Gary L. Hufford scite author profile

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.

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Hemispheric-scale wind selection facilitates bar-tailed godwit circum-migration of the Pacific

Gill

Douglas

Handel

et al. 2014

Animal Behaviour

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Failures in Detecting Volcanic Ash from a Satellite-Based Technique

et al. 2000

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El Niño and its impact on fire weather conditions in Alaska

Hess¹,

Scott²,

Hufford³

et al. 2001

Int. J. Wildland Fire

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Examining the relationship of El Niño to weather patterns in Alaska shows wide climate variances that depend on the teleconnection between the tropics and the northern latitudes. However, the weather patterns exhibited in Alaska during and just after moderate to strong El Niño episodes are generally consistent: above normal temperature and precipitation along the Alaskan coast, and above normal temperature and below normal precipitation in the interior, especially through the winter. The warm, dry conditions in the Alaskan interior increase summer wildfire potential. Statistics on the area burned since 1940 show that 15 out of 17 of the biggest fire years occurred during a moderate to strong El Niño episode. These 15 years account for nearly 63% of the total area burned over the last 58 years. Evidence points to increased dry thunderstorms and associated lightning activity during an El Niño episode; the percentage of total area burned by lightning caused fires during five episodes increased from a normal of less than 40% to a high of about 96%.

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Gary L. Hufford

Climate Divisions for Alaska Based on Objective Methods

Hemispheric-scale wind selection facilitates bar-tailed godwit circum-migration of the Pacific

Failures in Detecting Volcanic Ash from a Satellite-Based Technique

El Niño and its impact on fire weather conditions in Alaska

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Resources

About

Gary L. Hufford

Climate Divisions for Alaska Based on Objective Methods

Hemispheric-scale wind selection facilitates bar-tailed godwit circum-migration of the Pacific

Failures in Detecting Volcanic Ash from a Satellite-Based Technique

El Ni&ntilde;o and its impact on fire weather conditions in Alaska

Contact Info

Product

Resources

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El Niño and its impact on fire weather conditions in Alaska