A statistical analysis of extreme chinooks in Montana as they relate to large scale circulation changes

A statistical analysis of extreme chinooks in Montana as they relate to large scale atmospheric circulation changes is the subject of this thesis. A mean chinook situation was identified which indicated that a critical pattern of the surface flow always contained a Polar or Arctic airmass which over...

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Bibliographic Details
Main Author: Grant, Roland Lester
Other Authors: Lahey, James F., Muckleston, Keith, Jensen, J. Granville, Oles, Keith, Sitton, Gordon, Geography, Oregon State University. Graduate School
Format: Doctoral or Postdoctoral Thesis
Language:English
unknown
Published: Oregon State University
Subjects:
Online Access:https://ir.library.oregonstate.edu/concern/graduate_thesis_or_dissertations/w6634595m
Description
Summary:A statistical analysis of extreme chinooks in Montana as they relate to large scale atmospheric circulation changes is the subject of this thesis. A mean chinook situation was identified which indicated that a critical pattern of the surface flow always contained a Polar or Arctic airmass which overspread the prairie areas of Eastern Montana to the Rocky Mountain front just prior to the onset of the chinook. On Chinook-Day this surface flow changes to directions from the south-southeast to south-southwest. This surface pattern was accompanied by a strong 500 MB flow from the northwest on Chinook- Day. The first phase of the statistical analysis used daily changes in the maximum and minimum temperatures to identify 36 dates of intense chinooks. Selected examples from these 36 chinooks were then analyzed to identify three special cases that show a variation in the penetration of the chinook eastward from the Rocky Mountain front in Montana. This study identified as extreme chinooks those events in which the change in maximum daily temperatures were equal to or greater than two standard deviations from the mean daily temperature change for the day of the winter period, November through March, on which the chinook occurred. The mean temperature changes were calculated for 28 stations with reliable data for the period of time from 1895 to 1976. Thirty six intense (extreme) chinooks were identified. The synoptics of each were combined by the superposed epoch technique to produce a "mean chinook". Synoptic data for Chinook-Day and a Five Day Lead period (Day -5 to Day -1) were interpreted from the mean sea-level and 500 mb height charts of the specific dates involved. These data were collected by the use of a 5° diamond grid covering the area extending from 10° to 70° North Latitude and 165° East to 85° West Longitude. Analysis of the 36 intense chinook events revealed a three part Montana longitudinal zonation termed Mountain, Midland and Prairie. The chinook of November 17, 1959, which occurred at all 28 stations in ...