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Hugh Stone (1985)
A comparison among various thermodynamic parameters for the prediction of convective activity. Part II
G. Brier, R. Allen (1951)
Verification of Weather Forecasts
W. Saucier (1955)
Principles of meteorological analysis
D. Lilly (1986)
The Structure, Energetics and Propagation of Rotating Convective Storms. Part II: Helicity and Storm StabilizationJournal of the Atmospheric Sciences, 43
R. Maddox (1976)
An Evaluation of Tornado Proximity Wind and Stability DataMonthly Weather Review, 104
R. Johns, C. Doswell (1992)
Severe Local Storms ForecastingWeather and Forecasting, 7
H. Fuelberg, D. Biggar (1994)
The Preconvective Environment of Summer Thunderstorms over the Florida PanhandleWeather and Forecasting, 9
M. Moncrieff, M. Miller (1976)
The dynamics and simulation of tropical cumulonimbus and squall linesQuarterly Journal of the Royal Meteorological Society, 102
J. Osborn, F. Mosteller, J. Tukey (1978)
Data Analysis and Regression, 141
C. Doswell, R. Davies-Jones, D. Keller (1990)
On Summary Measures of Skill in Rare Event Forecasting Based on Contingency TablesWeather and Forecasting, 5
David Bolton (1980)
The Computation of Equivalent Potential TemperatureMonthly Weather Review, 108
A. Modahl (1979)
Synoptic Parameters as Discriminators between Hailfall and Less Significant Convective Activity in Northeast ColoradoJournal of Applied Meteorology, 18
C. Neumann (1971)
The Thunderstorm Forecasting System at the Kennedy Space CenterJournal of Applied Meteorology, 10
R. Rotunno, J. Klemp (1982)
The Influence of the Shear-Induced Pressure Gradient on Thunderstorm MotionMonthly Weather Review, 110
T. Andersson, M. Andersson, C. Jacobsson, Stefan Nilsson (1989)
THERMODYNAMIC INDEXES FOR FORECASTING THUNDERSTORMS IN SOUTHERN SWEDENMeteorological Magazine, 118
C. Doswell (1987)
The Distinction between Large-Scale and Mesoscale Contribution to Severe Convection: A Case Study ExampleWeather and Forecasting, 2
H. Bluestein, Michael Jain (1985)
Formation of Mesoscale Lines of Pirecipitation: Severe Squall Lines in Oklahoma during the SpringJournal of the Atmospheric Sciences, 42
Rodger Brown (1993)
A Compositing Approach for Preserving Significant Features in Atmospheric ProfilesMonthly Weather Review, 121
M. Weisman, J. Klemp (1982)
The Dependence of Numerically Simulated Convective Storms on Vertical Wind Shear and BuoyancyMonthly Weather Review, 110
R. Peppler, P. Lamb (1989)
Tropospheric Static Stability and Central North American Growing Season RainfallMonthly Weather Review, 117
R. Houze, B. Smull, P. Dodge (1990)
Mesoscale Organization of Springtime Rainstorms in OklahomaMonthly Weather Review, 118
L. Mahrt (1977)
Influence of Low-Level Environment on Severity of High-Plains Moist ConvectionMonthly Weather Review, 105
R. Davies-Jones (1984)
Streamwise Vorticity: The Origin of Updraft Rotation in Supercell StormsJournal of the Atmospheric Sciences, 41
R. Reap, D. Foster (1979)
Automated 12–36 Hour Probability Forecasts of Thunderstorms and Severe Local StormsJournal of Applied Meteorology, 18
C. Newton (1967)
Severe Convective StormsAdvances in Geophysics, 12
A. Moller, C. Doswell, Michael Foster, Gary Woodall (1994)
The Operational Recognition of Supercell Thunderstorm Environments and Storm StructuresWeather and Forecasting, 9
C. Jacovides, T. Yonetani (1990)
An evaluation of stability indices for Thunderstorm prediction in greater cyprusWeather and Forecasting, 5
P. Schultz (1989)
Relationships of Several Stability Indices to Convective Weather Events in Northeast ColoradoWeather and Forecasting, 4
James Wilson, W. Schreiber (1986)
Initiation of Convective Storms at Radar-Observed Boundary-Layer Convergence LinesMonthly Weather Review, 114
Robert Lee, Jeffrey Passner (1993)
The Development and Verification of TIPS: An Expert System to Forecast Thunderstorm OccurrenceWeather and Forecasting, 8
A. Showalter (1953)
A stability index for thunderstorm forecastingBulletin of the American Meteorological Society, 34
C. Mueller, James Wilson, N. Crook (1993)
The Utility of Sounding and Mesonet Data to Nowcast Thunderstorm InitiationWeather and Forecasting, 8
J. Stackpole (1967)
Numerical Analysis of Atmospheric SoundingsJournal of Applied Meteorology, 6
H. Huntrieser (1995)
Zur Bildung, verteilung und Vorhersage von Gewittern in der Schweiz
A. Rockwood, R. Maddox (1988)
Mesoscale and Synoptic Scale Interactions Leading to Intense Convection: The Case of 7 June 1982Weather and Forecasting, 3
C. Doswell, J. Flueck (1989)
Forecasting and Verifying in a Field Research Project: DOPLIGHT '87Weather and Forecasting, 4
I. Orlanski (1975)
A rational subdivision of scales for atmospheric processesBulletin of the American Meteorological Society, 56
M. McCoy (1986)
Severe-Storm-Forecast Results from the PROFS 1983 Forecast Experiment1Bulletin of the American Meteorological Society, 67
H. Schiesser, R. Houze, H. Huntrieser (1995)
The Mesoscale Structure of Severe Precipitation Systems in SwitzerlandMonthly Weather Review, 123
The preconvective environment on thunderstorm days in Switzerland north of the Alps has been investigated during a 5-yr period (1985–89). Thermodynamic and kinematic parameters calculated from the radiosounding in Payerne (started at 0000 and 1200 UTC) were used to characterize the initiation of convection. The best parameters were evaluated by using three methods: 1) skill scores, 2) probability distributions, and 3) mean temperature soundings and hodographs. For the decision whether a thunderstorm day was expected or not, the best results were obtained at 0000 UTC with the original Showalter index and at 1200 UTC with the SWEAT index. In addition, to decide whether an isolated or widespread thunderstorm day was expected, the most successful parameter was the modified CAPE CCL . Furthermore, the best thermodynamic and kinematic parameters were combined to create new thunderstorm indices, similar to the calculations of the SWEAT index in the United States. The new thunderstorm indices especially designed for northern Switzerland were jointly called the “SWISS index” (combined stability and wind shear index for thunderstorms in Switzerland). All of the traditional and new indices were verified with independent data from 3 yr (1990, 1992, and 1993), showing the best results for the new combined indices.
Weather and Forecasting – American Meteorological Society
Published: Aug 21, 1995
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