION TECHNIQUE. JESSICA M. VALVERDE-CANOSSA,
MAX-PLANCK-INSTITUTE FOR CHEMISTRY, MAINZ, GERMANY; AND G. MOORTGAT AND
G, SCHUSTER
243 6.5 BUILDING AFFECTED DISPERSION: DEVELOPMENT AND INITIAL
PERFORMANCE OF A NEW LAGRANGIAN
PARTICLE MODEL. MATTHEW C. HORT, MET OFFICE, BRACKNELL, BERKS., UK; AND
B. DEVENISH AND D. THOMSON
247 6.6 DISPERSION OF A PASSIVE TRACER IN A BUOYANCY- AND SHEAR-DRIVEN
BOUNDARY LAYER. ALESSANDRO
DOSIO, METEOROLOGY AND AIR QUALITY GROUP, WAGENINGEN UNIV., WAGENINGEN,
THE NETHERLANDS; AND J. VILA-GUERAU
DE ARELLANO, A. A. M. HOLTSLAG, AND P. J. H. BULLTJES
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6.7 IN-PLUME CONCENTRATION FLUCTUATIONS AND SELFSIMILARITY. HANS E
J0RGENSEN, RIS0 NATIONAL
LABORATORY, ROSKILDE, DENMARK; AND T. MIKKELSEN, M. NIELSEN, S. OTT, AND
D. WILSON
251 6.8 APPLICATION OF A LAGRANGIAN MODEL FOR POLLEN DISPERSION. RAYMOND
W. ARRITT, IOWA STATE UNIV.,
AMES, IA; AND J. M. RIESE, M. E. WESTGATE, E. S. TAKLE, AND M. J. FALK
POSTER SESSION P3: FUNDAMENTAL STUDIES
255 P3.1 OBSERVATIONS OF THE HORIZONTAL STRUCTURE OF THE BOUNDARY LAYER
WITH THE TURBULENT EDDY PROFILER. PACO LOPEZ DEKKER, UNIV. OF
MASSACHUSETTS, AMHERST, MA; AND S. J. FRASIER
259 P3.2 SENSITIVITY OF WIND AND TEMPERATURE RETRIEVALS FROM 4DVAR TO
PRESCRIBED EDDY VISCOSITY PROFILES, ROB K. NEWSOM, CIRA/COLORADO STATE
UNIV., FORT COLLINS, CO; AND R. M. BANTA
263 P3.3 TDMM ANALYSIS OF A TURBULENT DENSITY CURRENT. GEORGE TREVLFLO,
CHIRES, INC. SAN ANTONIO, TX; AND E. L ANDREAS
267 P3.4 MODELLING AN EDDY DIFFUSIVITY FOR CONVECTIVE DECAYING
TURBULENCE IN THE RESIDUAL LAYER.
ANTONIO GOULART, UNIVERSIDADE REGIONAL INTEGRADA, SANTO ANGELO, RS,
BRAZIL; AND G. DEGRAZIA, D. ANFOSSI, AND 0. C. ACEVEDO
P3.5 THE ENERGY BUDGET OF DECAYING TURBULENCE AS MODELED BY DIRECT
NUMERICAL SIMULATIONS OF
TURBULENCE. JAMES C BARNARD, PNNL, RICHLAND, WA; AND W. J, SHAW
P3.6 USING CFD-PROGRAM FOR UNDERSTANDING OF THE ABL. MIKAEL MAGNUSSON,
SMHI, NORRKFIPING, SWEDEN
269 P3.7 VELOCITY, TEMPERATURE AND SCALAR LENGTH SCALES IN THE CBL:
OBSERVATIONS AND THEORY. HAN VAN DOP, UTRECHT UNIV., UTRECHT, THE
NETHERLANDS; AND A. VAN HERWIJNEN, D, VAN AS, AND M. F. HIBBERD
273 P3.8 TURBULENCE IN A SHEAR-DRIVEN NOCTURNAL SURFACE LAYER DURING THE
CASES 99 EXPERIMENT.
PHILIPPE DROBLNSKI, UNIV. PIERRE ET MARIE CURIE, PARIS, FRANCE; AND R.
K. NEWSOM, R. M. BANTA, P. CARLOTTL, R. C.
FOSTER, P. NAVEAU, AND J.-L. REDELSPERGER
277 P3.9 MEASURING THE VISCOUS DISSIPATION OF TURBULENT KINETIC ENERGY
WITH A HOTWIRE AND A SONIC ANEMOMETER. JAN SLAGER, UTRECHT UNIV.,
UTRECHT, THE NETHERLANDS; AND P. G. DUYNKERKE AND A. VAN DIJK
281 P3.10 DYNAMIC EVALUATION OF DRAG COEFFICIENTS FOR FLOW OVER
SCALE-SIMILAR COMPLEX BOUNDARIES.
STUART CHESTER, JOHNS HOPKINS UNIV., BALTIMORE, MD; AND C. MENEVEAU AND
M. PARLANGE
283 P3.11 ESTIMATION OF THE INTEGRAL TIME SCALE WITH TIME SERIES MODELS.
STIJN DE WAELE, DELFT UNIV. OF TECHNOLOGY, DELFT, THE NETHERLANDS; AND
A. VAN DIJK, P. BROERSEN, AND P. G. DUYNKERKE
287 P3.12 ESTIMATION OF THE STATISTICAL ERROR IN LARGE EDDY SIMULATION
RESULTS. ARNOLD F. MOENE, METEORLOGY AND AIR QUALITY GROUP, WAGENINGEN
UNIV., WAGENINGEN, THE NETHERLANDS; AND B. I. MICHELS
289 P3.13 A LARGE-EDDY SIMULATION MODEL PERFORMING ON MASSIVELY PARALLEL
COMPUTERS. SIEGFRIED RAASCH, UNIV. OF HANNOVER, HANNOVER, GERMANY; AND
M. SCHROETER
293 P3.14 EVALUATION OF THE LAGRANGIAN FOOTPRINT MODEL LPDM-B USING
WIND-TUNNEL DATA SETS. NATASCHA KLJUN, ETH, ZUERICH, SWITZERLAND; AND P.
KASTNER-KLEIN, M. W. ROTACH, AND E. FEDOROVICH
295 P3.15 GENERATION OF LARGE-SCALE SEMI-ORGANIZED STRUCTURES IN
TURBULENT CONVECTION. TOV ELPERLN, BEN-GURION UNIV. OF THE NEGEV,
BEER-SHEVA, ISRAEL; AND N. KLEEORIN, I. ROGACHEVSKLI, AND S.
ZLLLTINKEVICH
299 P3.16 LES ANALYSIS ON WIND PROFILE OVER COMPLEX ROUGHENED GROUND
SURFACE IN URBAN AREA. TETSURO TAMURA, TOKYO INSTITUTE OF TECHNOLOGY,
YOKOHAMA, JAPAN; AND 0. OHNO, S. CAO, Y. OKUDA, AND H. OKADA
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303 P4.1
307 P4.2
311 P4.3
313 P4.4
15 SYMPOSIUM ON BOUNDARY LAYERS AND TURBULENCE
PAGE
301 P3.17 EXAMINATION OF NEUTRALLY STRATIFIED ATMOSPHERIC BOUNDARY
LAYERS WITH THE HELP OF LARGE EDDY SIMULATION. IGOR N. ESAU, UPPSALA
UNIV., UPPSALA, SWEDEN
POSTER SESSION P4: STABLE BLS;CHEMISTRY AND DISPERSION IN THE ABL
ON PARAMETERIZATION OF TURBULENCE DIFFUSION IN STRATIFIED ATMOSPHERE.
FENG LIU, BTU COBUS, COTTBUS, GERMANY AND OCEAN UNIV. OF QINGDAO,
QINGDAO, SHANDONG, CHINA; AND F. HUANG
LABORATORY AND NUMERICAL STUDIES OF VERY STABLE BOUNDARY LAYERS. YUJI
OHYA, KYUSHU UNIV., KASUGA, JAPAN; AND T. UCHIDA
LOCAL MIXINGWITH EXTERNAL CONTROL IN THE MET OFFICE UNIFIED MODEL STABLE
BOUNDARY LAYER.
ALASTAIR G. WILLIAMS, MET OFFICE, BRACKNELL, BERKS., UK
ONE-COLUMN SIMULATIONS OF THE STABLE BOUNDARY LAYER OBSERVED DURING
SABLES 98. IMPORTANCE OF THE SURFACE FLUXES AND THE DYNAMIC FORCINGS.
LAURA CONANGLA, UNIVERSITAT POLITECNICA DE CATALUNYA, BARCELONA, SPAIN;
AND J. CUXARTAND E. TERRADELLAS
315 P4.5 TURBULENCE STRUCTURE AND SIMILARITY THEORY OVER COMPLEX TERRAIN
IN STABLE CONDITIONS.
ROBERTO MAGNAGO, UNIVERSIDADE FEDERAL DE SANTA MARIA, SANTA MARIA, RS,
BRAZIL; AND R. DA SILVA, 0. C.
ACEVEDO, AND 0. L. L. MORAES
OBSERVATIONS OF FLOW OVER COMPLEX TERRAIN WITHIN THE STABLE NOCTURNAL
BOUNDARY LAYER. JUSTIN T. WALTERS, UNIV, OF ALABAMA, HUNTSVILLE, AL; AND
K. R. KNUPP
THE INFLUENCE OF NOCTURNAL BOUNDARY LAYERS REGIMES ON THE SURFACE ENERGY
BUDGET. MARIA ROSA SOLER, UNIV. OF BARCELONA, BARCELONA, SPAIN; AND E.
FERRERES AND L. MAHRT
PAPER WITHDRAWN
FORMATION, EVOLUTION AND DECAY OF A SHEAR FLOW INSTABILITY IN THE STABLE
NOCTURNAL BOUNDARY LAYER. ROB K. NEWSOM, CIRA/COLORADO STATE UNIV., FORT
COLLINS, CO; AND R. M. BANTA AND Y. PICHUGINA
SOUND PROPAGATION OBSERVATIONS DURING THE CASES-99 EXPERIMENT. D. KEITH
WILSON, U.S. ARMY RESEARCH LABORATORY, ADELPHI, MD; AND J. M. NOBLE AND
M. A. COLEMAN
LARGE-EDDY SIMULATIONS OF STABLE BOUNDARY LAYER: EXPLORATION OF RANGES
OF APPLICABILITY.
MARIA A. JIMENEZ, INSTITUTE NACIONAL DE METEOROLOGIA, MADRID, SPAIN; AND
J. CUXART
MESOSCALE MODELING OF THE WINTERTIME BOUNDARY LAYER STRUCTURE OVER THE
ARCTIC PACK ICE. P. OLA G. PERSSON, CIRES/NOAA/ETL, BOULDER, CO; AND
J.-W. BAO AND S. MICHAELSON
OBSERVATIONS AND NUMERICAL MODELLING OF AN ORDINARY KATABATIC WIND
REGIME IN COATS
LAND, ANTARCTICA. IAN A. RENFREW, BRITISH ANTARCTIC SURVEY, CAMBRIDGE,
UK; AND P. S. ANDERSON
TURBULENT DIFFUSION OF SCALARS IN STRATOCUMULUS TOPPED BOUNDARY LAYERS.
IAN FALOONA, NCAR, BOULDER, CO; AND D. LENSCHOW AND B. STEVENS
A COUPLED MODEL OF SHELTER EFFECTS ON POLLEN DISPERSION. RAYMOND W.
ARRITT, IOWA STATE UNIV., AMES, IA; AND J. M. RIESE, E. S. TAKLE, AND M.
J. FALK
A STUDY OF THE DISPERSION OF AN ELEVATED PLUME ON COMPLEX TERRAIN UNDER
SUMMER
CONDITIONS. GORKA PSREZ-LANDA, MEDITERRANEAN CENTRE FOR ENVIRONMENTAL
STUDIES FOUNDATION, VALENCIA,
SPAIN; AND J. L. PALAU, E. MANTILLA, AND M. M. MILLAN
350 P4.17 A VERSATILE ENTRAINMENT FUNCTION FOR DENSE-GAS DISPERSION.
MORTEN NIELSEN, RISE NATIONAL LABORATORY, ROSKILDE, DENMARK; AND N. 0.
JENSEN
318 P4.6
322 P4.7
P4.8
325 P4.9
329 P4.10
333 P4.11
335 P4.12
339 P4.13
343 P4.14
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P4.15
346 P4.16
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15 SYMPOSIUM ON BOUNDARY LAYERS AND TURBULENCE
EME
354 P4.18 CONCENTRATION CORRELATION TRANSFER OF URBAN AIR POLLUTION.
SUKARAN RAM PATEL, UNIVERSIDADE FEDERAL DA PARAFBA, CAMPINA GRANDE, PB,
BRAZIL
P4.19 THE NEW MODEL FOR AEROSOLS TRANSPORTATION IN BOUNDARY LAYER WITH
OBSTACLES. ARAKEL
PETROSYAN, SPACE RESEARCH INSTITUTE OF THE RUSSIAN ACADEMY OF SCIENCES,
MOSCOW, RUSSIA; AND K. KARELSKY
356 P4.20 EVALUATION OF THE MICROMETEOROLOGY IN A SINGLE COLUMN
CHEMISTRY AND METEOROLOGICAL MODEL BEING CONSTRAINED WITH THE ECMWF
ANALYZED METEOROLOGY. LAURENS GANZEVELD, MAXPLANCK INSTITUTE FOR
CHEMISTRY, MAINZ, GERMANY; AND J. VALVERDE-CANOSSA AND G. MOORTGAT
360 P4.21 REAL-TIME PROFILES OF ORGANIC TRACE GASES IN THE ARCTIC
BOUNDARY LAYER OBTAINED DURING THE ARCTIC OCEAN EXPEDITION (AOE-2001).
MICHAEL L JENSEN, CIRES/UNIV. OF COLORADO, BOULDER, CO; AND A.
WISTHALER, A. HANSEL, P. 0. G. PERSSON, AND B. TEMPLEMAN
P4.22 SEASONAL VARIATION OF BOUNDARY LAYER PROFILES OF C02
CONCENTRATIONS AND THE RECTIFIER EFFECT AS MEASURED BY LIGHT AND
ULTRALIGHT AIRCRAFT. MICHAEL L JENSEN, CIRES/UNIV. OF COLORADO, BOULDER,
CO; AND M. HURWLTZ, K. SCHULZ, K. J. DAVIS, B. B. BALSLEY, AND J. BLRKS
362 P4.23 THE IMPACT OF FORECAST ERRORS IN BOUNDARY LAYER WIND AND
FIELDS ON PREDICTIONS OF SURFACE OZONE CONCENTRATIONS. SHARON ZHONG,
PNNL, RICHLAND, WA; AND G. JIANG, E. YANG, AND S. TANRIKULU
364 P4.24 LARGE-EDDY SIMULATION OF DIFFUSION FROM/TO LINE AND POINT
SOURCES/SINKS INSIDE A FOREST. HONG-BING SU, INDIANA UNIV., BLOOMINGTON,
IN
SESSION 7: FIELD PROGRAMS AND OBSERVATIONAL TECHNOLOGY
366 7.1 THE BOUNDARY-LAYER PROGRAM DURING THE ARCTIC OCEAN 2001
EXPERIMENT. MICHAEL TJERNSTRSRN, STOCKHOLM UNIV., STOCKHOLM, SWEDEN; AND
M. L. JENSEN, S. ONCLEY, P. 0. G. PERSSON, AND A. TARGLNO
370 7.2 THE STRUCTURE OF THE ARCTIC BOUNDARY-LAYER DURING THE ARTIC
OCEAN 2001 EXPEDITION. ADMIR TARGINO, STOCKHOLM UNIV., STOCKHOLM,
SWEDEN; AND M. TJERNSTRSM
374 7.3 STABLE BOUNDARY-LAYER REGIMES OBSERVED DURING THE SHEBA
EXPERIMENT. ANDREY A. GRACHEV, CIRES/UNIV. OF COLORADO AND NOAA/ETL,
BOULDER, CO; AND C, W. FAIRALL, P. 0. G. PERSSON, E. L ANDREAS, AND P.
S. GUEST
7.4 AN ANALYSIS OF BULK PARAMETERIZATIONS OF STABLY-STRATIFIED
ATMOSPHERIC BOUNDARY LAYERS USING LARGE-EDDY SIMULATIONS. BRANKO
KOSOVIC, UNIV. OF COLORADO, BOULDER, CO; AND J. A. CURRY 7.5 A NEW
SYSTEM FOR AIRBORNE MEASUREMENTS OF HIGH-RESOLUTION 3D WINDS USING A
TETHERED LIFTING SYSTEM (TLS). MICHAEL L JENSEN, CIRES/UNIV. OF
COLORADO, BOULDER, CO; AND M. TJEMSTRSM AND A.
TARGLNO
378 7.6 AIRBORNE MEASUREMENTS OF TURBULENT FLUXES OVER HETEROGENEOUS
TERRAIN WITH HELIPOD AND DO 128-ERROR ANALYSIS AND COMPARISON WITH
GROUND-BASED SYSTEMS. JENS BANGE, AEROSPACE SYSTEMS AT TECHNICAL UNIV.
OF BRAUNSCHWEIG, BRAUNSCHWEIG, GERMANY; AND F. BEYRICH AND D. A. M.
ENGELBART
382 7.7 PERFORMANCE OF S-BAND FMCW RADAR FOR BOUNDARY LAYER OBSERVATION.
STEPHEN J. FRASIER, UNIV. OF MASSACHUSETTS, AMHERST, MA; AND T. INCE AND
F. J. LOPEZ-DEKKER
386 7.8 BOUNDARY LAYER MEASUREMENTS WITH A 3GHZ FMCW ATMOSPHERIC
PROFILER. S. H. HELJNEN, DELFT UNIV. OF TECHNOLOGY, DELFT, THE
NETHERLANDS; AND H. KLEIN-BALTINK, H. W. J. RUSSCHENBERG, H. VERLINDE,
AND W. F. VAN DER ZWAN
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15 SYMPOSIUM ON BOUNDARY LAYERS AND TURBULENCE
PAGE
SESSION 8: FUNDAMENTAL STUDIES OF THE ABL
390 8.1 THE SHAPES OF THE PRODUCTION REGIONS OF VELOCITY SPECTRA AND
COSPECTRA IN THE NEUTRAL ATMOSPHERIC SURFACE LAYER. K. G. MCNAUGHTON,
UNIV. OF EDINBURGH, EDINBURGH, SCOTLAND
394 8.2 QUASI-WAVELET MODELS FOR ATMOSPHERIC TURBULENCE. GEORGE H.
GOEDECKE, NEW MEXICO STATE UNIV., LAS CRUCES, NM; AND D. K. WILSON, V.
E. OSTASHEV, AND H. J. AUVERMANN
398 8.3 SCALES OF TURBULENCE DECAY FROM OBSERVATIONS AND DIRECT
NUMERICAL SIMULATION. WILLIAM J. SHAW, PNNL, RICHLAND, WA; AND J. C.
BARNARD
8.4 A COMPARISON OF ECMWF RE-ANALYSIS DATA WITH OBSERVATIONS FROM
CABAUW. FRED C. BOSVELD, KNMI, DE BILT, THE NETHERLANDS; AND H. KLEIN
BALTINK AND A. BELJAARS
402 8.5 SCALE DEPENDENCE AND SUBGRID-SCALE MODELING IN LES. FERNANDO
PORTS-AGEL, UNIV. OF MINNESOTA, MINNEAPOLIS, MN; AND J. R. STOLL, M.
CARPER, N. BJELOGRLIC, AND A. FAGERNESS
406 8.6 THE EFFECT OF EIGENVECTOR ALIGNMENTS ON SUBGRID-SCALE
DISSIPATION OF TURBULENT KINETIC ENERGY. CHAD HIGGINS, JOHNS HOPKINS
UNIV., BALTIMORE, MD; AND C. MENEVEAU AND M. PARLANGE
410 8.7 A MODELLING STUDY OF THE EFFECTS OF CANOPY GAPS ON WIND AND
SCALAR FLUX OBSERVATIONS.
OTDVIO C. ACEVEDO, UNIVERSIDADE FEDERAL DE SANTA MARIA, SANTA MARIA, RS,
BRAZIL; AND D. R. FITZJARRALD
414 8.8 THE ROLE OF UNDERSTORY FLOWS IN FOREST CARBON BUDGETS. RAIL M.
STAEBLER, SUNY, ALBANY, NY; AND D. R. FITZJARRALD, M. J. CZIKOWSKY, AND
R. K. SAKAI
SESSION 9: FUNDAMENTAL STUDIES OF TURBULENCE, INCLUDING ADVANCES IN LES
AND DNS, LABORATORY STUDIES, AND OBSERVATIONS
418 9.1 EVIDENCE FROM THE ATMOSPHERIC SURFACE LAYER THAT THE VON KARMAN
CONSTANT ISN T. EDGAR L ANDREAS, U.S. ARMY COLD REGIONS RESEARCH AND
ENGINEERING LABORATORY, HANOVER, NH; AND K. J. CLAFFEY, C. W.
FAIRALL, P. S. GUEST, R. E. JORDAN, AND P. 0. G. PERSSON
422 9.2 ON REASONS FOR THE OBSERVED VARIATION OF THE VON KARMAN CONSTANT
IN THE ATMOSPHERIC
SURFACE LAYER. CHRISTOPH A. VOGEL, NOAA/ARL/ATDD, OAK RIDGE, TN; AND P.
FRENZEN
424 9.3 DIRECT NUMERICAL SIMULATIONS OF INTERMITTENT TURBULENCE IN THE
VERY STABLE EKMAN LAYER.
JAMES C. BARNARD, PNNL, RICHLAND, WA; AND J. J. RILEY
428 9.4 FIRST ATTEMPTS OF AN LES-MODEL EVALUATION BY COMPARISON WITH
EXPERIMENTAL DATA GAINED FROM ACOUSTIC TOMOGRAPHY. SONJA WEINBRECHT,
UNIV. OF HANNOVER, HANNOVER, GERMANY; AND S. RAASCH
432 9.5 MODELING UNRESOLVED MOTIONS IN LES OF FIELD-SCALE FLOWS. FOTINI
KATOPODES CHOW, STANFORD UNIV., STANFORD, CA; AND R. L. STREET
436 9.6 FIELD MEASUREMENTS OF SPATIALLY-FILTERED TURBULENCE IN THE
ATMOSPHERIC SURFACE LAYER.
THOMAS W. HORST, NCAR, BOULDER, CO; AND J. KLEISSL, D. H. LENSCHOW, C.
MENEVEAU, C.-H. MOENG, M. P. PARLANGE, P. P. SULLIVAN, AND J. C. WEIL
440 9.7 ANALYSIS OF SUBFILTER-SCALE FLUXES IN THE ATMOSPHERIC SURFACE
LAYER. PETER P. SULLIVAN, NCAR, BOULDER, CO; AND T. W. HORST, D. H.
LENSCHOW, C.-H. MOENG, AND J. C. WEIL
444 9.8 TURBULENT PRESSURE STATISTICS. NATASHA L. MILES, PENN STATE
UNIV., UNIVERSITY PARK, PA; AND J. C.
WYNGAARD AND M. J. OTTE
448 9.9 LES STUDY ON THE ENERGY IMBALANCE PROBLEM WITH EDDY COVARIANCE
FLUXES FOR UNIFORMLY HEATED CONVECTIVE BOUNDARY LAYERS. MANABU KANDA,
TOKYO INSTITUTE OF TECHNOLOGY, TOKYO, JAPAN; AND M. 0. LETZEL, T.
WATANABE, A. INAGAKI, AND S. RAASCH
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15 SYMPOSIUM ON BOUNDARY LAYERS AND TURBULENCE
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452 9.10 A MODEL FOR THE LARGE-SCALE RAMP STRUCTURES OBSERVED IN THE
ATMOSPHERIC SURFACE LAYER.
K. G. MCNAUGHTON, UNIV. OF EDINBURGH, EDINBURGH, SCOTLAND; AND R. E.
BLUNDELL
456 9.11 AIRCRAFT MEASUREMENTS OF REFRACTIVE AND CLEAR AIR TURBULENCE:
SPECTRA, BUDGETS, AND THE PREDICTION PROBLEM. OWEN R. COTE, AIR FORCE
RESEARCH LABORATORY, HANSCOM AFB, MA; AND R. J, DOBOSY, J. ROADCAP, T.
L. CRAWFORD, AND J. M. HACKER
461 9.12 PRELIMINARY CASES-99 MEASUREMENTS OF STEEP VERTICAL GRADIENTS
IN TEMPERATURE AND
TURBULENCE STRUCTURE USING A TETHERED LIFTING SYSTEM (TLS). BEN B.
BALSLEY, CIRES/UNIV. OF COLORADO, BOULDER, CO; AND R. G. FREHLICH, Y.
MEILLIER, AND M. L. JENSEN
465 9.13 THE PRESSURE-CORRELATION TERM IN THE TKE BUDGET ESTIMATED BY
THE WAVELET TRANSFORM
USING CASES-99 DATA. JOAN CUXART, UNIVERSITAT DE LES LLLES BALEARS,
PALMA DE MALLORCA, SPAIN; AND G. MORALES, E. TERRADELLAS, AND C. YAGUE
467 9.14 EFFECTS OF STABILITY AND FILTER SIZE ON MODEL COEFFICIENTS AND
INTERMITTENCY OF SUB-FILTER
FLUXES IN THE ATMOSPHERIC BOUNDARY LAYER. JAN KLEISSL, JOHNS HOPKINS
UNIV., BALTIMORE, MD; AND C. MENEVEAU AND M. B. PARLANGE
SESSION 10: STABLE BLS-I
469 10.1 INVESTIGATION OF EPISODIC ENHANCEMENT OF TURBULENCE IN THE
STABLE BOUNDARY LAYER USING LARGE-EDDY SIMULATION. RICHARD T. CEDERWALL,
LLNL, LIVERMORE, CA; AND R. L. STREET
473 10.2 ON THE PREDICTABILTY OF THE STABLE BOUNDARY LAYER AND THE ROLE
OF INITIAL CONDITIONS. RICHARD T. MCNIDER, UNIV. OF ALABAMA, HUNTSVILLE,
AL; AND X. SHI, D. E. ENGLAND, M. J. FRIEDMAN, AND W. B. NORRIS
477 10.3 INTERMITTENT TURBULENCE AND OSCILLATIONS IN THE STABLE BOUNDARY
LAYER: A SYSTEM DYNAMICS APPROACH. B. J. H. VAN DE WIEL, WAGENINGEN
UNIV., WAGENINGEN, THE NETHERLANDS; AND A. F. MOENE, 0. K. HARTOGENSIS,
R. J. RONDA, H. A. R. DE BRUIN, AND A. A. M. HOLTSLAG
481 10.4 SHALLOW SLOPE DENSITY CURRENTS DURING CASES-99: OBSERVATIONS
AND MODELING. GREGORY S. POULOS, COLORADO RESEARCH ASSOCIATES, BOULDER,
CO; AND J. K. LUNDQUIST, W. BLUMEN, AND S. NEUVILLE
10.5 INVESTIGATIONS OF STABLE BOUNDARY LAYERS AT SABLES AND B0RRIS95.
JAKOB MANN, RISA NATIONAL LABORATORY, ROSKILDE, DENMARK; AND H. E.
J0RGENSEN, S. LARSEN, AND J. CUXART
485 10.6 LIDAR OBSERVATIONS OF ENTRAINMENT ZONE STRUCTURE AT THE TOP OF
THE STABLE MARINE ATMOSPHERIC BOUNDARY LAYER. IAN M. BROOKS, SLO/UNIV.
OF CALIFORNIA, LA JOLLA, CA
SESSION 11: STABLE BLS--II
489 11.1 CONTRASTING VERTICAL STRUCTURES OF THE STABLE BOUNDARY LAYER.
LARRY MAHRT, OREGON STATE UNIV., CORVALLIS, OR; AND D. VICKERS
493 11.2 HEAT BALANCE IN NOCTURNAL BOUNDARY LAYERS. JIELUN SUN, NCAR,
BOULDER, CO; AND S. P. BURNS, A. C. DELANY, S. P. ONCLEY, T. W. HORST,
AND D. H. LENSCHOW
497 11.3 ANALYSIS TECHNIQUES FOR BOUNDARY-LAYER ATMOSPHERIC GRAVITY
WAVES. CARMEN J. NAPPO, NOAA/ARL/ATDD, OAK RIDGE, TN; AND R. K. NEWSOM
AND R. M. BANTA
501 11.4 FRONTAL GENERATION OF WAVES IN THE STABLE BOUNDARY LAYER:
CASES-99 OBSERVATIONS. JULIE K. LUNDQUIST, PAOS, UNIV. OF COLORADO,
BOULDER, CO
503 11.5 NOCTURNAL LLJ EVOLUTION AND ITS RELATIONSHIP TO TURBULENCE AND
FLUXES. ROBERT M. BANTA, NOAA/ETL, BOULDER, CO; AND R. K. NEWSOM, Y. L.
PICHUGINA, AND J. K. LUNDQUIST
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15 SYMPOSIUM ON BOUNDARY LAYERS AND TURBULENCE
11.6 SOME PROPERTIES OF INTERMITTENT TURBULENCE. J. CHRISTOPHER DORAN,
PNNL, RICHLAND, WA
508 11.7 THE BLOBS AND OTHER ADVECTIVE HORRORS OF NORTHERN WISCONSIN.
KENNETH J. DAVIS, PENN STATE UNIV., UNIVERSITY PARK, PA; AND P. S.
BAKWIN, B. D. COOK, M. D. HURWITZ, D. M. RICCIUTO, W. WANG, AND C. YI
11.8 TOWARD LARGE-EDDY SIMULATIONS OF STRONGLY-STRATIFIED ATMOSPHERIC
BOUNDARY LAYERS. BRANKO KOSOVIC, UNIV. OF COLORADO, BOULDER, CO; AND G.
POULOS
SESSION 12: COUPLED SURFACE-BL STUDIES
512 12.1 SPATIAL HETEROGENEITY OF THE SOIL MOISTURE CONTENT AND ITS
IMPACT ON THE SURFACE FLUX DENSITIES AND THE ATMOSPHERIC BOUNDARY LAYER.
REINDER J. RONDA, METEOROLOGY AND AIR QUALITY GROUP, WAGENINGEN UNIV.,
WAGENINGEN, THE NETHERLANDS; AND B. J. J. M. VAN DEN HURK AND A. A. M.
HOLTSLAG
516 12.2 IMPACT OF SOIL MOISTURE ON BOUNDARY-LAYER CLOUD DEVELOPMENT.
MICHAEL EK,
NOAA/NWS/NCEP/EMC, SUITLAND, MD; AND A. A. M. HOLTSLAG
520 12.3 MODELING THE LOCAL CLIMATOLOGY OF MIXING LAYER HEIGHTS OVER TWO
MIDLATITUDE HARDWOOD FORESTS. HONG-BING SU, INDIANA UNIV., BLOOMINGTON,
IN; AND C. S. B. GRIMMOND
524 12.4 COMPARISON OF OBSERVED AND MODELED SURFACE FLUXES OF HEAT FOR
THE VOLTA RIVER BASIN. DIRK
BUROSE, METEOROLOGY AND AIR QUALITY GROUP, WAGENINGEN UNIV., WAGENINGEN,
THE NETHERLANDS; AND A. F. MOENE AND A. A. M. HOLTSLAG
12.5 MASS TRANSPORT IN SNOW SALTATION. JUDITH J. J. DOORSCHOT, SWISS
FEDERAL INSTITUTE FOR SNOW AND
AVALANCHE RESEARCH, DAVOS DORF, SWITZERLAND; AND M. LEHNING
528 12.6 INTEGRATING SURFACE AND BOUNDARY LAYER OBSERVATIONS OF C02
EXCHANGE IN HETEROGENEOUS LANDSCAPES: EXPERIENCES FROM THE RECAB
CAMPAIGN IN THE THE NETHERLANDS. RONALD W. A.
HUTJES, ALTERRA GREEN WORLD RESEARCH, WAGENINGEN, THE NETHERLANDS; AND
B. GIOLI, M. SCHUMACHER, H. TER MAAT,
H. DOLMAN, F. C. BOSVELD, A. VERMEULEN, AND J. VILA
532 12.7 APPLICATION OF SURFACE LAYER SIMILARITY THEORY TO CARBON
DIOXIDE, MOISTURE AND TEMPERATURE. J. VILA-GUERAU DE ARELLANO,
METEOROLOGY AND AIR QUALITY GROUP, WAGENINGEN UNIV., WAGENINGEN, THE
NETHERLANDS; AND 0. K. HARTOGENSIS, A. T. VERMEULEN, F. C. BOSVELD, W.
KOHSIEK, AND A. A. M.
HOLTSLAG
535 12.8 APPLYING LAGRANGIAN DISPERSION ANALYSIS TO THE EXCHANGE OF
WATER AND SENSIBLE HEAT
WITHIN A CEREALE CROP CANOPY: A SENSITIVITY STUDY AND COMPARISON WITH
LEAF LEVEL MEASUREMENTS. ERIC SIMON, MAX PLANCK INSTITUTE FOR CHEMISTRY,
MAINZ, GERMANY; AND 0 AMMANN, J. BUSCH, F. X. MEIXNER, AND J.
KESSELMEIER
POSTER SESSION P5: ABL PARAMETERIZATIONS; MARINE BLS
539 P5.1 OBSERVATION OF ATMOSPHERIC BOUNDARY LAYER AND TURBULENCE
ACTIVITY OVER THE OCEAN SURFACE USING SYNTHETIC APERTURE RADAR. PABLO
CLEMENTE-COLON, NOAA/NESDIS, CAMP SPRINGS, MD
P5.2 PAPER WITHDRAWN
P5.3 SINGLE COLUMN MODEL EVALUATIONS OF LOWER-ORDER PLANETARY BOUNDARY
LAYER
PARAMETERIZATIONS IN THE ARCTIC. JEFFREY D. MIROCHA, UNIV. OF COLORADO,
BOULDER, CO; AND J. A. CURRY
543 P5.4 TURBULENCE PARAMETERIZATIONS AND SCALE DEPENDENCE OF TURBULENT
STATISTICS. MICHELLE K.
WHISENHANT, NPS, MONTEREY, CA; AND Q. WANG, S. WANG, AND J. D. DOYLE
547 P5.5 SOME IMPROVEMENTS TO LOUIS SURFACE FLUX PARAMETERIZATION,
SHOUPING WANG, NRL, MONTEREY,
CA; AND Q. WANG AND J. D. DOYLE
*
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15 SYMPOSIUM ON BOUNDARY LAYERS AND TURBULENCE
EMI
P5.6 THE EFFECT OF SEA STATE ON THE MOMENTUM EXCHANGE OVER THE SEA
DURING NEUTRAL
CONDITIONS. XIAOLI GUO LARSEN, UPPSALA UNIV., UPPSALA, SWEDEN; AND U.
H6GSTR6M AND A.-S. SMEDMAN
P5.7 TRANSITION FROM UNSTABLE TO STABLE PBL IN THE COASTAL REGION
OBSERVED BY SAR. RALPH C.
FOSTER, APL/ UNIV. OF WASHINGTON, SEATTLE, WA; AND D. C. VANDEMARK, H.
L. STERN, L. MAHRT, AND P. D. MOURAD
551 P5.8 INTERCOMPARISON OFTHREE SEA SURFACE ROUGHNESS SCHEMES USING
BUOY DATA. QING WANG, NPS,
MONTEREY, CA; AND Z. GAO AND S. WANG
555 P5.9 MODELLING THEATMOSPHERIC BOUNDARY LAYER IN A CLIMATE MODEL OF
INTERMEDIATE COMPLEXITY.
REINDER J. RONDA, METEOROLOGY AND AIR QUALITY GROUP, WAGENINGEN UNIV.,
WAGENINGEN, THE NETHERLANDS; AND R. J. HAARSMA AND A. A. M. HOLTSLAG
558 P5.10 IMPROVEMENT OF THE K-PROFILE MODEL FOR THE PLANETARY BOUNDARY
LAYER BASED ON URGE
EDDY SIMULATION DATA. WOO-GEUN CHEON, YONSEL UNIV., SEOUL, KOREA; AND Y,
NOH, S.-Y. HONG, AND S. RAASCH
P5.11 AN ANALYTIC MODEL OF THE INFLUENCE OF WATER CHEMISTRY ON THE
AIR-SEA EXCHANGE COEFFICIENT
OF COR HANS E. JARGENSEN, RLSA NATIONAL LABORATORY, ROSKLLDE, DENMARK;
AND S. LARSEN, A. BORGES, AND M. FRANKIGNOULLE
560 P5.12 AN EVALUATION OF BOUNDARY LAYER AND LAND SURFACE
PARAMETERIZATIONS USING DATA FROM THE VTMX FIELD CAMPAIGN IN THE SALT
LAKE CITY VALLEY. SHLYUAN ZHONG, PNNL, RICHLAND, WA; AND J. D. FAST
564 P5.13 CLEAR-AIR TURBULENCE PARAMETERISATION FOR LONG-RANGE
APPLICATIONS OF A LAGRANGIAN PARTICLE MODEL. PETRA SEIBERT, UNIV. OF
AGRICULTURAL SCIENCES, VIENNA, AUSTRIA; AND A. FRANK
P5.14 DISSIPATION PARAMETRIZATION IN KINETIC ENERGY EQUATION. VALERY N.
KHOKHLOV, ODESSA STATE ECOLOGICAL UNIV., ODESSA, UKRAINE
P5.15 DOES THE HEIGHT OF THE BOUNDARY LAYER INFLUENCE THE TURBULENCE
STRUCTURE NEAR THE SURFACE OVER THE BALTIC SEA? CECILIA JOHANSSON,
UPPSALA UNIV., UPPSALA, SWEDEN; AND A.-S. SMEDMAN
P5.16 HEIGHT VARIATION OF TURBULENT PARAMETERS IN THE MARINE ATMOSPHERIC
BOUNDARY LAYER DUE TO WAVE INFLUENCE. ANNA SJDBLOM, UPPSALA UNIV.,
UPPSALA, SWEDEN; AND A.-S. SMEDMAN
POSTER SESSION P6: BLS OVER HETEROGENEOUS SURFACES; COUPLED SURFACE-BL
STUDIES
566 P6.1 INFLUENCE OF A SMALL-SCALE TOPOGRAPHY ON THE DYNAMICS OF
ATMOSPHERIC BOUNDARY LAYER FLOWS USING GRID-NESTING APPROACH. THIBAULD
PSNELON, CNRS, NANTES, FRANCE; AND I. CALMET AND P. G. MESTAYER
568 P6.2 SURFACE BOUNDARY LAYER EXCHANGE OF NITRIC OXIDE, NITROGEN
DIOXIDE, AND OZONE OVER A BRAZILIAN PASTURE. GRANT A. KIRKMAN, MAX
PLANCK INSTITUTE FOR CHEMISTRY, MAINZ, GERMANY; AND C. AMMANN AND F. X.
MEIXNER
572 P6.3 SURFACE WIND HETEROGENEITY FOR CASES-99. SAM S. CHANG, ARMY
RESEARCH LABORATORY, ADELPHI, MD; AND D. M. GARVEY, G. HUYNH, AND C. C.
WILLIAMSON
576 P6.4 TAKING A CLOSER LOOK AT THE TURBULENCE IN A HIGHER-ORDER
CLOSURE MESOSCALE MODEL STEFAN SODERBERG, STOCKHOLM UNIV., STOCKHOLM,
SWEDEN; AND M, TJERNSTROM AND I. M. BROOKS
580 P6.5 USING THE INVERSE METHOD TO OBTAIN AREA AVERAGED TURBULENT
FLUXES FROM AIRBORNE MEASUREMENTS AT ONE LOW ALTITUDE. PETER ZITTEL,
AEROSPACE SYSTEMS, BRAUNSCHWEIG, GERMANY; AND W. DEIERLING AND J. BANGE
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15 SYMPOSIUM ON BOUNDARY LAYERS AND TURBULENCE
PAGE
P6.6 THE TURBULENT CHARACTERISTICS IN THE SURFACE LAYER OVER MOVABLE
DUNE AND CORNFIELD AT NAIMAN IN INNER MONGOLIA. LIU HUIZHI, INSTITUTE OF
ATMOSPHERIC PHYSICS, CHINESE ACADEMY OF SCIENCES, BEIJING, CHINA
582 P6.7 TURBULENT FORM DRAG ON ANISOTROPIC THREE-DIMENSIONAL OROGRAPHY.
ANDREW R. BROWN, MET OFFICE, BRACKNELL, BERKS., UK; AND N. WOOD AND M.
ATHANASSIADOU
586 P6.8 TURBULENT TRANSFER EFFICIENCY OF MOMENTUM, HEAT, VAPOR, AND C02
MEASURED IN THE URBAN SURFACE LAYER OVER A DENSELY BUILT-UP CANOPY. RYO
MORIWAKI, TOKYO INSTITUTE OF TECHNOLOGY, TOKYO, JAPAN; AND M. KANDA AND
T. WATANABE
588 P6.9 SURFACES TEMPERATURE AND TURBULENT PROPERTIES OF HEAT TRANSFER
WITHIN THE URBAN ROUGHNESS SUB-LAYER. SHLOMI PISTINNER, ISRAEL INSTITUTE
FOR BIOLOGICAL RESEARCH, NES-ZIONA, ISRAEL; AND E. FATTAL AND E. GAVZE
592 P6.10 TURBULENCE OBSERVATIONS AT THE EDGE OF A CLIFF. OTAVIO C.
ACEVEDO, UNIVERSIDADE FEDERAL DE SANTA MARIA, SANTA MARIA, RS, BRAZIL;
AND 0. L. L. MORAES AND R. DA SILVA
596 P6.11 SPECTRAL TRANSFER OF TEMPERATURE CORRELATION FOR INHOMOGENEOUS
TURBULENCE. SUKARAN RAM PATEL, UNIVERSIDADE FEDERAL DA PARAFBA, CAMPINA
GRANDE, BRAZIL
P6.12 PAPER WITHDRAWN
598 P6.13 A NUMERICAL INVESTIGATION OF IMPACT OF T-HEXACHLOROCYCLOHEXANE
ON THE GREAT LAKES AND ST. LAWRENCE ECOSYSTEM. SREERAMA M. DAGGUPATY,
MSC, DOWNSVIEW, ON, CANADA; AND J. MA
602 P6.14 CHARACTERIZING TURBULENT TRACE GAS EXCHANGE ABOVE A DENSE
TROPICAL RAIN FOREST USING WAVELET AND SURFACE RENEWAL ANALYSIS. UDO
RUMMEL, MAX PLANCK INSTITUTE FOR CHEMISTRY, MAINZ, GERMANY; AND C.
AMMANN AND F. X. MEIXNER
606 P6.15 COASTAL SMALL-SCALE VARIABILITY OF THE SURFACE TURBULENT
MOMENTUM FLUX. MARK ZAGAR, STOCKHOLM UNIV., STOCKHOLM, SWEDEN; AND G.
SVENSSON AND M. TJERNSTROM
610 P6.16 DAYTIME BOUNDARY LAYER HEIGHTS OVER THE ALPS. AN OBSERVATIONAL
AND NUMERICAL STUDY.
STEPHAN F. J. DE WEKKER, UNIV. OF BRITISH COLUMBIA, VANCOUVER, BC,
CANADA; AND D. G. STEYN AND S. NYEKI
P6.17 DISPERSIVE VS. LOCAL TURBULENCE STATISTICS WITHIN THE URBAN
ROUGHNESS SUBLAYER. EHUD
GAVZE, IIBR, NES-ZIONA, ISRAEL; AND E. FATTAL AND S. PISTINNER
614 P6.18 INTERACTION BETWEEN WIND AND TEMPERATURE FIELDS UNDER THE
HETEROGENEOUS HEAT FLUX IN
THE PLANETARY BOUNDARY LAYER. HYOUNG-JIN KIM, YONSEI UNIV., SEOUL,
KOREA; AND Y. NOH AND S. RAASCH
616 P6.19 INTERNAL BOUNDARY LAYERAND EVAPORATION FROM LAKES. SERGIY A.
SAVELYEV, YORK UNIV., TORONTO, ON, CANADA; AND P. A. TAYLOR
620 P6.20 ON MODELLING THE 1-D ATMOSPHERIC BOUNDARY LAYER. WENSONG WENG,
YORK UNIV., TORONTO, ON, CANADA; AND P. A. TAYLOR
SESSION 13: ATMOSPHERIC BOUNDARY LAYER PARAMETERIZATIONS FROM MESOSCALE
TO MACROSCALE
622 13.1 BAROCLINIC EKMAN LAYER. SERGEJ S. ZILITINKEVICH, UPPSALA UNIV.,
UPPSALA, SWEDEN; AND I. N. ESAU
624 13.2 A SIMPLE AND GENERAL SUBGRID MODEL SUITABLE BOTH FOR SURFACE
LAYER AND FREE-STREAM TURBULENCE. J.-L. REDELSPERGER, CNRM, TOULOUSE,
FRANCE; AND P. CARLOTTL AND F. MANE
13.3 PAPER WITHDRAWN
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628 13.4
*
13.5
632 13.6
15 SYMPOSIUM ON BOUNDARY LAYERS AND TURBULENCE
AN INTEGRAL MIXING LENGTH SCALE FORMULATION FOR A TKE-L TURBULENCE
CLOSURE IN ATMOSPHERIC MODELS. GEERT LENDERINK, KNMI, DE BILT, THE
NETHERLANDS
IMPLEMENTATION OF A NEW PARAMETERIZATION APPROACH FOR CLOUD-TOPPED
BOUNDARY LAYERS IN MM5 AND CCM. CHRISTOPHER S. BRETHERTON, UNIV. OF
WASHINGTON, SEATTLE, WA; AND J. R. MCCAA AND H. GRENIER
EVALUATION OF MARINE BOUNDARY LAYER PARAMETERIZATIONS IN COAMPS USING
THE JES EXPERIMENT DATA SET. KONSTANTINOS RADOS, NPS, MONTEREY, CA; AND
Q. WANG, J. KALOGLROS, S. WANG, D. KHELIF, AND C. FRIEHE
636 13.7 EVALUATION OF MESOSCALE MODEL FORECASTS OF BOUNDARY LAYER
PROPERTIES OVER THE PACIFIC
NORTHWEST. JAMES R. MCCAA, APL, UNIV. OF WASHINGTON, SEATTLE, WA; AND R.
C. FOSTER, S. A. FERGUSON, AND C. F. MASS
638 13.8 OBSERVED AND SIMULATED TURBULENCE KINETIC ENERGY AND
DISSIPATION PROFILES IN AN URBAN
VALLEY DURING VTMX 2000. JEROME D. FAST, PNNL, RICHLAND, WA; AND W. J.
SHAW
SESSION 14: THE MARINE BL
642 14.1 SCALAR FLUX PROFILE RELATIONSHIPS FOR WATER VAPOR OVER THE OPEN
OCEAN. JAMES B. EDSON, WHOI, WOODS HOLE, MA; AND C. ZAPPA AND W. R.
MCGILLLS
14.2 VELOCITY SPECTRA IN THE MARINE ATMOSPHERIC BOUNDARY LAYER. ANN-SOFI
SMEDMAN, UPPSALA UNIV., UPPSALA, SWEDEN; AND A. SJBBLOM
646 14.3 EDDY CORRELATION MEASUREMENTS OF WAVE-INDUCED STRESS USING
INSTRUMENTS MOUNTED ON A
WAVE FOLLOWER. COR M. J. JACOBS, KNMI, DE BLLT, THE NETHERLANDS; AND W.
A. OOST, C. VAN OORT, AND E. WORRELL
14.4 IMPACTS OF HIGH-RESOLUTION SEA SURFACE TEMPERATURE DATA ON MARINE
BOUNDARY LAYER
STRUCTURE SIMULATED BY THE NAVY S COAMPS. SHOUPING WANG, NRL, MONTEREY,
CA; AND J. D. DOYLE, Q. WANG, AND J. CUMMINGS
14.5 NUMERICAL SIMULATIONS OF CLOUDS GENERATED BY MID-WINTER ARCTIC
LEADS AND THEIR EFFECT ON LARGE-SCALE SURFACE FLUXES. STEVEN K. KRUEGER,
UNIV. OF UTAH, SALT LAKE CITY, UT; AND M. A. ZULAUF
650 14.6 SEA-TO-AIR EXCHANGE OF DIMETHYLSULFIDE. HENK J. ZEMMELINK,
UNIV. OF GRONINGEN, HAREN, THE NETHERLANDS; AND H. W. J. DE BAAR, J. W.
H. DACEY, E. J. HINSTA, AND W. R. MCGILLIS
SESSION 15: BOUNDARY LAYERS OVER HETEROGENEOUS SURFACES
653 15.1 FLUXES OVER A HETEROGENEOUS LAND SURFACE: RESULTS AND
PERSPECTIVES OF THE UTFASS PROGRAM. FRANK BEYRICH, GERMAN METEOROLOGICAL
SERVICE, LINDENBERG, GERMANY; AND S. H. RLCHTER, U. WEISENSEE, H.-J.
HERZOG, H. A. R. DE BRUIN, AND W. M. L. MEIJNINGER
655 15.2 FLOW AND DRAG MECHANISMS RESULTING. FROM THE INTERACTION OF
GRAVITY WAVES WITH A TURBULENT BOUNDARY LAYER. MARIA ATHANASSIADOU, MET
OFFICE, BRACKNELL, BERKS., UK; AND A. R. BROWN
659 15.3 DEPENDENCE OF REGIONAL MIXING-HEIGHT DIFFERENCES ON
BOUNDARY-LAYER WIND SPEED. ROBERT M. BANTA, NOAA/ETL, BOULDER, CO; AND
A. B. WHITE AND W. M. ANGEVINE
660 15.4 LANDSCAPE HETEROGENEITY AND REGIONAL CLIMATIC VARIABILITY IN
THE EAST CENTRAL AMAZON REGION. DAVID R. FITZJARRALD, UNIV. AT ALBANY,
SUNY, ALBANY, NY; AND 0. L. L. MORAES, R. K. SAKAI, R. M. STAEBLER, 0.
C. ACEVEDO, M. CZIKOWSKY, AND R. DA SILVA
662 15.5 TURBULENT AND RADIATIVE FLUX DIVERGENCES IN COLD POOLS THAT
FORM WITHIN A HIGH-ELEVATION BASIN. C. DAVID WHITEMAN, PNNL, RICHLAND,
WA; AND C. B. CLEMENTS AND J. D, HOREL
*
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15 SYMPOSIUM ON BOUNDARY LAYERS AND TURBULENCE
666 15.6 LOCAL SCALING OF TURBULENCE IN THE STABLE INTERNAL BOUNDARY
LAYER AROUND A COASTAL HEADLAND. STEFAN SODERBERG, STOCKHOLM UNIV.,
STOCKHOLM, SWEDEN; AND I. M. BROOKS AND M. TJERNSTROM
670 15.7 LES OF THE ATMOSPHERIC BOUNDARY LAYER OVER HETEROGENEOUS
SURFACES USING A DYNAMIC
LAGRANGIAN SGS MODEL. ELIE BOU-ZEID, JOHNS HOPKINS UNIV., BALTIMORE, MD;
AND M. PARLANGE AND C. MENEVEAU
672 15.8 LARGE-EDDY SIMULATIONS OF THERMALLY INDUCED OSCILLATIONS IN THE
CONVECTIVE BOUNDARY LAYER. MARCUS OLIVER LETZEL, UNIV. OF HANNOVER,
HANNOVER, GERMANY; AND S. RAASCH
676 15.9 THE INFLUENCE OF LARGE-SCALE SOIL MOISTURE HETEROGENEITY ON
WETTING AND DRYING
PLANETARY BOUNDARY LAYERS. EDWARD G. PATTEN, NCAR, BOULDER, CO; AND P.
P. SULLIVAN AND C.-H. MOENG
680 15.10 USING FINE SCALE VEGETATION, SOIL AND SATELLITE MAPPING TO
INVESTIGATE THE IMPACT OF HETEROGENEOUS LAND SURFACES IN CSIRO CLIMATE
MODELS. PETER J. LAWRENCE, UNIV. OF QUEENSLAND, BRISBANE, QUEENSLAND,
AUSTRALIA
15.11 STATISTICAL PROPERTIES AND CHARACTERISTICS OF BOUNDARIES IN THE
ABL. HALDUN KARAN, UNIV. OF
ALABAMA, HUNTSVILLE, AL; AND K. KNUPP
684 15.12 TURBULENT PROPERTIES OF MOMENTUM TRANSFER WITHIN THE URBAN
ROUGHNESS SUBLAYER. EHUD GAVZE, IIBR, NES-ZIONA, ISRAEL; AND E. FATTAL
AND S. PISTINNER
688 15.13 EFFECTS OF LAND-USE CHANGE ON LOCAL ENERGY, WATER AND CARBON
BALANCES IN AN AMAZONIAN PASTURE. RICARDO K. SAKAI, SUNY, ALBANY, NY;
AND D. R. FITZJARRALD, 0. L. L. MORAES, 0. C. ACEVEDO, M. CZIKOWSKY, R.
SILVA, R. STAEBLER, K. E. MOORE, AND D. SPIESS
*
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|
| any_adam_object | 1 |
| author_corporate | Symposium on Boundary Layers and Turbulence Wageningen |
| author_corporate_role | aut |
| author_facet | Symposium on Boundary Layers and Turbulence Wageningen |
| author_sort | Symposium on Boundary Layers and Turbulence Wageningen |
| building | Verbundindex |
| bvnumber | BV014603699 |
| callnumber-first | Q - Science |
| callnumber-label | QC880 |
| callnumber-raw | QC880.4.B65 |
| callnumber-search | QC880.4.B65 |
| callnumber-sort | QC 3880.4 B65 |
| callnumber-subject | QC - Physics |
| classification_rvk | RB 10426 |
| ctrlnum | (OCoLC)50796807 (DE-599)BVBBV014603699 |
| discipline | Geographie |
| format | Conference Proceeding Book |
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| genre | (DE-588)1071861417 Konferenzschrift 2002 Wageningen gnd-content |
| genre_facet | Konferenzschrift 2002 Wageningen |
| id | DE-604.BV014603699 |
| illustrated | Illustrated |
| indexdate | 2024-07-09T19:04:13Z |
| institution | BVB |
| institution_GND | (DE-588)10043311-X |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-009926934 |
| oclc_num | 50796807 |
| open_access_boolean | |
| owner | DE-703 |
| owner_facet | DE-703 |
| physical | XXIX, 691 S. graph. Darst. |
| publishDate | 2002 |
| publishDateSearch | 2002 |
| publishDateSort | 2002 |
| record_format | marc |
| spelling | Symposium on Boundary Layers and Turbulence 15 2002 Wageningen Verfasser (DE-588)10043311-X aut 15th Symposium on Boundary Layers and Turbulence 15 - 19 July, 2002 Wageningen, the Netherlands sponsored by American Meteorological Society Fifteenth Symposium on Boundary Layers and Turbulence Boston, Mass. 2002 XXIX, 691 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Atmospheric turbulence Congresses Boundary layer (Meteorology) Congresses Turbulente Grenzschicht (DE-588)4137846-5 gnd rswk-swf (DE-588)1071861417 Konferenzschrift 2002 Wageningen gnd-content Turbulente Grenzschicht (DE-588)4137846-5 s DE-604 GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=009926934&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | 15th Symposium on Boundary Layers and Turbulence 15 - 19 July, 2002 Wageningen, the Netherlands Atmospheric turbulence Congresses Boundary layer (Meteorology) Congresses Turbulente Grenzschicht (DE-588)4137846-5 gnd |
| subject_GND | (DE-588)4137846-5 (DE-588)1071861417 |
| title | 15th Symposium on Boundary Layers and Turbulence 15 - 19 July, 2002 Wageningen, the Netherlands |
| title_alt | Fifteenth Symposium on Boundary Layers and Turbulence |
| title_auth | 15th Symposium on Boundary Layers and Turbulence 15 - 19 July, 2002 Wageningen, the Netherlands |
| title_exact_search | 15th Symposium on Boundary Layers and Turbulence 15 - 19 July, 2002 Wageningen, the Netherlands |
| title_full | 15th Symposium on Boundary Layers and Turbulence 15 - 19 July, 2002 Wageningen, the Netherlands sponsored by American Meteorological Society |
| title_fullStr | 15th Symposium on Boundary Layers and Turbulence 15 - 19 July, 2002 Wageningen, the Netherlands sponsored by American Meteorological Society |
| title_full_unstemmed | 15th Symposium on Boundary Layers and Turbulence 15 - 19 July, 2002 Wageningen, the Netherlands sponsored by American Meteorological Society |
| title_short | 15th Symposium on Boundary Layers and Turbulence |
| title_sort | 15th symposium on boundary layers and turbulence 15 19 july 2002 wageningen the netherlands |
| title_sub | 15 - 19 July, 2002 Wageningen, the Netherlands |
| topic | Atmospheric turbulence Congresses Boundary layer (Meteorology) Congresses Turbulente Grenzschicht (DE-588)4137846-5 gnd |
| topic_facet | Atmospheric turbulence Congresses Boundary layer (Meteorology) Congresses Turbulente Grenzschicht Konferenzschrift 2002 Wageningen |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=009926934&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
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