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Scott C. Runyon and Lance F. Bosart

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Presentation on theme: "Scott C. Runyon and Lance F. Bosart"— Presentation transcript:

1 A Statistical Analysis and Synoptic Climatology of Heat Waves over the Northeast United States
Scott C. Runyon and Lance F. Bosart Department of Earth and Atmospheric Sciences, University at Albany, State University of New York

2 Source: www.nws.noaa.gov/om/severe_weather/65yrstats.pdf
Overview/Motivation Heat waves are a major contributor to weather-related fatalities From 1986 to 2004: Severe weather event # of fatalities Hurricanes* 323 Tornadoes 960 Lightning 1081 Floods 1575 Extreme heat 2596 Source:

3 Overview/Motivation (cont.)
Improved forecasting may result from a better understanding of conditions antecedent to and during heat waves These improved forecasts may become critical given the possibility of an increase in frequency & intensity of heat waves

4 Overview/Motivation (cont.)
Previous work has largely focused only on individual events (e.g., McQueen et al. 1956, 1957; Livezey and Tinker 1996) or on extended “heat wave–droughts” (e.g., Namias 1982, 1991) Published synoptic climatologies have been limited in scope to “Midwest” or Great Plains (e.g., Namias 1955, 1983; Chang & Wallace 1984)

5 Goals Resolve annual and decadal trends in heat wave frequency nationwide Investigate conditions that lead to onset of Northeast heat waves Understand synoptic evolution of and dynamic contributions to Northeast heat waves

6 Overview Methodology Initial Revised Results
Northeast vs. regional heat wave statistics Northeast summer heat wave composites Antecedent conditions Evolution of heat waves Conclusions

7 Methodology Temperature data were gathered from the National Climatic Data Center’s (NCDC) high resolution surface dataset Daily high temperatures were extracted for 54 surface stations over a 54-year period (1948–2001) Stations selected on basis of both dataset continuity and coverage within the NCDC’s Standard Regions for temperature and precipitation

8

9 Methodology (cont.) An anomalously hot day was initially defined as a day having a high temperature ≥ 2 standard deviations (σ) above the normal* high temperature Result: Large variability in number of anomalous warm events between stations Extreme ratios of anomalously hot days to anomalously cold days at many stations

10 Methodology (cont.) This initial method led to a discovery:
High temperatures at most stations are not normally distributed (“skewed”) Negatively Skewed Positively Skewed DEN 94.2 5.8 LAX 5.7 94.3

11 Temperature data is widely assumed to be normally distributed
Methodology (cont.) Temperature data is widely assumed to be normally distributed Los Angeles, CA and Denver, CO: Most positively and negatively skewed datasets, respectively Using 2σ method 989 (49) anomalously hot days were found in Los Angeles (Denver) for all seasons

12 Most Positively Skewed Station: Los Angeles, CA
Methodology (cont.) Most Positively Skewed Station: Los Angeles, CA

13 Los Angeles, CA: Daily High Temperatures
Methodology (cont.) Los Angeles, CA: Daily High Temperatures Mean +2σ Mean Mean −2σ June 1 – August 31, 1948 – 2001

14 H L Los Angeles, CA: Composite Mean Sea Level Pressure (hPa) – Ten Most Anomalous Warm Summer Days

15 Los Angeles, CA: Daily High Temperatures
Methodology (cont.) Los Angeles, CA: Daily High Temperatures September 1 – November 30, 1948 – 2001

16 H L Los Angeles, CA: Composite Mean Sea Level Pressure (hPa) – Ten Most Anomalous Warm Autumn Days

17 Los Angeles, CA: Daily High Temperatures
Methodology (cont.) Los Angeles, CA: Daily High Temperatures December 1 – February 29, 1948 – 2001

18 H L Los Angeles, CA: Composite Mean Sea Level Pressure (hPa) – Ten Most Anomalous Warm Winter Days

19 Los Angeles, CA: Daily High Temperatures
Methodology (cont.) Los Angeles, CA: Daily High Temperatures March 1 – May 31, 1948 – 2001

20 H L Los Angeles, CA: Composite Mean Sea Level Pressure (hPa) – Ten Most Anomalous Warm Spring Days

21 Most Negatively Skewed Station: Denver, CO
Methodology (cont.) Most Negatively Skewed Station: Denver, CO

22 Denver, CO: Daily High Temperatures
Methodology (cont.) Denver, CO: Daily High Temperatures Mean +2σ Mean Mean −2σ June 1 – August 31, 1948 – 2001

23 H L Denver, CO: Composite Mean Sea Level Pressure (hPa) – Ten Most Anomalous Cold Summer Days

24 Denver, CO: Daily High Temperatures
Methodology (cont.) Denver, CO: Daily High Temperatures September 1 – November 30, 1948 – 2001

25 H L Denver, CO: Composite Mean Sea Level Pressure (hPa) – Ten Most Anomalous Cold Autumn Days

26 Denver, CO: Daily High Temperatures
Methodology (cont.) Denver, CO: Daily High Temperatures December 1 – February 29, 1948 – 2001

27 H L Denver, CO: Composite Mean Sea Level Pressure (hPa) – Ten Most Anomalous Cold Winter Days

28 Denver, CO: Daily High Temperatures
Methodology (cont.) Denver, CO: Daily High Temperatures March 1 – May 31, 1948 – 2001

29 H L Denver, CO: Composite Mean Sea Level Pressure (hPa) – Ten Most Anomalous Cold Spring Days

30 Methodology (cont.) Los Angeles: Denver:
Large temperature anomalies more likely positive and associated with Santa Ana (offshore) events Typically, marine layer moderates daily high temperatures Denver: Large temperature anomalies more likely negative and associated with upslope events Typically, mean westerly, downsloping flow influences daily high temperatures Non-normal temperature distributions are common and have distinct physical explanations

31 Methodology (cont.) Anomalously hot day: A day having a high temperature greater than the daily climatological 97.5 percentile threshold New method eased distribution problems [Los Angeles 669, Denver 736] Heat wave: Three or more consecutive anomalously hot days Regional heat wave: When heat waves occurring at two or more stations within a region had at least one overlapping day

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