Climate Divisions for Alaska Based on Objective Methods

Alaska encompasses several climate types because of its vast size, high-latitude location, proximity to oceans, and complex topography. There is a great need to understand how climate varies regionally for climatic research and forecasting applications. Although climate-type zones have been establis...

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Main Authors: Bieniek, Peter A., Bhatt, Uma S., Thoman, Richard L., Angeloff, Heather, Partain, James, Papineau, John, Fritsch, Frederick, Holloway, Eric, Walsh, John E., Daly, Christopher, Shulski, Martha, Hufford, Gary, Hill, David F., Calos, Stavros, Gens, Rudiger
Format: Article in Journal/Newspaper
Language:English
unknown
Published: American Meteorological Society
Subjects:
Arctic
Pacific
alaska range
north slope
Alaska
Online Access:https://ir.library.oregonstate.edu/concern/articles/jd472x230
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spelling ftoregonstate:ir.library.oregonstate.edu:jd472x230 2024-04-14T08:00:21+00:00 Climate Divisions for Alaska Based on Objective Methods Bieniek, Peter A. Bhatt, Uma S. Thoman, Richard L. Angeloff, Heather Partain, James Papineau, John Fritsch, Frederick Holloway, Eric Walsh, John E. Daly, Christopher Shulski, Martha Hufford, Gary Hill, David F. Calos, Stavros Gens, Rudiger https://ir.library.oregonstate.edu/concern/articles/jd472x230 English [eng] eng unknown American Meteorological Society https://ir.library.oregonstate.edu/concern/articles/jd472x230 Copyright Not Evaluated Article ftoregonstate 2024-03-21T15:48:20Z Alaska encompasses several climate types because of its vast size, high-latitude location, proximity to oceans, and complex topography. There is a great need to understand how climate varies regionally for climatic research and forecasting applications. Although climate-type zones have been established for Alaska on the basis of seasonal climatological mean behavior, there has been little attempt to construct climate divisions that identify regions with consistently homogeneous climatic variability. In this study, cluster analysis was applied to monthly-average temperature data from 1977 to 2010 at a robust set of weather stations to develop climate divisions for the state. Mean-adjusted Advanced Very High Resolution Radiometer surface temperature estimates were employed to fill in missing temperature data when possible. Thirteen climate divisions were identified on the basis of the cluster analysis and were subsequently refined using local expert knowledge. Divisional boundary lines were drawn that encompass the grouped stations by following major surrounding topographic boundaries. Correlation analysis between station and gridded downscaled temperature and precipitation data supported the division placement and boundaries. The new divisions north of the Alaska Range were the North Slope, West Coast, Central Interior, Northeast Interior, and Northwest Interior. Divisions south of the Alaska Range were Cook Inlet, Bristol Bay, Aleutians, Northeast Gulf, Northwest Gulf, North Panhandle, Central Panhandle, and South Panhandle. Correlations with various Pacific Ocean and Arctic climatic teleconnection indices showed numerous significant relationships between seasonal division average temperature and the Arctic Oscillation, Pacific–North American pattern, North Pacific index, and Pacific decadal oscillation. Keywords: Statistical techniques, Climate variability, Climate classification/regimes, Regional effects, Climatology Article in Journal/Newspaper alaska range Arctic north slope Alaska ScholarsArchive@OSU (Oregon State University) Arctic Pacific
institution Open Polar
collection ScholarsArchive@OSU (Oregon State University)
op_collection_id ftoregonstate
language English
unknown
description Alaska encompasses several climate types because of its vast size, high-latitude location, proximity to oceans, and complex topography. There is a great need to understand how climate varies regionally for climatic research and forecasting applications. Although climate-type zones have been established for Alaska on the basis of seasonal climatological mean behavior, there has been little attempt to construct climate divisions that identify regions with consistently homogeneous climatic variability. In this study, cluster analysis was applied to monthly-average temperature data from 1977 to 2010 at a robust set of weather stations to develop climate divisions for the state. Mean-adjusted Advanced Very High Resolution Radiometer surface temperature estimates were employed to fill in missing temperature data when possible. Thirteen climate divisions were identified on the basis of the cluster analysis and were subsequently refined using local expert knowledge. Divisional boundary lines were drawn that encompass the grouped stations by following major surrounding topographic boundaries. Correlation analysis between station and gridded downscaled temperature and precipitation data supported the division placement and boundaries. The new divisions north of the Alaska Range were the North Slope, West Coast, Central Interior, Northeast Interior, and Northwest Interior. Divisions south of the Alaska Range were Cook Inlet, Bristol Bay, Aleutians, Northeast Gulf, Northwest Gulf, North Panhandle, Central Panhandle, and South Panhandle. Correlations with various Pacific Ocean and Arctic climatic teleconnection indices showed numerous significant relationships between seasonal division average temperature and the Arctic Oscillation, Pacific–North American pattern, North Pacific index, and Pacific decadal oscillation. Keywords: Statistical techniques, Climate variability, Climate classification/regimes, Regional effects, Climatology
format Article in Journal/Newspaper
author Bieniek, Peter A.
Bhatt, Uma S.
Thoman, Richard L.
Angeloff, Heather
Partain, James
Papineau, John
Fritsch, Frederick
Holloway, Eric
Walsh, John E.
Daly, Christopher
Shulski, Martha
Hufford, Gary
Hill, David F.
Calos, Stavros
Gens, Rudiger
spellingShingle Bieniek, Peter A.
Bhatt, Uma S.
Thoman, Richard L.
Angeloff, Heather
Partain, James
Papineau, John
Fritsch, Frederick
Holloway, Eric
Walsh, John E.
Daly, Christopher
Shulski, Martha
Hufford, Gary
Hill, David F.
Calos, Stavros
Gens, Rudiger
Climate Divisions for Alaska Based on Objective Methods
author_facet Bieniek, Peter A.
Bhatt, Uma S.
Thoman, Richard L.
Angeloff, Heather
Partain, James
Papineau, John
Fritsch, Frederick
Holloway, Eric
Walsh, John E.
Daly, Christopher
Shulski, Martha
Hufford, Gary
Hill, David F.
Calos, Stavros
Gens, Rudiger
author_sort Bieniek, Peter A.
title Climate Divisions for Alaska Based on Objective Methods
title_short Climate Divisions for Alaska Based on Objective Methods
title_full Climate Divisions for Alaska Based on Objective Methods
title_fullStr Climate Divisions for Alaska Based on Objective Methods
title_full_unstemmed Climate Divisions for Alaska Based on Objective Methods
title_sort climate divisions for alaska based on objective methods
publisher American Meteorological Society
url https://ir.library.oregonstate.edu/concern/articles/jd472x230
geographic Arctic
Pacific
geographic_facet Arctic
Pacific
genre alaska range
Arctic
north slope
Alaska
genre_facet alaska range
Arctic
north slope
Alaska
op_relation https://ir.library.oregonstate.edu/concern/articles/jd472x230
op_rights Copyright Not Evaluated
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