After September, the likelihood of Fairbanks achieving a high temperature over 60F (even 50F) rapidly diminishes. Here is the breakdown of high temperatures broken down into common 10-degree categories. All values correspond to the January through September time period. There are three comums for each category; A) 2013 values, B) long-term (1920-2012) values, and C) normal (1981-2010) values. The chart shows that there have been many more days in the 0s, 10s, 30s, and 80s than is typical; and far fewer days in the 50s and 60s. This is a consequence of the abrupt transition from Winter to Summer with nary a Spring season.
Objective Comments and Analysis - All Science, No Politics
Primary Author Richard James
2010-2013 Author Rick Thoman
Monday, September 30, 2013
Saturday, September 28, 2013
Statewide Temperature Average
We are heading into the time of year when sub zero temperatures occur somewhere in Alaska every day. In 2013 the first occurrence of a subzero day in the databases that NCDC maintains was on October 10th. A couple of stations nearly reached zero the other day as Richard noted but it doesn't appear to have happened yet in Alaska. The following chart shows the statewide average high and low temperature (red colums) and the daily extremes (gray shaded area) between January 1, 2012, and September 24, 2013. It appears that June 18th was the warmest day in Alaska in 2013.
Note: You can zoom into the chart to see much shorter time periods. Click the Reset Zoom button to go back to the original view.
Friday, September 27, 2013
The Hot Spot
As a follow up to last week's blog post about the cold spot in the state of Alaska, this map shows which station recorded the daily high temperature the most times during 2012. There are three main concentrations. 1) Southeast Alaska is nearly always the warm spot during Winter. 2) the Central Interior is usually warmest in the early and middle Summer. 3) Southcentral Alaska is often warmest in early Summer and early Fall. Unfortunately warm temperatures are subject to more quality control problems than cold temperatures. In both warm and cold seasons, the temperature bias is far more likely to be too warm rather than too cold. Therefore, the coldest temperature readings in winter are likely showing an accurate temperature. However, in the summer, the warmest temperature readings are sometimes bogus. I manually went through the list and threw out as many obviously bad temperatures as I could but it is an imperfect exercise.
Yes, Deadhorse was the warmest day in Alaska on 7/23/12 with a high of 78F. Nuiqsut was #2 at 77F.
Yes, Deadhorse was the warmest day in Alaska on 7/23/12 with a high of 78F. Nuiqsut was #2 at 77F.
Wednesday, September 25, 2013
A Brief Chill in Barrow
Clear skies and offshore flow at Barrow allowed temperatures to briefly drop quite low for the time of year in the early morning hours of yesterday. The temperature dropped to 6 °F before clouds and snow reappeared; the temperature was back up to 31 °F by late afternoon.
The low of 6 °F is the coldest so early in the season for Barrow since 1985, when 3 °F was observed on the same date. The earliest that 0 °F has been observed is October 3.
The chart below show that temperatures have been close to normal in Barrow since mid-August, but were frequently much above normal throughout the early and middle summer. The June-August average temperature was the sixth warmest on record, and 2013 was the fifth consecutive summer that was warmer than the 1981-2010 average.
The low of 6 °F is the coldest so early in the season for Barrow since 1985, when 3 °F was observed on the same date. The earliest that 0 °F has been observed is October 3.
The chart below show that temperatures have been close to normal in Barrow since mid-August, but were frequently much above normal throughout the early and middle summer. The June-August average temperature was the sixth warmest on record, and 2013 was the fifth consecutive summer that was warmer than the 1981-2010 average.
Tuesday, September 24, 2013
2013 Fairbanks Temperature Update
Monday, September 23, 2013
Short Summer Thaw Season
Back in May we had extensive discussion about the unusually cold spring conditions, which broke some longstanding records in Fairbanks - including the latest date with daily mean temperature below freezing (May 18). With the early arrival of freezing conditions this month, it should be no surprise that the length of the continuous summer thaw season was the shortest on record in Fairbanks (despite the summer being much warmer than normal). The most recent similar year was 1992 - again, no surprise, though it is interesting to note that 1992 was cold both in spring and in September, similar to this year.
See below for the data in graphical form; I've defined the thaw season as the period when daily mean temperatures are continuously above freezing.
Sunday, September 22, 2013
Chilly Alaska In Context
Much of mainland Alaska is having the coolest sustained weather in September since 2004, with occasional bouts of (mostly) light snow from the Alaska Range northward as well as higher elevations in South Central. In context, an interesting aspect of this chilly weather is shown by Sunday morning's 500mb analysis:
I've highlighted the 546dm contour, which nicely defines what we might call a polar vortex". Notice that vortex is displayed completely away from the Pole, with a massive 566dm high centered at 85N north of Scandinavia.
The anomalies show up dramaticly in the this plot from the Penn State e-wall:
There are three centers with more than 240 meter anomalies: the near-pole high, the high centered over the United Kingdom and the broad low heights stretching from the Chukchi Se southeastward across Alaska and into the Northwest CONUS and a very deep center in the Gulf of Alaska.
Courtesy of Environment Canada |
The anomalies show up dramaticly in the this plot from the Penn State e-wall:
There are three centers with more than 240 meter anomalies: the near-pole high, the high centered over the United Kingdom and the broad low heights stretching from the Chukchi Se southeastward across Alaska and into the Northwest CONUS and a very deep center in the Gulf of Alaska.
Saturday, September 21, 2013
The Cold Spot in Alaska
* Updated with table*
The coldest location in the State of Alaska today was Anaktuvuk Pass (low temperature of 9°F). Looking at an entire year, I thought it would be interesting to see which station recorded the daily low temperature the most times. The first map below shows each station that recorded a statewide daily low temperature in 2012 and the count of days that the station was the state's low. In total, 72 stations recorded the daily, statewide low temperature for a calendar day. If more that one station recorded the statewide low, each station earned a tally. Therefore, even though 2012 had 366 days, adding up all the numbers on the map yields a grand total of 468. Rick communicated to me via e-mail that FAA data are not archived at NCDC (i.e., Anaktuvuk Pass, Arctic Village, etc.), so this map should be taken with a grain of salt. Also, cooperative stations usually take their temperature measurements at 7 a.m. so there is often a time of day confound. As you can see from the map, there is a concentration in the central and southeastern Interior. Remember that this map is for the entire year. The second map below shows the September 2012 daily low stations. Who can guess the station that was both the September and the annual winner for 2012?
The coldest location in the State of Alaska today was Anaktuvuk Pass (low temperature of 9°F). Looking at an entire year, I thought it would be interesting to see which station recorded the daily low temperature the most times. The first map below shows each station that recorded a statewide daily low temperature in 2012 and the count of days that the station was the state's low. In total, 72 stations recorded the daily, statewide low temperature for a calendar day. If more that one station recorded the statewide low, each station earned a tally. Therefore, even though 2012 had 366 days, adding up all the numbers on the map yields a grand total of 468. Rick communicated to me via e-mail that FAA data are not archived at NCDC (i.e., Anaktuvuk Pass, Arctic Village, etc.), so this map should be taken with a grain of salt. Also, cooperative stations usually take their temperature measurements at 7 a.m. so there is often a time of day confound. As you can see from the map, there is a concentration in the central and southeastern Interior. Remember that this map is for the entire year. The second map below shows the September 2012 daily low stations. Who can guess the station that was both the September and the annual winner for 2012?
There are companion maps for summer but I'll save those for another day.
Friday, September 20, 2013
Winter Trends in Early Snow Years
Wednesday's early accumulating snow in Fairbanks raises the question of whether similar occurrences in the past offer any hints as to the climate patterns in the upcoming winter. I'm always on the lookout for analogs like this, because years ago I found that unusual early-season snowfall in certain parts of the lower 48 can be a useful predictor for winter conditions. It's conceivable that the same might be true in interior Alaska.
To take a first look at the data, I pulled out the years in which measurable (0.1" or greater) snow was observed in Fairbanks on or before September 20. Since 1930, there have been 10 of these years prior to this year: 1930, 1933, 1948, 1962, 1972, 1978, 1980, 1989, 1992, and 1993. Looking at the temperature and snowfall data from the subsequent winters, it seems there is a tendency for warmer than normal and snowier than normal conditions in each of November, December, and January. For the three-month average, 2 of the 10 years had below-normal temperature, 2 had near-normal temperature, and 6 had above-normal temperature (based on the 1930-2012 tercile categories). The distribution was the same for snowfall: 2 below-normal, 2 near-normal, and 6 above-normal.
Below are histograms of the November-December snowfall and temperature, with the columns split between the early-snow and no-early-snow years. Although a subset of 10 years is rather small to draw a robust conclusion, the distribution does seem to be shifted towards relatively warm and snowy conditions in the years when early snow occurred.
In conclusion, the early Fairbanks snowfall seems to give us a very tentative hint that November through January might be warmer and snowier than average in Fairbanks this winter. It's not clear why this might be the case, although the early snowfall might be signaling something about the oceanic or atmospheric pattern that is likely to persist or influence the winter conditions. There is a lot more that could be said about the outlook for the winter, based on other factors, and I hope to put up some more posts in the weeks ahead.
To take a first look at the data, I pulled out the years in which measurable (0.1" or greater) snow was observed in Fairbanks on or before September 20. Since 1930, there have been 10 of these years prior to this year: 1930, 1933, 1948, 1962, 1972, 1978, 1980, 1989, 1992, and 1993. Looking at the temperature and snowfall data from the subsequent winters, it seems there is a tendency for warmer than normal and snowier than normal conditions in each of November, December, and January. For the three-month average, 2 of the 10 years had below-normal temperature, 2 had near-normal temperature, and 6 had above-normal temperature (based on the 1930-2012 tercile categories). The distribution was the same for snowfall: 2 below-normal, 2 near-normal, and 6 above-normal.
Below are histograms of the November-December snowfall and temperature, with the columns split between the early-snow and no-early-snow years. Although a subset of 10 years is rather small to draw a robust conclusion, the distribution does seem to be shifted towards relatively warm and snowy conditions in the years when early snow occurred.
In conclusion, the early Fairbanks snowfall seems to give us a very tentative hint that November through January might be warmer and snowier than average in Fairbanks this winter. It's not clear why this might be the case, although the early snowfall might be signaling something about the oceanic or atmospheric pattern that is likely to persist or influence the winter conditions. There is a lot more that could be said about the outlook for the winter, based on other factors, and I hope to put up some more posts in the weeks ahead.
Thursday, September 19, 2013
A Short But Intense Growing Season
With the 0.6" of snow that fell in Fairbanks on Wednesday, we can calculate the length of the snow-free period since the last Spring snow. 123 snow-free days occurred between the May 17th snow and the September 18th snow. During those 123 days, over 1,300 growing degree days (GDD) accumulated in Fairbanks. A GDD is tabulated for every degree that the daily average temperature is above 50°F. For example, a day with a daily average temperature of 55°F records 5 GDD for that day.
The 2013 value is the second most on record for the snow-free period. Only 2004 had more GDDs. What is remarkable is that the accumulated GDDs occurred during one of the shortest snow-free periods on record. Looking at it on a per snow-free day, 2013 was far and away the largest value for any year on record.
The 2013 value is the second most on record for the snow-free period. Only 2004 had more GDDs. What is remarkable is that the accumulated GDDs occurred during one of the shortest snow-free periods on record. Looking at it on a per snow-free day, 2013 was far and away the largest value for any year on record.
Wednesday, September 18, 2013
First Snow of the Autumn at Fairbanks
The first snow of the new autumn fell late Tuesday evening at Fairbanks Airport. This is four days earlier than the long term average of date of first snow of September 21st. Amounts in town have been very light, just a trace. Even on the hills there has been just a dusting, with 0.1" here on Keystone Ridge through 5am AKDT Wednesday.
Last year the first trace of snow at the Fairbanks Airport was on September 30th. So, today's trivia question is: what's the earliest and latest "first snow" (not hail) in the autumn at Fairbanks?
7pm update: Snowfall picked up after 5am and it snowed smartly for several hours this morning. Fairbanks Airport wound up with 0.6" of snow and UAF West Ridge 0.9". This is 12 days earlier than the average date of the first measurable snow (at the Airport). These are the earliest measurable snows in the autumn at these low elevation locations since 1993.
Here at Keystone Ridge the 0.1" of snow before midnight Tuesday made this the earliest accumulating snow in the autumn since way back in 2004, and another 0.8" fell this morning.
Last year the first trace of snow at the Fairbanks Airport was on September 30th. So, today's trivia question is: what's the earliest and latest "first snow" (not hail) in the autumn at Fairbanks?
7pm update: Snowfall picked up after 5am and it snowed smartly for several hours this morning. Fairbanks Airport wound up with 0.6" of snow and UAF West Ridge 0.9". This is 12 days earlier than the average date of the first measurable snow (at the Airport). These are the earliest measurable snows in the autumn at these low elevation locations since 1993.
Here at Keystone Ridge the 0.1" of snow before midnight Tuesday made this the earliest accumulating snow in the autumn since way back in 2004, and another 0.8" fell this morning.
Monday, September 16, 2013
Fall Midpoint Map
What defines the Fall season? Well, if you look it up in a textbook there will be one of two definitions. 1) astronomical Fall is between September 21 and December 21 (plus or minus a day), and 2) climatological Fall encompasses the calendar months of September, October, and November.
From a philosophical point of view, both Fall and Spring are seasons without meaning. They represent the transition period from the warm season (Summer) to the cold season (Winter) - and vice versa. As humans we give them attributes (fall foliage, greenup, breakup, etc.) but they lack the definitive markers that summer and winter have. I have done some preliminary research of alternate definitions of season boundaries but given other time constraints have not made much progress. Do they necessarily need to be equal lengths (90 days)?
Using the definition of Fall as the time period between Summer and Winter, and defining Summer and Winter by their respective peaks and troughs, a midpoint for Fall can be defined. In essence, it represents the date falling exactly between the warmest day of the year and the coldest day of the year.
The following three maps show the climatological date for the climatological midpoints of 1) Fall, 2) Summer, and 3) Winter, based on the 1981-2010 climate normals published by NCDC.
I find the Summer and Winter midpoint maps fairly intriguing but the Fall map is rather uninspiring. Anecdotally, I would define Summer in Interior Alaska as May 25th to August 10th and would define Winter as October 20th to April 20th; but I digress. Perhaps seasons can be grouped according to the climate divisions laid out in Climate Divisions for Alaska Based on Objective Methods by Bienief et al.
From a philosophical point of view, both Fall and Spring are seasons without meaning. They represent the transition period from the warm season (Summer) to the cold season (Winter) - and vice versa. As humans we give them attributes (fall foliage, greenup, breakup, etc.) but they lack the definitive markers that summer and winter have. I have done some preliminary research of alternate definitions of season boundaries but given other time constraints have not made much progress. Do they necessarily need to be equal lengths (90 days)?
Using the definition of Fall as the time period between Summer and Winter, and defining Summer and Winter by their respective peaks and troughs, a midpoint for Fall can be defined. In essence, it represents the date falling exactly between the warmest day of the year and the coldest day of the year.
The following three maps show the climatological date for the climatological midpoints of 1) Fall, 2) Summer, and 3) Winter, based on the 1981-2010 climate normals published by NCDC.
I find the Summer and Winter midpoint maps fairly intriguing but the Fall map is rather uninspiring. Anecdotally, I would define Summer in Interior Alaska as May 25th to August 10th and would define Winter as October 20th to April 20th; but I digress. Perhaps seasons can be grouped according to the climate divisions laid out in Climate Divisions for Alaska Based on Objective Methods by Bienief et al.
Sunday, September 15, 2013
September 1992…Round One Done
By late on September 15th, the snow was pretty much done in Fairbanks-land. There were widespread power outages as the heavy snow bent and brought down trees across power lines.
The rapid evolution of the upper level pattern can be seen in the 12 hourly 500mb height and anomaly plots from the NCEP/NCAR reanalysis (4pm AKDT Sep 14, 1992 right, 4am Sep 15 center, 4pm Sep 15 right):
The deep cold low that had been north of Barrow two days below sent one piece of energy southeast across the northern and eastern Interior, with a second center remaining in the Beaufort Sea.This resulted in rapid end to the precipitation over the central Interior during the day on the 15th.
The snowfall amounts from the 12th through the 15th were truly remarkable in the central Alaska Range and also in the Fairbanks area:
Here are a couple of plots of most of the snowfall amounts and liquid equivalents I could find, done shortly after the event. The locational plots are primitive but it's what we had to work with in 1992:
A few comments: the site labled "Goldstream is actually the College 5NW cooperative observation, and the snow amount at Eielson is too high because the observers were doing hourly snowfall measurements (this happened there throughout the early 1990s). The amount at North Pole is probably slightly too low. Note that the 10" at Chatanika though is real: there was definitely less snow there. The site labeled 9NE is the only higher elevation observation available, unlikely the heavy snows in May 1992, this one in the Fairbanks area did not have much elevation dependency. The impact of the warm air push on the 13th is evident at Nenana, where some rain fell on the 13th, so overall there was much less snow with far more liquid.
Here's a similar clunky-looking plot from the time for the Delta Junction area:
Here the main item of interest is the dramatic drop-off in precipitation south of Fort Greely. The accuracy was of these observations were confirmed at the time with the met team at Fort Greely, who reported at the snow on the ground south of Bolio Lake went to very little in just a couple miles.
The rapid evolution of the upper level pattern can be seen in the 12 hourly 500mb height and anomaly plots from the NCEP/NCAR reanalysis (4pm AKDT Sep 14, 1992 right, 4am Sep 15 center, 4pm Sep 15 right):
NCEP/NCAR Reanalysis 500mb Heights & Anomalies 00Z Sep 15 (left), 12Z Sep 15 (center) and 00Z Sep 16, 19 (right) |
The deep cold low that had been north of Barrow two days below sent one piece of energy southeast across the northern and eastern Interior, with a second center remaining in the Beaufort Sea.This resulted in rapid end to the precipitation over the central Interior during the day on the 15th.
The snowfall amounts from the 12th through the 15th were truly remarkable in the central Alaska Range and also in the Fairbanks area:
- Denali National Park Headquarters: 38.1"
- Healy coop: 24"
- Two Rivers coop: 17.8"
- Fairbanks IA: 16.8"
- College 5NW coop: 16.4
Here are a couple of plots of most of the snowfall amounts and liquid equivalents I could find, done shortly after the event. The locational plots are primitive but it's what we had to work with in 1992:
Here's a similar clunky-looking plot from the time for the Delta Junction area:
Here the main item of interest is the dramatic drop-off in precipitation south of Fort Greely. The accuracy was of these observations were confirmed at the time with the met team at Fort Greely, who reported at the snow on the ground south of Bolio Lake went to very little in just a couple miles.
First Freeze at Fairbanks
Clear skies, light wind and a cool air mass allowed the temperature to fall below freezing Sunday morning for the first time this autumn at the Fairbanks International Airport. This is about a week later than average for the Airport (median date since the observations have been at Fairbanks IA is September 8th) Many, though not all valley location had one or more freezes in late August (most widespread on the 25th). A few hillside areas have yet to freeze; the low at Keystone Ridge Sunday morning was 33F but with frost, and the Nenana Hills RWIS reported a low of 36F (though the thermometer sensor is 4 meters or more above the ground).
The plot below shows the raw date (not adjusted for leap years) of the date of first freeze at the Fairbanks Airport. As you can see, September15th is in keeping with first freeze dates over the past 15 years.
The plot below shows the raw date (not adjusted for leap years) of the date of first freeze at the Fairbanks Airport. As you can see, September15th is in keeping with first freeze dates over the past 15 years.
Saturday, September 14, 2013
Warmth Fading
Tuesday's high temperature of 71 °F in Fairbanks was very likely the last time that 70 °F will be reached in 2013, and it's fairly likely that even 65 °F won't be seen again this year, as the rate of seasonal change gathers pace. The chart below shows the climatological (1930-2012) probability of reaching the temperature on the x-axis after September 15 in Fairbanks, showing that 70 °F is reached after September 15 in less than 10 % of all years, while only a third of years reach 65 °F after that date. Note that the probabilities are about the same for the modern history (1981-present) as in the long-term history.
Thursday, September 12, 2013
September 1992…The First Snows
Continuing the saga…snow began in earnest in the Fairbanks area during the afternoon of September 12th and continued with only a few breaks into the early morning hours of the 15th. Below are the NCEP/NCAR reanalysis 500mb heights and anomalies for 10am AKDT Sep 12th (left) and 4pm AKDT Sep 13th (right). The most notable feature of this is the massive high over the southern Bering Sea. The "Death Star" had moved onto the Arctic coast with west-northwest winds aloft into Fairbanks-land.
The corresponding reanalysis for 850mb temperatures and anomalies are below. Note the temperature anomalies under the massive high aloft are not so dramatic except over the central Aleutians:
The image below is a scan of a gem I found in a file of miscellaneous stuff related to this event I have kept for the past 21 years. This is a hand plot of surface observations and a analysis sketch made within a few days of the event (as I recall, this was part of a post event analysis and not produced in real-time):
This is a plot of 4pm AKDT Sep 13th data. The area of snow at this time, as warm air had pushed in across the western Tanana Flats and Alaska Range: note the rain at Healy and Cantwell as well as southwest of Nenana. This critical detail is not evident in the relatively coarse-scale reanalysis. Also note that at this time north of the Yukon-Tanana uplands there was no precipitation occurring. On the 14th the cold air would push south to the Alaska Range. Here was the scenery at my house in Two Rivers (off of 22 Mile Chena Hot Springs Road) on the afternoon of September 13th:
This would be a boring photo if it was October 13th, but it wasn't. If you look close you can see the cottonwood trees behind the house are still in full leaf.
500mb Heights and Anomalies, 18Z Sep 12 (left) and 00Z Sep 14 (right), courtesy NCEP/NCAR Reanalysis |
The corresponding reanalysis for 850mb temperatures and anomalies are below. Note the temperature anomalies under the massive high aloft are not so dramatic except over the central Aleutians:
|
This would be a boring photo if it was October 13th, but it wasn't. If you look close you can see the cottonwood trees behind the house are still in full leaf.
August and Summer Anomalies
The maps below show the August and climatological summer (June-August) temperature and precipitation anomalies for select observing sites in Alaska. Red and green circles indicate above-normal temperature and precipitation respectively, while blue and brown circles indicate below-normal, relative to the 1981-2010 mean (temperature) and median (precipitation). The size of the circles shows how far the anomalies departed from average, with larger circles indicating more unusual conditions.
For August, it's remarkable that every location experienced above-normal temperatures, although none of the anomalies was extreme: the highest standardized anomaly was at Cold Bay, where August mean temperature was 1.4 standard deviations above normal. Both Cold Bay and Kodiak received more rainfall than in any August between 1981 and 2010, although neither location broke a record relative to the long-term history.
For August, it's remarkable that every location experienced above-normal temperatures, although none of the anomalies was extreme: the highest standardized anomaly was at Cold Bay, where August mean temperature was 1.4 standard deviations above normal. Both Cold Bay and Kodiak received more rainfall than in any August between 1981 and 2010, although neither location broke a record relative to the long-term history.
For the summer period of June through August, all locations were warmer than the 1981-2010 mean except for St Paul Island, which fell victim to the colder than normal Bering Sea temperatures. Most locations were more than 1 standard deviation warmer than normal, and Gulkana temperatures were 2.2 SD above normal. Interior and southeastern locations were much drier than average under the influence of the persistent ridge, but many coastal locations on the west side of the ridge were wet. Barrow has seen above-median precipitation every month since March and had one of their wetter summers on record.
Tuesday, September 10, 2013
September 1992…Setting the Table
*** This is Part I. Part II is found HERE. Part III is found HERE. ***
September 1992 brought some of the amazing out-of season-weather ever in Alaska. The Fairbanks area received several snowstorms during the month totaling more than two feet, and amazingly, the snow that started to accumulate on the September 13th remained on the ground until the following April. There was enough snow for people to be skiing on the 15th and I was running dogs with a sled on the autumnal equinox. The snow cover allowed temperatures to remain exceptionally low and produced the longest run of daily temperatures of four or more standard deviations below normal in Fairbanks weather history.
I'll be doing several posts on this historic event, starting with retrospective of September 10, 1992. Here is the mean 500mb pattern and height anomalies. The remarkably deep low north of Barrow was well forecast by the numerical models at the time, though we did not believe it in the days leading up to this event, referring to it jokingly as the "death star". Such a deep low so early in the autumn was beyond reasonableness.
The 850mb temperatures show a deep cold airmass over nearly all of the state. Temperatures in this NCEP/NCAR reanalysis are in degrees Kelvin, so freezing is 273K. The low temperature on the 10th at Fairbanks was 18F, easily a new record low for the date and the first of what would be eight daily record lows set during the month. And there was no snow on the ground yet.
September 1992 brought some of the amazing out-of season-weather ever in Alaska. The Fairbanks area received several snowstorms during the month totaling more than two feet, and amazingly, the snow that started to accumulate on the September 13th remained on the ground until the following April. There was enough snow for people to be skiing on the 15th and I was running dogs with a sled on the autumnal equinox. The snow cover allowed temperatures to remain exceptionally low and produced the longest run of daily temperatures of four or more standard deviations below normal in Fairbanks weather history.
I'll be doing several posts on this historic event, starting with retrospective of September 10, 1992. Here is the mean 500mb pattern and height anomalies. The remarkably deep low north of Barrow was well forecast by the numerical models at the time, though we did not believe it in the days leading up to this event, referring to it jokingly as the "death star". Such a deep low so early in the autumn was beyond reasonableness.
The 850mb temperatures show a deep cold airmass over nearly all of the state. Temperatures in this NCEP/NCAR reanalysis are in degrees Kelvin, so freezing is 273K. The low temperature on the 10th at Fairbanks was 18F, easily a new record low for the date and the first of what would be eight daily record lows set during the month. And there was no snow on the ground yet.
Consecutive Wet Days
With Anchorage approaching the record number of consecutive days with measurable precipitation, I thought it would be interesting to see where other stations stacked up. The attached maps show the record number of consecutive days with measurable precipitation (>= 0.01") and the record number of consecutive days with at least a trace of precipitation. This was culled from the GHCN database for all Alaska stations. I decided to stick with "major" stations since they are more likely to capture days with small precipitation amounts. Ketchikan had the most consecutive days of measurable precipitation (88) and Adak had the most days with at least a trace of precipitation (203).
Here is the list that was used to make the maps above. It is sorted by max number of days with measurable precipitation.
Here is the list that was used to make the maps above. It is sorted by max number of days with measurable precipitation.
Station_Name | Measurable | Trace |
KETCHIKAN INTL AP | 88 | 101 |
LITTLE PORT WALTER | 69 | 71 |
SELDOVIA AP | 58 | 68 |
ADAK | 57 | 203 |
YAKUTAT STATE AP | 53 | 90 |
ANNEX CREEK | 53 | 61 |
JUNEAU DWTN1 | 51 | 68 |
KODIAK AP | 50 | 51 |
JUNEAU INTL AP | 49 | 68 |
WRANGELL AIRPORT | 48 | 84 |
ANNETTE ISLAND AP | 47 | 81 |
YAKATAGA AP | 46 | 47 |
CORDOVA M K SMITH AP | 45 | 57 |
JUNEAU DWTN2 | 43 | 63 |
MAC LEOD HARBOR | 38 | 38 |
ST PAUL ISLAND AP | 38 | 164 |
SEWARD AP | 36 | 44 |
ST GEORGE ISLAND AP | 29 | 115 |
VALDEZ WSO | 29 | 42 |
BETHEL AP | 29 | 48 |
JUNEAU FORECAST OFFICE | 29 | 55 |
MIDDLETON ISLAND AUTO | 27 | 49 |
HAINES AP | 23 | 41 |
KING SALMON | 22 | 45 |
TALKEETNA AP | 21 | 30 |
BARROW POST ROGERS AP | 21 | 80 |
EAGLE AP | 21 | 27 |
HOMER AP | 21 | 34 |
VALDEZ AIRPORT | 20 | 22 |
MCGRATH AP | 19 | 42 |
NOME MUNI AP | 19 | 36 |
ANCHORAGE MERRILL FLD | 19 | 28 |
KENAI MUNI AP | 18 | 22 |
POINT HOPE | 18 | 29 |
NENANA MUNI AP | 17 | 50 |
ST MARYS AP | 17 | 49 |
ANCHORAGE INTL AP | 17 | 31 |
BETTLES AP | 17 | 29 |
GIRDWOOD | 17 | 22 |
MATANUSKA EXPERIMENT FARM | 16 | 19 |
WISEMAN | 16 | 24 |
FAIRBANKS MIDTOWN | 16 | 26 |
KOTZEBUE RALPH WEIN AP | 15 | 32 |
SKAGWAY AP | 15 | 58 |
ANCHORAGE FRCST OFC | 15 | 31 |
ANCHORAGE LAKE HOOD AP | 15 | 17 |
BIG DELTA AP | 15 | 24 |
EIELSON FLD | 15 | 30 |
FAIRBANKS INTL AP | 15 | 23 |
KEYSTONE RIDGE | 14 | 23 |
POINT LAY | 14 | 32 |
UNIVERSITY EXP STN | 13 | 26 |
WOODSMOKE | 13 | 29 |
GALENA AP | 13 | 32 |
PRUDHOE BAY | 12 | 33 |
WAINWRIGHT AP | 12 | 40 |
EIELSON VISITOR CTR | 12 | 14 |
FAIRBANKS AP #2 | 12 | 23 |
GULKANA AP | 12 | 21 |
DEADHORSE AP | 11 | 55 |
NUIQSUT AP | 8 | 48 |
Sunday, September 8, 2013
Precipitation Frequency In Fairbanks
The past couple of weeks in Fairbanks have seemed damp, with measurable rain on nine of the past 14 days. Rainfall has not been excessive, with about three-quarters of an inch of rain during that time (thru 10am AKDT Sunday). How does this stack up against the climatological frequency of rainfall?
To address this, I've calculated the frequency of days with measurable precipitation (≥0.01") by week (starting Jan 01, not smoothed) for the past 84 years:
By this definition, the climatologically wettest time of year is from mid-July through August, with a sharp drop-off in the frequency of measurable precipitation the first week in September. This is followed by a weak secondary maximum in late October. I'm speculating here, but I suspect that the sharp decline of damp days in early September is due to a decline in the climatological frequency of a big North Pacific ridge centered south of south of Alaska (which results in southwest flow aloft that brings moisture around the Alaska Range).
To address this, I've calculated the frequency of days with measurable precipitation (≥0.01") by week (starting Jan 01, not smoothed) for the past 84 years:
By this definition, the climatologically wettest time of year is from mid-July through August, with a sharp drop-off in the frequency of measurable precipitation the first week in September. This is followed by a weak secondary maximum in late October. I'm speculating here, but I suspect that the sharp decline of damp days in early September is due to a decline in the climatological frequency of a big North Pacific ridge centered south of south of Alaska (which results in southwest flow aloft that brings moisture around the Alaska Range).
Saturday, September 7, 2013
Fairbanks Wins Summer 2013 Temperature Contest
* Updated 9/8 with tabled added at end *
The winner for greatest average temperature during Summer 2013 was the Fairbanks International Airport. Their average temperature was 63.5°F. The lowest temperature was Barrow 4ENE. Their temperature was 38.7°F. To qualify for the ranking, a station had to record at least 89 (of a possible 92) days with complete (and unflagged) temperature data. A grand total of 142 of the 249 stations in Alaska qualified. The first map below shows the locations of the 142 stations and colors represent the temperature categories. An inverse distance weighted surfacing technique was used.
The winner for greatest average temperature during Summer 2013 was the Fairbanks International Airport. Their average temperature was 63.5°F. The lowest temperature was Barrow 4ENE. Their temperature was 38.7°F. To qualify for the ranking, a station had to record at least 89 (of a possible 92) days with complete (and unflagged) temperature data. A grand total of 142 of the 249 stations in Alaska qualified. The first map below shows the locations of the 142 stations and colors represent the temperature categories. An inverse distance weighted surfacing technique was used.
Within Fairbanks, the second greatest value was at Aurora (62.1). The Aurora value is also the second largest for the entire state of Alaska. To me, the difference between the two stations, 1.4°F, indicates either a pronounced urban heat island effect at the airport or some other local meteorological effect. Any insight from Fairbanksans would be appreciated.
[The Aurora and Airport #2 cooperative are very close to sloughs and the effects are evident on clear nights, when the low temperatures runs lower than the Airport. College Observatory has a time-of-obs confound. The Airport is a relative warm spot due to the slightly relative higher elevation—note that the Airport did not flood in August 1967 and is also much more open exposure than any coop site, which undoubtedly allows for more mixing. —Rick]
* Update section *
Thanks for the insight into the local temperature effect in Fairbanks Rick. The additional table below shows the top Summer 2013 temperatures. Interestingly, the warmest overnight low temperatures in Alaska this summer were measured in Anchorage. Consequently, both Merrill Field (PAMR) and Lake Hood (PALH) were warmer overall than most stations in Fairbanks.