Poster Session 10 |
| | Supercells and Tornadoes Posters III |
| | | P10.1 moved. New paper number P8.29
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| | P10.1 | Using new technologies for damage surveys
John T. Ferree, NOAA/NWS, Norman, OK; and R. Smith and J. Robinson |
| | P10.2 | Forest damage associated with tornadoes in northern Arizona 
David O. Blanchard, NOAA/NWS, Flagstaff, AZ |
| | P10.3 | The mystery of the Saragosa, Texas tornadoes: Was Saragosa hit by tornadoes multiple times prior to the 1987 tornado?
Mark R. Conder, NOAA/NWSFO, Lubbock, TX; and G. Skwira |
| | P10.4 | Taxonomy and analysis of tornado surface marks
M. I. Zimmerman, West Virginia Univ., Morgantown, WV; and D. C. Lewellen |
| | P10.5 | On the performance of brick and concrete masonry in windstorms
Timothy P. Marshall, Haag Engineering Co., Irving, TX |
| | P10.6 | In Situ and radar observations of low-level winds in tornadoes
Joshua Wurman, Center for Severe Weather Research, Boulder, CO; and K. A. Kosiba and P. Robinson |
| | P10.7 | A comparison of radar observations to real data simulations of axisymmetric tornadoes
Karen A. Kosiba, Center for Severe Weather Research, Boulder, CO; and R. J. Trapp |
| | P10.8 | Investigations of Cai's Power Law for Strong Tornados
Douglas P. Dokken, University of St. Thomas, St. Paul, MN; and K. Scholz and M. Shvartsman |
| | P10.9 | Statistical Mechanics of Tornado Intensity Distributions
Masahisa Nakazato, MRI, Tsukuba, Ibaraki, Japan; and O. Suzuki, K. Kusunoki, H. Yamauchi, and H. Y. Inoue |
| | P10.10 | An anticyclonic tornado observed 10 May 2010 with CASA radar
J. Brotzge, CAPS/Univ. of Oklahoma, Norman, OK; and L. R. Lemon |
| | P10.11 | Analysis of near-surface wind flow in close proximity to tornadoes
Christopher D. Karstens, Iowa State University, Ames, IA; and T. M. Samaras, W. A. Gallus Jr., C. A. Finley, and B. D. Lee |
| | P10.12 | A new parametric model of vortex tangential wind-profile: Testing and verification
Vincent T. Wood, NOAA/NSSL, Norman, OK; and L. W. White |
| | P10.13 | Exploring Doppler radar estimates of tornado intensity
Mallie Toth, Purdue University, West Lafayette, IN; and R. J. Trapp, J. Wurman, and K. A. Kosiba |
| | P10.14 | Two tornadic thunderstorms in ostensibly weak deep layer shear environments in southeastern Colorado: cyclic supercells of May 25 (Kiowa County) and May 31 (Baca County) 2010
John P. Monteverdi, San Francisco State Univ., San Francisco, CA; and M. Umscheid and E. M. Bookbinder |
| | P10.15 | Numerical simulation of low-level misocyclones associated with winter convective cells: a case study from the Shonai area railroad weather project
Ken-ichi Shimose, MRI, Tsukuba, Japan; and S. Hayashi, W. Mashiko, K. Kusunoki, K. Bessho, S. Hoshino, K. Araki, H. Y. Inoue, M. Nakazato, Y. Hono, T. Imai, K. Adachi, H. Yamauchi, and T. Takemi |
| | P10.16 | Case of rapid tornado development from a cell with maximum reflectivity of 40dBz
Paul G. Wolyn, NOAA/NWSFO, Pueblo, CO |
| | P10.17 | Impact of lapse rates upon low-level rotation in idealized storms
Matthew D. Parker, North Carolina State Univ., Raleigh, NC |
| | P10.18 | Origins of the Granite Falls, MN Tornado, July 25, 2000 Revisited
Douglas P. Dokken, University of St. Thomas, St. Paul, MN; and L. Edholm, J. Nelson, K. Scholz, P. Shanahan, K. Weise, R. Naistat, and W. E. Togstad |
| | P10.19 | Characteristics of supercells simulated with tornadic and non-tornadic RUC-2 proximity soundings. Part III: Comparisons at tornado-resolving gridspacing
Jason Naylor, University of North Dakota, Grand Forks, ND ; and M. S. Gilmore, R. Edwards, and R. L. Thompson |