Deep Cold: Alaska Weather & Climate
Objective Comments and Analysis - All Science, No Politics
Primary Author Richard James
2010-2013 Author Rick Thoman
Saturday, September 7, 2024
Cool Bering/Chukchi Sea
Monday, September 2, 2024
Follow-up on Sleet
First things first: overnight freezes are becoming more widespread across the northern interior, as befits the season. Here is this morning's list of some observed low temperatures, courtesy of the NWS in Fairbanks:
Webcam views show a delightful scene in many areas today:
Cleary Summit above Fairbanks
Fort Yukon
Bettles
On another topic, Mike from Kaktovik posted a few weeks ago about sleet (ice pellets) falling in late July at his location on Barter Island. I was curious to see what the ERA5 reanalysis has to say about the frequency and distribution of this kind of "wintry" precipitation. According to the model, it is not particularly unusual for sleet to be the dominant precipitation type across the Arctic waters to the north of Alaska in climatological summer (June through August):
(It should be noted that the model diagnosis of a certain precipitation type does not imply that such precipitation actually occurred; the modeled precipitation rate might be extremely small at times. A more comprehensive analysis would look at the precipitation rate as well.)
Not surprisingly, the estimated frequency of summertime sleet is drastically lower over land, but a close look at the image above reveals that the "offshore" region of higher frequency also extends over Barter Island (on the north side of the river delta region protruding north on the far northeastern coast). ERA5 shows a 1991-2020 mean of about 50 hours per summer with sleet as the dominant precipitation type (subject to precipitation rate) at Kaktovik.
Here's a chart of the annual June-August frequency of the six ERA5 precipitation type categories at a grid cell location very close to Kaktovik:
The long-term increase in the dominance of rain reflects the multi-decadal warming trend. Similar trends are seen if we take the area-average over a box encompassing the northern North Slope and nearby waters: all "wintry" precipitation types have decreased in frequency in recent years.
Interestingly, the same is not true over the Arctic Ocean farther to the north of Alaska: the ERA5 data suggests that snow and other icy precipitation types have become more common at the expense of rain in recent years:
Monday, August 26, 2024
Another Landslide
Thursday, August 22, 2024
Ex-Typhoon Ampil
The third major storm in less than a week affected western Alaska yesterday, courtesy of the remnant circulation of Typhoon Ampil. The low pressure center came in a bit farther north than the previous two storms, but high winds were widespread across the western coastline and hills.
Here's the MSLP analysis from 4pm AKDT yesterday, courtesy of Environment Canada:
The wind gusted to 55 mph in Nome in the early evening, and the peak sustained wind of 41 mph ties the Nome record for August, set back in 1949. To find a stronger storm in early autumn, we have to look to the first week of September, when 44 mph sustained winds were measured in 1964. (But instrumentation is different nowadays, so it's not really a fair comparison. In recent years the most comparable event was August 24, 2012, with 37 mph.)
Here are some of the peak wind gusts around the region yesterday (in mph):
Although this is the 3rd storm in quick succession, it's actually the 4th storm to hit the west coast in the past two weeks (I missed the first one in my previous post). Here's the MSLP analysis from the afternoon of August 10: this one came in much farther south.
The 14-day precipitation is 2-4 times normal across much of the west and northwest, and the anomaly pattern is extremely similar to the July outcome - except for Southeast, where it's been much drier lately.
Tuesday, August 20, 2024
Heat and Floods
Saturday, August 17, 2024
Persistence
Continuing with July's theme of wet weather, western and southern parts of Alaska (except Southeast) have remained much wetter than normal so far this month. Here's a "percent of normal" analysis based on NWS precipitation estimates for the latest available 14-day period. Flood watches and warnings are out for several regions in the west.
The wet pattern illustrates the idea that weather patterns often tend to persist for weeks or even months, but as we saw earlier in the summer, a dramatic reversal can occur too:
Thinking about this, I started wondering if weather patterns have become more or less "persistent" over the decades in Alaska. A simple measure of persistence can be constructed by counting the frequency with which the precipitation (or temperature, wind etc) departure from normal reverses sign from month to month.
For example, if the pattern flips from warm to cold and back again every month of the year, then this persistence index is zero: the monthly anomalies have opposite signs in consecutive months. But if all 12 months are warmer than normal, then the index is 100%: no sign reversals occurred between consecutive months.
Using statewide data from NOAA/NCEI, and using a trailing 30-year mean as "normal", the result looks like this:
Higher numbers correspond to more month-to-month persistence. The first thing that strikes me here is how non-persistent statewide temperatures are; I would have expected higher persistence for temperature, given the large influence of nearby (and very persistent) ocean temperature anomalies on Alaska climate. But having said that, the atmospheric circulation pattern governs a very large fraction of the temperature variability from month to month, so perhaps it shouldn't be surprising.
It's also interesting to see that persistence was relatively low for both temperature and precipitation in around 2005-2015 (the chart uses a 10-year running average), but temperature persistence has increased substantially in recent years.
The recent prevalence of month-to-month persistence is partly related to the sharp uptrend in statewide temperatures: if it's "warm all the time", then the persistence index will be high. However, it's worth noting that the sharp increase in temperatures in the 1980s did not produce an equally dramatic rise in temperature persistence. Here's a chart of actual decadal temperatures and precipitation; both have increased over the last 75 years.
To counter the effects of trend on the persistence index, it seems worthwhile to detrend the data. After doing this with a simple linear trend (calculated for each month of the year separately), the persistence index looks like this:
Saturday, August 10, 2024
July Climate Data
Last month was the wettest July in recorded climate history for Alaska (1925-present), with a statewide average precipitation of 5.2 inches, according to NOAA/NCEI. The previous record was 4.8" in 1959.
The contrast with June was dramatic, as June was tied for 3rd driest on record statewide.
As we would expect, the flow was more westerly than normal over most of Alaska, courtesy of above-normal pressure near and south of the Aleutians, and an unusually strong trough over the Arctic Ocean (nearly opposite to the June pattern). The maps below show the 500mb height and 850mb westerly wind anomalies for the month.