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Suggested Citation:"References." National Research Council. 1990. Advancing the Understanding and Forecasting of Mesoscale Weather in the United States. Washington, DC: The National Academies Press. doi: 10.17226/18569.
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Page 38
Suggested Citation:"References." National Research Council. 1990. Advancing the Understanding and Forecasting of Mesoscale Weather in the United States. Washington, DC: The National Academies Press. doi: 10.17226/18569.
×
Page 39
Suggested Citation:"References." National Research Council. 1990. Advancing the Understanding and Forecasting of Mesoscale Weather in the United States. Washington, DC: The National Academies Press. doi: 10.17226/18569.
×
Page 40
Suggested Citation:"References." National Research Council. 1990. Advancing the Understanding and Forecasting of Mesoscale Weather in the United States. Washington, DC: The National Academies Press. doi: 10.17226/18569.
×
Page 41
Suggested Citation:"References." National Research Council. 1990. Advancing the Understanding and Forecasting of Mesoscale Weather in the United States. Washington, DC: The National Academies Press. doi: 10.17226/18569.
×
Page 42

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References Abbs, D.J., and R.A. Pielke. 1986. Thermally forced surface flow and convergence patterns over northeast Colorado. Man. Wea. Rev. 114:2281-2296. American Meteorological Society (AMS). 1988. The changing atmosphere—Challenges and opportunities. Bull Am. MeteoroL Soc. 69:1434-1440. Anthes, R.A., and TT. Warner. 1978. Development of hydrodynamical models suitable for air pollution and other mesometeorological studies. Man. Wea. Rev. 705:1045-1078. Anthes, R.A., E.-Y. Hsie, and Y.-H. Kuo. 1987. Description of the Penn State/NCAR mesoscale model version 4 (MM4). NCAR Tech. Note NCAR/TN-282+STR, National Center for Atmospheric Research, Boulder, Colo. 66 pp. Aviation Weather Forecasting Task Force (AWFTF). 1986. Final Report of the Aviation Weather Forecasting Task Force. Final Report to FAA and NWS under Contract No. DTFA01-84-Z-2051. Research Applications Program, National Center for Atmospheric Research, Boulder, Colo. 87 pp. Chan, J.G-L., B.J. Williams, and R.L. Elsberry. 1987. Performance of the Nested Tropical Cyclone Model as a function of five storm-related parameters. Man. Wea. Rev. 115:123&-1252. Daley, R.C., C Girard, J. Henderson, and I. Simmonds. 1976. Short-term forecasting with a multi-level spectral primitive equation model. Part 1: Model formulation. Atmosphere 14:98-116. Dudek, M.P. 1988. A numerical study of the formation of mesoscale convection complexes. Ph.D. dissertation, State University of New York at Albany. Dudek, M.P., and J. Molinari. 1988. A numerical investigation of the formation of a mesoscale convective complex. Preprints, Eighth Conference on Numerical Weather Prediction, February 22-26, Baltimore, Md., pp. J149-J1S6. American Meteorological Society, Boston, Mass. Gerrity, J.P., J.H. Ward, D.G. Deaven, and G. DiMego. 1988. An assessment of the impact of dropwindsonde data on the prediction of hurricane tracks using the MFM model. Preprints, Eighth Conference on Numerical Weather Prediction, February 22-26, Baltimore, Md., pp. 591-598. American Meteorological Society, Boston, Mass. Harrison, Jr., EJ. 1973. Three-dimensional numerical simulations of tropical systems utilizing nested finite grids. / Atmits. ScL 50:1528-1543. 38

39 Harrison, Jr., E J., and M. Fiorino. 1982. A comprehensive test of the Navy nested tropical cyclone model. Mm. Wea. Rev. 770:645-650. Hodur, R.M. 1987. Evaluation of a regional model with an update cycle. Man. Wea. Rev. 775:2707-2718. Hodur, R.M. 1988. Tropical cyclone track prediction in a regional model. Preprints, Eighth Conference on Numerical Weather Prediction, February 22-26, Baltimore, Mil, pp. 585-590. American Meteorological Society, Boston, Mass. Hsie, E.-Y. 1987. MM4 (Penn State/NCAR) mesoscale model version 4 documentation. NCAR Tech. Note NCAR/TN-293+STR, National Center for Atmospheric Research, Boulder, Colo. 215 pp. Hsu, H. 1987. Mesoscale lake-effect snowstorms in the vicinity of Lake Michigan: Linear theory and numerical simulations. / Aonos. ScL 44:1019-1040. Kalb, M.W. 1987. The role of convective parameterization in the simulation of a Gulf Coast precipitation system. Man. Wea. Rev. 775:214-234. Kaplan, M.L., J.W. Zack, V.C. Wong, and J.J. 'lucillo. 1982. Initial results from a mesoscale atmospheric simulation system and comparisons with the AVE-SESAME I data set. Man. Wea. Rev. 770:1564-1590. Klemp, J.B., and R.B. Wilhelmson. 1978. The simulation of three dimensional convective storm dynamics. / Aonos. ScL 55:1070-10%. Koch, S.E. 1985. Ability of a regional scale model to predict the genesis of intense mesoscale convective systems. Man. Wea. Rev. 775:1693-1713. Kocin, P.J., L.W Uccellini, J.W. Zack, and M.L. Kaplan. 1985. A mesoscale numerical forecast of an intense convective snowburst along the East Coast. Hull. Am. MeteoroL Soc. (5(5:1412-1424. Kurihara, Y., and R.E. Tuleya. 1981. A numerical simulation study on the genesis of a tropical storm. Man. Wea. Rev. 709:1629-1653. Lipps, F.B., and R.S. Hemler. 1986. Numerical simulation of deep tropical convection associated with large-scale convergence. / Aonos. ScL 43:1796-1816. Liu, M.-K., TC Myers, and J.L. McElroy. 1979. Numerical modeling of land and sea breeze circulation along a complex coastline. Mathematics and Computers in Simulation 27:359-367. Lyons, W.A., D.A. Moon, C.S. Keen, J.A. Schuh, R.A Pielke, W.R. Cotton, and R. Arritt. 1988. Providing operational guidance for the development of sea breeze thunderstorms at the Kennedy Space Center An experiment using a mesoscale numerical model. Preprints, Eighth Conference on Numerical Weather Prediction, February 22-26, Baltimore, Md., pp. J125-J132. American Meteorological Society, Boston, Mass. Madala, R.V., S.W. Chang, U.C Mohanty, S.C Madan, RK. Paliwal, VB. Sarin, T Holt, and S. Raman. 1987. Description of the Naval Research Laboratory limited area dynamical weather prediction model. NRL Technical Report No. 5992, Washington, D.C. 131 pp. Manobianco, J. 1988. Numerical experimentation of explosive East Coast c.yclogcnesis: The sensitivity of bomb forecasts to upstream data analysis. Preprints, Eighth Conference on Numerical Weather Prediction, February 22-26, Baltimore, Md., pp. 682-688. American Meteorological Society, Boston, Mass. Mass, CE, and D.P. Dempsey. 1985. A one-level, mesoscale model for diagnosing surface winds in mountainous and coastal regions. Man. Wea. Rev. 775:1211-1227. McGinley, J.A., and J.S. Goerss. 1986. Effects of terrain height and blocking initialization on numerical simulation of Alpine lee cyclogenesis. Man. Wea. Rev. 774:1578-1590. Mesinger, F., Z. Janjic, S. Nickovic, D. Gavrilov, and D. Deaven. 1988. The step-mountain coordinate: model description and performance for cases of Alpine cyclogenesis and for a case of Appalachian redevelopment. Man. Wea. Rev. 776:1493. Modica, G. 1987. The impact on short-term precipitation forecast skill of time-dependent lateral and lower boundary conditions within a meso-beta numerical cloud prediction model. Proc. International Symposium on Mesoscale Analysis and Forecasting, August 17-19, Vancouver, B.C., European Space Agency SP-282, pp. 521-525. Moore, G.E., C. Daly, and M.-K. Liu. 1987. Modeling of mountain-valley wind fields in the Southern San Joaquin Valley, California. J. Climate AppL MeteoroL 2<5:1230-124Z

40 Mudrick, S.E. 1982. A study of the adequacy of quasi-geostrophic dynamics for modeling the effect of cyclone waves on the large scale flow. J. Atmos. ScL 59:2414-2430. Mudrick, S.E. 1967. Numerical simulation of polar lows and comma clouds using simple dry models. Man. Wea. Rev. 775:2890-2903. Murphy, J.I)., and J.M. Fritsch. 1989. Multiple production of mesoscale convective systems by a convectively generated mesoscale vortex. Preprints, Twelfth Conference on Weather Analysis and Forecasting, October 26, 1989, Monterey, Calif., pp. 68-73. American Meteorological Society, Boston, Mass. National Center for Atmospheric Research (NCAR). 1984. STORM-Central Phase Prelim- inary Program Design. Boulder, Colo. 147 pp. National Center for Atmospheric Research (NCAR). 1990. STORM Program Plan. STORM Project Office. Boulder, Colo. 181 pp. National Oceanic and Atmospheric Administration (NOAA). 1976. Project Severe En- vironmental Storms and Mesoscale Experiment: Project Development Plan. U.S. Department of Commerce, National Oceanic and Atmospheric Administration, Envi- ronmental Research Laboratories, Boulder, Colo. 60 pp. National Research Council (NRC). 1981. Current Mesoscale Meteorological Research in the United States. Committee on Atmospheric Sciences, National Academy Press, Washington, D.C. 33 pp. National Research Council (NRC). 1988. Meteorological Support for Space Operations: Review and Recommendations. Board on Atmospheric Sciences and Climate, National Academy Press, Washington, D.C 77 pp. National Science Foundation (NSF). 1987. The Atmospheric Sciences: A Vision for 1989- 1994. Report of the NSF-UCAR Long-Range Planning Committee. National Science Foundation, Washington, D.C. 48 pp. Nickerson, E.C, E. Richard, R. Rosset, and D.R. Smith. 1986. The numerical simulation of clouds, rain and airflow over the Vosges and Black Forest Mountain: A meso-/? model with parameterized microphysics. Man. Wea. Rev. 774:398-414. Orlanski, I., and J.J. Katzfey. 1987. Sensitivity of model simulations for a coastal cyclone. Man. Wea. Rev. 775:2792-2821. Orlanski, I., and JJ. Katzfey. 1988. Sensitivity of numerical simulations of the Presidents' Day snowstorm. Preprints, Eighth Conference on Numerical Weather Prediction, February 22-26, Baltimore, Md., pp. 674-681. American Meteorological Society, Boston, Mass. Patniak, P., and B. Freeman. 1983. Improved simulations of mesoscale meteorology. Science Applications, Inc., ASL-CR-83-0127-1, U.S. Army Atmospheric Science Laboratory, White Sands Missile Range, N.M. Pease, S.R., W.A Lyons, C.S. Keen, and M. Hjelmfelt. 1988. Mesoscale spiral vortex embedded within a Lake Michigan snow squall band: High resolution satellite observations and numerical model simulations. Mon. Wea. Rev. 776:1374-1380. Perkey, DJ. 1976. A description and preliminary results from a fine-mesh model for forecasting quantitative precipitation. Mon. Wea. Rev. 104:1513-1526. Phillips, N.A. 1979. The nested grid model. NOAA Tech. Rep. NWS 22, Department of Commerce, Silver Spring, Md. 80 pp. Pielke, R.A. 1974. A three-dimensional numerical model of the sea breezes over south Florida. Mon. Wea. Rev. 702:115-139. Pielke, R.A. 1984. Mesoscale Meteorological Madeling. Academic Press, New York. 612 pp. Ross, B.B. 1987. The role of low-level convergence and latent heating in a simulation of observed squall line formation. Man. Wea. Rev. 775:2298-2321. Sasaki, Y., and J.S. Goerss. 1982. Satellite data assimilation using NASA Data Systems Test 6 observations. Mon. Wea. Rev. 770:1635-1644. Sashegyi, K.D., and R.V. Madala. 1988. Initialization experiments with the NRL mesoscale numerical model. Preprints, Eighth Conference on Numerical Weather Prediction, February 22-26, Baltimore, Md., pp. 778-781. American Meteorological Society, Boston, Mass. Soong, S.-T, and Y. Ogura. 1980. Response of trade-wind cumuli to large scale processes. / Atmos. ScL 37:2035-2050.

41 Tao, W.-K., and S.T Soong. 1986. The study of the response of deep tropical clouds to mesoscale process: Three-dimensional numerical experiments. J. Atmos. ScL 43:2653-2616. Tao, W.-K., J. Simpson, and M. McCumber. 1988. Budget study of a mesoscale convective ts system: model simulation. Preprints, Eighth Conference on Numerical Weather d Prediction, February 22-26, Baltimore, Md., pp. J157-J160. American Meteorological 5 Society, Boston, Mass. Tripoli, G.J., and W.R. Cotton. 1989a. A numerical study of an observed orogenic mesoscale convective system. Part 1: Simulated genesis and comparison with observations. Man. Wea. Rev. 117:Jan. Issue. Tripoli, G.J., and WR. Cotton. 1989b. A numerical study of an observed orogenic mesoscale convective system. Part 2: Analysis of governing dynamics. Man. Wea. Rev. 117:Jan. i- Issue. S, Tuccillo, JJ. 1988. Parameterization of physical processes in NMCs nested grid model. i- Preprints, Eighth Conference on Numerical Weather Prediction, February 22-26, Baltimore, Md., pp. 238-242. American Meteorological Society, Boston, Mass. t Tuleya, R.E. 1988. A numerical study of the genesis of tropical storms observed during the ( FGGE Year. Mon. Wea. Rev. 776:1188-1208. Uccellini, L.W., R.A. Petersen, K.F. Brill, P.J. Kocin, and JJ. Tuccillo. 1987. Synergistic i interactions between an upper-level jet streak and diabatic processes that influence the s development of a low-level jet and secondary cyclone. Man. Wea. Rev. 775:2227-2261. University Corporation for Atmospheric Research (UCAR). 1982. The National STORM Program: Framework for a Plan. University Corporation for Atmospheric Research, Boulder, Colo. 21 pp. University Corporation for Atmospheric Research (UCAR). 1983a. The National STORM Program: Scientific and Technological Bases and Major Objectives. University Corporation for Atmospheric Research, Boulder, Colo. 499 pp. University Corporation for Atmospheric Research (UCAR). 1983b. The National STORM Program: A Call to Action. University Corporation for Atmospheric Research, Boulder, Colo. 34 pp. Weisman, M.L., J.B. Klemp, and R. Rotunno. 1988. Structure and evolution of numerically simulated squall lines. / Atmos. ScL 45:1990-2013. Williams, M.D., R.M. Cionco, and WD. Ohmstede. 1986. Construction and validation of a meso/microscale meteorological model. Proc. 79th APCA Annual Meeting, Air Pollution Control Association, Pittsburgh, Pa. Zack, J.W., V.M. Karyampudi, and CA. Mattocks. 1988. Meso beta scale simulations of convective cloud systems over Florida utilizing synthetic data derived from GOES satellite imagery. Preprints, Eighth Conference on Numerical Weather Prediction, February 22-26, Baltimore, Md., pp. 293-300. American Meteorological Society, Boston, Mass. Zhang, D.-L., and J.M. Fritsch. 1986. Numerical simulation of the meso-/?-scale structure and evolution of the 1977 Johnstown flood. Part I: Model description and verification. / Atmos. ScL 43:1913-1943.

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