Add to ORKGProbabilities for various types of severe weather (thunder, hail, tornadoes, and heavy raindays) have been determined as a function of the maximum daily cloud top height observed by weather radars. The probabilities are based on data collected during March through August, 1971-1973, and in a 25,000 mi2 (66,000 km2) area in central Illinois. [The data and analysis were described by R. C. Grosh in Relationships between Severe Weather and Echo Tops in Central Illinois, published in Preprint Volume, Tenth Conference on Severe Local Storms, AMS, Boston, 1977.]published or submitted for publicationis peer reviewe
This thesis is broken into three parts, examining three distinct hazards that often accompany severe...
Small-scale (2–20 km) circulations, termed ‘severe deep moist convective storms’, account for a disp...
Forecasting the onset of severe convective weather across the High Plains can be difficult. Topograp...
Probabilities for various types of severe weather (thunder, hail,tornadoes, and heavy raindays) have...
Reprinted from Bulletin of the American Meteorological Society, v.36, no. 10, December, 1955
Discusses key findings over 30 years of radar detection of thunderstorms, hail, tornadoes, and heavy...
The probability of nontornadic severe weather event reports near any location in the United States f...
Probabilities provide a means of quantifying both the likelihood of a particular meteorological even...
This report provides a summary of available information on heavy rainstorms in Illinois obtained fro...
A 5-year radar climatology of summer season (May-Sept.) thunderstorm and intense thunderstorm daysfo...
The preconvective environment on days with ordinary, widespread, and severe thunderstorms in Southwe...
Forecasters across the country routinely make subjec-tive assessments of convective potential for th...
The amount of forecast skill involved when issuing tornado and severe thunderstorm warnings is close...
This study examines the relationship between severe weather and organized lines of cumulus towers, c...
A 5-yr climatology of elevated severe convective storms was constructed for 1983–87 east of the Rock...
This thesis is broken into three parts, examining three distinct hazards that often accompany severe...
Small-scale (2–20 km) circulations, termed ‘severe deep moist convective storms’, account for a disp...
Forecasting the onset of severe convective weather across the High Plains can be difficult. Topograp...
Probabilities for various types of severe weather (thunder, hail,tornadoes, and heavy raindays) have...
Reprinted from Bulletin of the American Meteorological Society, v.36, no. 10, December, 1955
Discusses key findings over 30 years of radar detection of thunderstorms, hail, tornadoes, and heavy...
The probability of nontornadic severe weather event reports near any location in the United States f...
Probabilities provide a means of quantifying both the likelihood of a particular meteorological even...
This report provides a summary of available information on heavy rainstorms in Illinois obtained fro...
A 5-year radar climatology of summer season (May-Sept.) thunderstorm and intense thunderstorm daysfo...
The preconvective environment on days with ordinary, widespread, and severe thunderstorms in Southwe...
Forecasters across the country routinely make subjec-tive assessments of convective potential for th...
The amount of forecast skill involved when issuing tornado and severe thunderstorm warnings is close...
This study examines the relationship between severe weather and organized lines of cumulus towers, c...
A 5-yr climatology of elevated severe convective storms was constructed for 1983–87 east of the Rock...
This thesis is broken into three parts, examining three distinct hazards that often accompany severe...
Small-scale (2–20 km) circulations, termed ‘severe deep moist convective storms’, account for a disp...
Forecasting the onset of severe convective weather across the High Plains can be difficult. Topograp...