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Reviewed Publications
Preprints
Presentations
Books
Book Chapters
Theses & Dissertations
Reports
Other Selected Papers
RAMS pubs : 1 | 2 | 3
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Rams Publications
Page 1
Roni
Avissar (avissar@duke.edu)
http://www.cee.duke.edu/faculty/avissar/index.php
Roni Avissar
W.H. Gardner Professor and Chair
Department of Civil and Environmental Engineering, Pratt School of Engineering,
Duke University
Box 90287 Hudson Hall • Durham, NC 27708-0287 • Phone: (919)
660-5200 • Fax: (919) 660-5219
Avissar,
R., and F. Chen, 1993. Development and analysis of prognostic equations
for mesoscale kinetic energy and mesoscale (subgrid-scale) fluxes for
large-scale atmospheric models. J. Atmos. Sci., 50:3751-3774.
Chen, F.
and R. Avissar, 1994. The impact of land-surface wetness heterogeneity
on mesoscale heat fluxes. J. Appl. Meteor., 33:1323-1340.
Chen, F.
and R. Avissar, 1994. Impact of Land-Surface Moisture Variability on Local
Shallow Convective Cumulus and Precipitation in Large-Scale Models. J.
Appl. Meteor., 33:1382-1401.
Liu, Y.,
and R. Avissar, 1996. Sensitivity of shallow convective clouds and precipitation
induced by land-surface forcings to dynamical and cloud microphysics parameters.
J. Geophys. Res., 101:7477-7497.
Avissar,
R. and Y. Liu, 1996. A three-dimensional numerical study of shallow convective
clouds and precipitation induced by land-surface forcing. J. Geophys.
Res., 101:7499-7518.
Avissar,
R., E.W. Eloranta, K. Gurer, and G.J. Tripoli, 1998. An Evaluation of
the Large-Eddy Simulation Option of the Regional Atmospheric Modeling
System in Simulating a Convective Boundary Layer: A FIFE Case Study. J.
Atmos. Sci., 55(7):1109-1130.
Avissar,
R. and T. Schmidt, 1998. An evaluation of the scale at which ground-surface
heat flux patchiness affects the convective boundary layer using a Large-Eddy
Simulation model. J. Atmos. Sci., 55(16):2666-2689.
Liu, Y.,
C.P. Weaver, and R. Avissar, 1999. Towards the parameterization of convection
induced by landscape heterogeneity in GCMs. J. Geophys. Res., 104:19515-19533.
Gopalakrishnan,
S., S. Baidya Roy and R. Avissar, 2000. An evaluation of the scale at
which topographical features affect the convective boundary layer using
large-eddy simulations. J. Atmos. Sci., 57:334-351.
Gopalakrishnan,
S. and R. Avissar, 2000. Dispersion of passive materials in the convective
boundary layer above heterogeneous landscape using large-eddy simulations
and a Lagrangian Particle Dispersion Model. J. Atmos. Sci., 57:352-371.
Avissar,
R. and H. Pan, 2000. Simulations of the summer hydrometeorological processes
of Lake Kinneret. J. Hydrometeorol., 1:95-109.
Baidya Roy,
S., and R. Avissar, 2000. Scales of response of the convective boundary
layer to land-surface heterogeneity. Geophys. Res. Lett., 27:533-536.
Weaver, C.P.
and R. Avissar, 2001: Atmospheric Disturbances Caused by Human Modification
of the Landscape. Bull. Amer. Meteor. Soc. 82:269-281.
Robert
Buckley (robert.buckley@srs.gov)
Buckley,
R. L., and R. J. Kurzeja, 1997: An observational and numerical study of
the nocturnal sea breeze. Part I. Structure and circulation. JAM, 36 (12),
1577-1598.
Buckley,
R. L., and R. J. Kurzeja, 1997: An observational and numerical study of
the nocturnal sea breeze. Part II. Chemical transport. JAM, 36 (12), 1599-1619.
O'Steen,
B. L., 2000: Numerical simulation of nocturnal drainage flows in an idealized
valley-tributary system. JAM, 39 (11), 1845-1860.
Dr.
Xiaoming Cai, Senior Lecturer
School of Geography and Environmental Sciences
University of Birmingham
Edgbaston, Birmingham
B15 2TT United Kingdom
Tel: 44 (121) 414-5533 (O)
Fax: 44 (121) 414-5528
Email: x.cai@bham.ac.uk
which will be directed to the alternative: caix@isdugp.bham.ac.uk
Cai, X.-M.
and D.G. Steyn, 2000: Modelling study of sea breezes in a complex coastal
environment, Atmospheric Environment, 34, 2873-2885.
Cai, X.-M.,
D.G. Steyn, 2000: A Numerical Study of Meteorological Conditions during
PACIFIC ^Ò93, Atmosphere and Ocean, 38, 457-479.
Cai, X.-M.,
2000: Dispersion of a passive plume in an idealised urban convective boundary
layer: a large-eddy simulation, Atmospheric Environment, 34, 61-72.
Cai, X.-M.,
1999: Large-eddy simulation of the urban convective boundary layer, Quart.
J. Meteorol. Soc., 125, 1427-1444.
Batchvarova,
E., X.-M. Cai, S.-E. Gryning, D.G. Steyn, 1999: Modelling internal boundary
layer development in a region with complex coastline. Boundary-Layer Meteorology,
90, 1-20.
Cai, X.-M.
and D.G. Steyn, 1996: The von Kármán constant determined by large eddy
simulation, Boundary-Layer Meteorology, Vol.78, 143-164.
Cai, X.-M.,
D.G. Steyn and I.S. Gartshore, 1995: Resolved scale turbulence in the
atmospheric surface layer from a large eddy simulation, Boundary-Layer
Meteorology, Vol.75, 301-314.
http://web.bham.ac.uk/caix
P.W.
Chan (pwchan@hko.gov.hk)
Hong Kong
Observatory
Mail address: 134A Nathan Road, Kowloon, Hong Kong.
Telephone: (852) 2926 8331 (direct)
Fax: (852) 2375 2645 or (852) 2723 0165
URL: http://www.weather.gov.hk/
K.C. Szeto,
and P. W. Chan, 2005: High resolution numerical modelling of windshear
episodes at the Hong Kong International Airport (HKIA). 12th Conference
on Aviation Range and Aerospace Meteorology, The 86th AMS Annual Meeting,
Atlanta, GA, 23-31 January 2006.
Abstract
Will
Cheng (cheng@atmos.colostate.edu)
Colorado State University
Fort Collins, Colorado 80523
Wu, T., W.R.
Cotton, and W.Y.Y. Cheng (2000): Radiative effects on the diffusional
growth of ice particles in cirrus clouds. J. Atmos. Sci., Vol. 57, 2892-2904.
Available at AMS website
Cheng, W.Y.Y.,
T. Wu, and W.R. Cotton (2001): Large-eddy simulations of the 26 November
1991 FIRE II cirrus case. J. Atmos. Sci., In press.
Charlie
Cohen (charlie.cohen@msfc.nasa.gov)
Cohen, C.,
2000: A quantitative investigationof entrainment and detrainment in numerically
simulated cumuonimbus clouds. J. Atmos.Sci., 57, 1657-1674.
Available
at the AMS website
Jeff
Copeland (j.copeland@niwa.cri.nz)
R.P. Ibbitt,
R.D. Henderson, J. Copeland, D.S. Wratt, 2001. Simulating mountain runoff
with a meso-scale weather model rainfall estimates: a New Zealand experience.
Journal of Hydrology, 239, 19-32.
Maria
Silva Dias (mafdsdia@model.iag.usp.br)
Longo, K.,
A.M. Thompson, V.W.J.H. Kirchhoff, L.A. Remer, S. R. Freitas, M.A.F.Silva
Dias, P. Artaxo, W. Hart, J.D. Spinhirne, M.A. Yamasoe, 1998: Correlation
between smoke and tropospheric ozone concentrations in Cuiabá during SCAR-B.
Journal of Geophysical Research, 104, D10, 12113-12129.
Dolman, A.J.,
M.A.F. Silva Dias, J-C, Calvet, M. Ashby, A.S. Tahara, C. Delire, P. Kabat,
G. F. Fisch, C. A. Nobre, 1999: Meso-scale effects of tropical deforestation
in Amazonia: preparatory LBA modelling studies. Annales Geophysicae, 17,
1095-1110
Freitas,
S. R. M. A. F. Silva Dias, P. L. Silva Dias, K. M. Longo, P. Artaxo, M.
O. Andreae, H. Fischer, 2000: A Convective Kinematic Trajectory Technique
for Low Resolution Atmospheric Models. Journal of Geophysical Research,
105, D19, 24,375-24,386.
Freitas,
S. R., K. M. Longo, M.A.F.Silva Dias, P. Artaxo, 1996: Numerical modeling
of air mass trajectories from the biomass burning areas of the Amazon
Basin. Proceedings of the Brazilian Academy of Sciences, v.68, (Supl 1),
193-206.
Silva Dias,
M. A. F. e A. J. Machado, 1997: The role of local circulations in summertime
convective development and nocturnal fog in São Paulo, Brazil. Boundary-Layer
Meteorology, 82, 1, 135-157
Jerome
D. Fast (Jerome.Fast@pnl.gov)
Fast, J.
D., J. C. Doran, W. J. Shaw, R. L. Coulter, and T. J. Martin, 2000: The
evolution of the boundary layer and its effect on air chemistry in the
Phoenix area. J. Geophys. Res., 22833-22848.
Whiteman,
C. D., S. Zhong, X. Bian, J. D. Fast, and J. C. Doran, 1999: Boundary
layer evolution and regional-scale dirunal circulations over the Mexican
basin. J. Geophys. Res., 105, 10081-10102.
Berkowitz,
C. M., and J. D. Fast, and R. C. Easter, 1999: Boundary-layer vertical
exchange processes and the mass budget of ozone: Observations and model
results. J. Geophys. Res., 105, 14789-14805.
Fast, J.
D. and S. Zhong, 1998: Meteorological factors associated with inhomogeneous
ozone concentrations within the Mexico City basin. J. Geophys. Res., 103,
18927-18946.
Spicer, C.
W., E. G. Chapman, B. J. Finlayson-Pitts, R. A. Plastridge, J. M. Hubbe,
J. D. Fast, and C. M. Berkowitz, 1998: Observations of molecular chlorine
in coastal air. Nature, 394, 352-356.
Berkowitz,
C. M., J. D. Fast, S. Springston, R. Larson, C. Spicer, and P.
Doskey, 1998: Formation mechanisms and chemical characteristics of elevated
photochemical layers over the United States. J. Geophys. Res., 103, 10631-10647.
De Wekker,
S. F. J., S. Zhong, J. D. Fast, and C. D. Whiteman, 1998: A numerical
investigation of the plain-to-basin wind. J. Appl. Meteor., 37, 606-622.
Fast, J.
D. and C. M. Berkowitz, 1997: Evaluation of back trajectories associated
with ozone transport during the 1993 North Atlantic Regional Experiment.
Atmos. Environ., 31, 825-837.
Fast, J.
D. and C. M. Berkowitz, 1996: A modeling study of boundary-layer processes
associated with ozone layers observed during the 1993 North Atlantic Regional
Experiment. J. Geophys. Res., 101, 28683-28699.
Fast, J.
D., S. Zhong, and C. D. Whiteman, 1996: Boundary layer evolution within
a canyonland basin: Part II. Numerical simulations of nocturnal flows
and heat budgets. J. of Appl. Meteor., 35, 2162-2178.
Zhong, S.,
J. D. Fast, and X. Bian, 1996: A case study of strong summertime Great
Plains low-level jet using a high resolution mesoscale model and data
from wind profiler network. Mon. Wea. Rev. 124, 785-806.
Fast, J.
D., 1995: Mesoscale modeling in areas of highly complex terrain employing
a four-dimensional data assimilation technique. J. of Appl. Meteor., 34,
2762-2782.
Fast, J.
D., R. P. Addis, and B. L. O'Steen, 1995: Advanced atmospheric modeling
for emergency response. J. of Appl. Meteor., 34, 626-649.
Saulo
Ribeiro de Freitas (sfreitas@clio.arc.nasa.gov)
Earth Science
Division
NASA Ames Research Center: MS 245-4
Moffett Field, CA 94035-1000
PHONE: 650-604-0127
FAX: 650-604-3625
Freitas,
S.R., M.A.F. Silva Dias, P.L. Silva Dias, K.M. Longo, P. Artaxo, M.O.
Andreae, and H. Fischer, 2000: A convective kinematic trajectory technique
for low-resolution atmospheric models. J. Geophys. Res., 105, 24375.
Peter
L. Jackson, PhD (peterj@unbc.ca)
Associate Professor
Environmental Studies Program
Faculty of Natural Resources and Environmental Studies
College of Science and Management
University of Northern British Columbia
Prince George, British Columbia
CANADA V2N 4Z9
Office:
Administration Building 3058
Tel: (250) 960-5985
Fax: (250) 960-5539
URL: http://nimbus.unbc.ca/~peterj
Tory, K.,
P.L. Jackson, and C.J.C. Reason, 2001: Sensitivity of CTD dynamics to
barrier height and topographic variability in a numerical model. submitted
to Mon. Wea. Rev. in revised form.
Reason, C.J.C.,
K. Tory, and P.L. Jackson, 2001: A model investigation of the dynamics
of a Coastally Trapped Disturbance. J. Atmos. Sci. in press.
Tory, K.,
C.J.C. Reason, and P.L. Jackson, 2001: A numerical study of a southeast
Australian coastally trapped disturbance. Mon. Wea. Rev., 129, 437-452.
Nuss, W.A.,
J. Bane, W. Thompson, C. Dorman, M. Ralph, R. Rotunno, J. Klemp, W. Skamarock,
R. Samelson, A. Rogerson, C.J.C. Reason, and P.L. Jackson, 2000: Coastally
trapped wind reversals: A new level of understanding from the experiment
on coastally trapped disturbances. Bull. Amer. Meteor. Soc., 81, 719-743.
Reason, C.J.C.,
P.L. Jackson, and H. Fu, 2000: Influence of large valleys on the propagation
of coastally trapped disturbances and applications to forecasting and
air quality. Meteor. Applications, 7, 247-259.
Reason, C.J.C.,
K. Tory, and P.L. Jackson, 1999: Evolution of a southeast Australian coastally
trapped disturbance. Meteor. Atmos. Phys., 70, 141-165.
Jackson,
P.L., C.J.C. Reason, and S. Guan 1999: Numerical modeling of a coastal
trapped disturbance. Part II: Structure and dynamics. Mon. Wea. Rev.,
127, 535-550.
Guan, S.,
P.L. Jackson, and C.J.C. Reason, 1998: Numerical modeling of a coastal
trapped disturbance. Part I: Comparison with observations. Mon. Wea. Rev.
126(4) , 972-990.
Jackson,
P.L. and D.G. Steyn. (1994). Gap winds in a fjord. Part I: Observations
and numerical simulation. Mon. Wea. Rev., 122, 2645-2665.
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