Geography 202 Lecture Exercise 3

Due: Digitally on Blackboard by Friday, November 4

25 points

 

 

The Task

Use the Storm Prediction Center web site to write a report on severe weather.  <http://www.spc.noaa.gov/exper/archive/events/>

            | Index of Events

| SEARCH Index of Events

 

Your Event

You should use the date listed next to your name below:

Kari:  February 5, 2008 

Simon:  March 15, 2008

Gillian:  May 23, 2008

Dylan:   May 29, 2008

Morgan: June 4, 2008

Anna: June 11, 2008

Joe: June 12, 2008

Kelly: April 10, 2009

Thad: March 10, 2010

Faris: April 26, 2011

Chelsea: May, 22, 2011

Stuart: June 20, 2011

 

Submission

Please submit the assignment digitally as one file on the Digital Dropbox feature in Blackboard by, Friday, November 4. Give it a file name that includes an abbreviation for the type of assignment “SvrWx” plus your last name, e.g.: “SvrWx_Smith”. Be sure to Click on the “Send File” button. 

 

 

Requirements of your report

Your report should contain answers to the questions below, and the following graphics:

a. one map showing where severe weather occurred

b. one surface weather map on the day when severe weather occurred

c. one upper-air map (in the lower 2km) coincident the surface map

d. one upper-air map (at or above 500-mb) coincident with the surface map

e. a skew-T graph for the same time as the upper-air maps. Be sure to pick the right station and time!

 

Answer the questions below in your report. Be sure that the weather maps that you examine are for approximately the same time as the storms occur. Please describe what map or other resource you used to answer each question by simply referring to it (e.g. “The skew-T chart shows that temperature……..” or “We see on the 500-mb map that…….”)

 

1. Where did the storms occur with respect to features like a mid-latitude cyclone or fronts on the surface map?

2. How did the air flow in the lowest 1 km influence the storms?

3. How did the air flow in the upper-troposphere influence the storms?

4. How did the vertical temperature profile contribute to the severe storms? (Be sure to choose a skew-T chart from a location near the storms. Also note that the 00z maps are often better than 1200z maps, because they show early evening conditions when most storms occurred, rather than early morning conditions.)

5. How did the wind shift with height near the storms, and how did this contribute to their development?

Skew T diagram

The thermodynamic diagrams at the Storm Prediction Center display plots of temperature (red), dew point temperature (green), and wind speed (kt)/direction with respect to pressure. Pressure is denoted by the black horizontal lines (labeled on left in mb), and isotherms are "skewed" as dashed pink lines from lower left to upper right (labeled on bottom in degrees C). Unsaturated parcel ascent is represented by the solid pink curves from lower right to upper left (dry adiabats), and saturated parcel ascent is represented by the dashed brown curve emanating from the most unstable parcel level. The environmental wet bulb temperature profile (i.e., the temperature that would result from evaporational cooling of each level to saturation) is plotted in dark cyan between the temperature and dew point traces. The effects of ice processes or water loading in saturated ascent are not accounted for in this diagram.

 

Levels above ground level are plotted for reference in red along the left side of the diagram, while the surface parcel height (m) above mean sea level is plotted in parentheses. Also, the freezing line (0°C) and the -20°C isotherm are highlighted in dark blue.

 

For help with additional information on the SPC web page go to: <http://www.spc.noaa.gov/exper/soundings/help/index.html>

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Resources:

Most of the maps you need can be found at: < http://www.spc.noaa.gov/exper/archive/events/>

 

Other potentially useful sources:

http://www.hpc.ncep.noaa.gov/dailywxmap/index_20030101.html (surfc and upper-air maps)

http://www.hpc.ncep.noaa.gov/html/sfc_archive.shtml (archive of surface observations)

http://vortex.plymouth.edu/sfccalc-u.html (general surface temperature, dew point, etc. maps)

http://squall.sfsu.edu/crws/archive/satimgs_month_arch.html

http://vortex.plymouth.edu/upcalc-u.html (upper-air only)

http://weather.unisys.com/archive/index.html (Unisys archive)