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Bering Sea Superstorm Bottoms out at 924 mb

By: Christopher C. Burt, 8:52 PM GMT on November 08, 2014

Bering Sea Superstorm Bottoms out at 924 mb

One of the most powerful extra-tropical storms ever to pass through the Bering Sea reportedly attained a central pressure as low as 924 mb (27.29”) on Friday night/Saturday morning local time. This may rank as the lowest pressure ever ‘analyzed’ (estimated) in the Pacific Basin from an extra-tropical storm system.



The surface map for 06Z on Saturday, November 8th indicates a central pressure of 924 mb off the coast of Siberia in the Bering Sea. The lowest pressure actually measured so far is 929.8 mb at 02Z by a buoy drifting at 55.1°N, 170.7°E. Amazingly, the pressure at this buoy fell 37.3 mb (about 1.10”) in just 6 six hours between 16Z and 22Z on Friday, November 7th! Map from NWS-Anchorage.



Satellite image of the storm at 12Z on Saturday morning soon after it reached its peak intensity around 06Z on November 8th. MODIS image.

Although this may be the lowest pressure ever mapped in the Bering Sea, it is likely that the storm of October 25, 1977 was considerably stronger. An actual measured barometric pressure level (by a ship docked at Dutch Harbor on Unalaska Island in the Aleutians) of 925 mb (29.31”) during that storm would tend to indicate that, at some point, during that storm’s life cycle its central pressure was probably lower than the 925 mb figure measured and thus probably lower than the 924 mb estimate for the current storm.



A list of the top most intense extra-tropical storms (pressure-wise) to affect the northern Pacific over the past 40 years or so. Graphic from NWS-Fairbanks.

As Steve Gregory pointed out to me this morning (Saturday), the winds and significant wave heights during the 1977 cyclone were considerably more impressive than those observed (so far) from the current system. The highest significant wave heights reported by a ship or buoy in the region have been 26’ (compared to over 50’ during the 1977 storm) and the top wind speed so far measured on land has been recorded at Eareckson Air Station on Shemya Island (western Aleutians) with a gust to 97 mph and sustained at 73 mph. This is well short of the 130 mph wind gust measured at Adak Island during the 1977 storm. Of course, unlike in 1977, this storm has remained well out to sea and much further west than was the case in 1977, so the worst of its affects will probably go more or less unrecorded.

Amazingly, it was exactly on this date in 2011 that another powerful cyclone struck the Aleutian Islands (with a central pressure of 943 mb/27.85”) and prompted me to write this blog dated November 8, 2011. For those interested, I have reproduced the portion of that blog below dealing with the October 25, 1977 storm (and other past Alaskan storms). Also, for a general overview of the lowest barometric pressures ever observed on Earth (both tropical and extra-tropical), see this post.

Alaska’s Strongest Extra-tropical Storm on Record: October 25-26, 1977

The most powerful storm, at least in terms of depth of pressure, to affect Alaska in modern history was that of October 25-26, 1977. Dutch Harbor, on the Aleutian Island of Unalaska, recorded a minimum pressure of 925 mb (27.31”) on the evening of October 25th. Winds gusted to 130 mph at Adak, also in the Aleutian Islands. Adak reported a continuous 12-hour period with wind gusts of 110mph+ between 1800Z Oct. 25 and 0600Z Oct. 26. Enhanced infrared radar imagery indicated a closed ‘eye wall’ with this storm. Wave heights of 35 feet on top of swell heights of 60 feet produced significant wave heights of 72 feet according to NWS analysis and ship reports. The analysis speculated that there was the potential for waves as high as 120 feet, although nothing of this magnitude was actually observed. The cyclone had its origins, as is often the case with powerful Alaskan storms, as a West Pacific typhoon.



Hand-drawn weather maps used to be an art! Here is a view of the October 1977 storm for late evening October 25, 1977 when Alaska’s strongest storm in history deepened to 925 mb (27.31”) over Dutch Harbor on the Aleutian Island of Unalaska. Chart drawn by and supplied to me by Steve Gregory who worked with the Ocean Routes Company (now WNI) in Alaska at the time. Steve sent me this very informative email:

I worked for Oceanroutes (now WNI) when in Alaska doing site specific forecasts for 7 exploratory drilling rigs located about 6 miles offshore of Cape Yagataga along the south central coast. That location was something else. When I first started, I worked as an observer on one of the rigs (2 weeks on, 2 weeks off) and when storm systems approached, winds would increase to about 3 times what one would normally expect based on the observed pressure gradient, and winds were always out of the East, perpendicular to the isobars. No one really knew why - but we suspected it had to do with a glacier located just to our northeast. A rough rule of thumb was to use the pressure difference between Yakatut and Middleton Island - with every millibar difference equal to 5 Kts. 60Kt winds were very common - averaging 1 or 2 times /week on average. You haven't lived until you've been out on the ocean with 80mph winds and 30-foot waves.

One final comment. You will find that storms with NWS analyzed pressures of 948mb (or lower) occur quite frequently in the Gulf of Alaska. Must average at least 5 such storms every year, with 1 or 2 of them getting into the 930's. But these mega-storms attract little attention because there is no major affect on any populated areas (although aircraft landing in ANC can experience true, severe turbulence on approach through Turnagain Arm. I've never really had the time to check, but I suspect a careful analysis would show pressures in the 920's.


Other Powerful Alaskan Storms

The highest wind gust yet measured in Alaska was 159 mph at the isolated settlement of Attu on December 7, 1950. Attu is located on the westernmost Aleutian Island of the same name, some 1000 miles west of Anchorage.

The state’s highest sustained one-minute wind speed of 93 mph was recorded at Kotzebue during a storm on February 25, 1951.

In October 2004 and again in September 2005 two large storms with central pressures of 941mb produced a storm surge of almost 10.45 feet at Nome beaching boats and damaging the town’s waterfront where an unofficial wind gust of 83mph was recorded. The ferocity of both storms led then NWS Fairbanks’s Office Lead Forecaster, Rick Thoman, to comment, “Storms that affect Alaska are far, far bigger than hurricanes. Hurricanes are tiny compared to great storms that take up a quarter of the Bering Sea.” REF: Alaska Science Forum Article #1774: ‘No Hurricanes in Alaska but…’ by Ned Rozell, October 27, 2005.



A ten-foot storm surge deposited boats along the shoreline of Nome’s Snake River in September 2005. Nome’s greatest storm surge occurred during a storm in November 1974 when waters rose 13 feet above normal. Photo by Ned Rozell.

Cause of Alaskan Super Storms

The reason for the amazing intensity of some of the extra-tropical storms that swipe the Aleutians and the Bering Sea is that the low-pressure centers tap into relatively mild, moist sub-topical air off the coasts of Japan (sometimes the remnants of typhoons) and cold dry air centered over Eastern Siberia with a powerful jet stream flowing over the Bering Sea; somewhat in the same fashion that low pressure systems sometime ‘bomb out’ along the Eastern Seaboard of the United States after entraining, in their case, Gulf Stream moisture and Canadian cold, dry air.

KUDOS: Thanks to Steve Gregory (who blogs regularly for Weather Underground) and Rick Thoman (at NWS-Fairbanks) for much of the above information.

Christopher C. Burt
Weather Historian

Extreme Weather Barometric Pressure Extra-tropical Storms

The views of the author are his/her own and do not necessarily represent the position of The Weather Company or its parent, IBM.

Reader Comments

Thank you for the very informative post!

I have some questions about the pressure difference between the different agencies analizing this storm:
The NOAA reported a central pressure of 924 hPa on the eigth of this month at 06 UTC, while
the JMA reported a pressure of 920 hPa for the same time.
Which pressure matches better with the "actual" pressure and/or does a sort of coordination exist between these agencies or does the pressure lie in betweeen?
Great Blog..60 foot swells with 35 footers on top...I thought 25 footers off the outer banks was bad..:)
Excellent compilation, thank you for your dedication bringing all of this information together, also for the general overview of lowest barometric pressures ever observed on Earth. Amazing events, mind-boggling weather.
weatherhistorian has created a new entry.