Lake Storm Aphid

Last updated
Lake Storm Aphid
Officetower kbuf october13 06.jpg
Accumulation at the Buffalo Airport and NWS office
Type Winter storm
Snowsquall
FormedOctober 11, 2006
DissipatedOctober 13, 2006
Lowest pressure980 mb (28.94 inHg)
Maximum snowfall
or ice accretion		61 centimetres (24 in) [1]
Fatalities13
Damage$530 million USD
Power outages400,000
Areas affected Erie County, Genesee County, Orleans County, Niagara County, Niagara Region

The October 2006 Buffalo storm was an unusual early-season lake effect snow storm that hit the Buffalo, New York area and other surrounding areas of the United States and Canada, from the afternoon of Thursday, October 12 through the morning of Friday, October 13, 2006. [2] It was called Lake Storm Aphid by the National Weather Service office in Buffalo, [3] in accordance with their naming scheme for lake-effect snowstorms for that year, which related to insects, though locals never used that terminology and have simply referred to it as the October Surprise [4] or the October Storm [5] or Arborgeddon. [6]

Contents

History

On October 6, 2006, the first concerns of a possible lake-effect snow (LES) event were raised, as medium and long range numerical weather models began to indicate conditions would be potentially favorable for lake effect precipitation, resulting in mixed snow-rain conditions. The long term forecast from the Buffalo office of the National Weather Service (NWS), as well as the Environment Canada discussion, both indicated possible LESs, but predicted that accumulations would be minimal. [7]

By October 9, however, forecasters became concerned, given the high snow fall rates typical of snow squalls, accumulations would be possible even with temperatures above the freezing mark. [8] [9]

The Buffalo NWS and associated weather offices in the U.S and Canada did not issue any special advisories or make significant mention of the possibility of a major snow fall event until early afternoon on October 11. [7] The NWS Buffalo issued a special advisory for the possibility of LES with minor accumulations of less than 2 inches (5.1 cm). Environment Canada followed suit issuing a special weather advisory for Canadian areas which would also be affected.

US Weather Map showing the low pressure system on October 12th, which was responsible for setting up the correct wind field and temperature gradient for lake effect snow off Lake Erie Meteorological US surface map 20061012.gif
US Weather Map showing the low pressure system on October 12th, which was responsible for setting up the correct wind field and temperature gradient for lake effect snow off Lake Erie

The warm front associated with the developing low pressure system brought rain and thunderstorms to much of western New York and southern Ontario since the early morning hours of the 11th. The quickly approaching cold front passed the Port Colborne reporting station in Ontario at 11:35 pm EST October 11 [10] and the Buffalo Airport reporting station at 12:46 am EST October 12. With the passage of the cold front, polar continental air began to flood in behind it, and by 3:30 am EST, a lake effect squall began to form over Lake Erie in the strong westerly winds. The first lake effect rain was reported at 3:54 am EST at the Buffalo Airport.

The morning of October 12 saw the first deep concern among forecasters that a large snowfall event was possible. [7] Indications at the time were still mainly that of a rainfall event with ice pellets and some wet snow mixed in. Towards the afternoon of the October 12, a warning was issued by the NWS Buffalo for the possibility of one to six inches of wet snow. Environment Canada also released a similar warning, advising the public that conditions like those found in typical winter LESs were possible, although only minor accumulation was expected, if any. On that day, the NWS Buffalo dubbed the storm "Lake Storm Aphid", in accordance with their naming scheme for lake-effect storms for that year. [3]

The first reports of ice in the form of small hail and ice pellets were reported at the Buffalo Airport at 12:14 pm, [11] the temperature at the time was 41 °F (5 °C) after which it fell to 37 °F (3 °C) by 1:00 pm and 36 °F (2 °C) by 1:38 pm. [11] Then at 1:51 pm, the first rain-snow mix was reported, and by 2:09 pm the rain had changed over entirely to snow, with the temperature dropping to 33.8 °F (1.0 °C) by 2:13 pm. This prompted the NWS in Buffalo to issue a LES warning at 2:36 pm for Niagara, Orleans, Northern Erie and Genesee counties. [12] The warning, which would become effective as of 8:00 pm through to 6:00 am, called for one to three inches of snow, with possible accumulations of up to 6 inches (150 mm) well inland; the warning also made specific mention of possible tree damage and power outages. [12]

The changeover to snow resulted from increased mixing within the squall; as colder air continued to flood in from the west, the atmosphere continued to destabilize vertically as the temperature difference between the lake water and the air several kilometers above grew larger. This allowed the squall to grow vertically in height and achieve much faster updraft speeds. At the 2:54 pm, radar indicated the first 20,000 ft (6,100 m) echo-top; at the same time, lightning was detected.

Despite heavy snow at times, accumulation was limited to grassy areas and locations which were not in direct contact with the ground, such as tree branches and power lines. The first notable ground accumulations started to occur just after 4:54 pm, when snow fall rates jumped to 1 inch per hour (2.5 cm/h) within thunderstorms inside the squall. At 6:48 pm, the NWS decided to update the LES warning, making it effective immediately and emphasizing extensive tree damage and the loss of power was imminent. By 8:00 pm, numerous reports of downed trees and power lines, and other damage began to flood the NWS Buffalo offices; by this time 3 in (7 cm) had accumulated on the ground.

As much as 24 inches (61 cm) fell in the Buffalo area, but in the nearby greater Toronto area, there was no snowstorm at all.

Timeline

Looking to the east on Forest and Elmwood Avenues in Buffalo, New York during the early stages of the lake effect snow storm Buffalo snow storm1.jpg
Looking to the east on Forest and Elmwood Avenues in Buffalo, New York during the early stages of the lake effect snow storm
A tree limb falls onto a truck on Granger Place in Buffalo Buffalo snow storm3.jpg
A tree limb falls onto a truck on Granger Place in Buffalo
A car is crushed by a tree limb on Potomac off Elmwood Avenue in Buffalo, New York Buffalo snow storm14.jpg
A car is crushed by a tree limb on Potomac off Elmwood Avenue in Buffalo, New York

Accumulation

NWS Buffalo radar estimated liquid accumulation Precip total october12 13 06.png
NWS Buffalo radar estimated liquid accumulation
Accumulation track in inches (NWS) Lake Effect Aphid Snow Storm-2006-october-12-13.gif
Accumulation track in inches (NWS)
Locations in USSnowfall [2]
Lancaster/Depew 24 inches
Alden (Millgrove)24 inches
Cheektowaga (NWS)22.6 inches
Buffalo (North)20 inches
Buffalo (Downtown)15 inches
Buffalo (South)10 inches
Amherst 14 to 22 inches
Clarence 16 to 22 inches
Tonawanda 12 to 18 inches
West Seneca 14 inches
North Tonawanda 6 to 12 inches
Hamburg 8 to 14 inches
Orchard Park 8 inches
Batavia 10 inches
Medina 8 inches
Lockport 6 to 8 inches
Grand Island 2 to 10 inches
Albion5 inches
Brockport 3 inches
Niagara Falls, New York 1 inch
Locations in CanadaAccumulations [13]
(cm)
Fort Erie, Ontario 30
Niagara Falls, Ontario Trace
Port Colborne, Ontario 15


Impact

Looking westward on Bird Avenue in Buffalo, New York just off Elmwood Avenue, the street is completely blocked by extensive tree damage Buffalo snow storm17.jpg
Looking westward on Bird Avenue in Buffalo, New York just off Elmwood Avenue, the street is completely blocked by extensive tree damage

The storm's effects were highly localized: it dumped up to 2 feet (61 cm) of snow on some areas of the Buffalo metro region, while other areas saw very little snow, or no snow at all. The event was described by the NWS Office in Buffalo, New York, as "astounding", "unbelievable" and "incredible" and by the Toronto Star as "one of the most devastating snow storms in US history". [2] [14] It was also an example of the "particularly rare meteorological phenomenon" known as thundersnow.

These were the two snowiest October days recorded in Buffalo since the NWS began keeping track 137 years ago.

In affected areas, wet, heavy lake effect snow with a snow-water equivalent (SWE) ratio of between 6:1 and 12:1 (in comparison, the "powder" so prized by skiers is 25:1) and with a weight in excess of 9.8 pounds per square foot) [15] piled onto trees which were still in full leaf, leading to significant damage [to trees] on a scale usually associated with hurricanes. [2] An estimated 400,000 people were without power on Friday the 13th, [16] some 100,000 households remained without power for a week, [17] and a few thousand remained without power for ten days. [18]

During the power outage, whenever generators went on sale, they typically ran out within thirty minutes. Lowe's and Home Depot stores were sold out immediately after the storm hit. Despite the conditions, a Buffalo Sabres hockey game against the New York Rangers was not postponed at HSBC Arena despite the power outage, and the game still had a full attendance of 18,690.

Effects of the storm were responsible for three fatalities between Thursday night, when the storm hit, and Friday morning, two from automobile accidents, and one from a falling branch. Ten more deaths followed in the first days of the aftermath, some from pre-existing health (usually heart) conditions and other causes, and several from carbon monoxide poisoning. Injuries blamed on the storm and its aftermath numbered in the several hundred and included those from chainsaw accidents and carbon monoxide poisoning due to people running generators inside homes. [19]

Conservative initial damage estimates to clean up the estimated 6 to 8.6 million cubic yards of debris were at least US$130 million, [19] [20] but even ten days after the storm hit, estimates of the number of tons of debris and the final costs of clearing them were "a moving target". [21] The storm closed the Buffalo-Niagara International Airport for several hours on Thursday, October 12, and again on Friday, October 13, and closed a 100-mile (160-km) stretch of the New York State Thruway for several hours on Friday, October 13. Many, if not most, businesses were closed for at least a few days, and schools for at least a week. Most schools reopened on Monday, October 23, after six consecutive "snow days", but a few in the most heavily affected areas reopened later that week. [22] Affected parts of Erie, Genesee, Orleans and Niagara counties in Western New York were declared a "major disaster" area by President George W. Bush on October 24, 2006. [23]

Damage in the Buffalo Metro area October buffalo 12-13 06 storm dmg.jpg
Damage in the Buffalo Metro area

As many as 90 percent of the city's trees were estimated to be damaged, [24] [25] including many in the city's cherished parks and parkways, which were designed by landscape architect Frederick Law Olmsted. The damage constituted a significant setback to Buffalo's urban reforestation agenda, [26] which had aimed to increase the city's tree canopy from its estimated 2003 levels of 12% to more closely approach the national average of 30%. Buffalo's suburbs, also hard hit by the storm, do have a canopy cover approaching 20 to 30%. [27]

Although the two-foot snow cover melted by October 15, [28] cleanup efforts were impeded in the first days after the storm by the tangle of fallen trees, fallen branches and downed power lines: power grid crews could not reach the downed power lines because of fallen trees, and tree removal crews could not clear debris because of the dangers of the downed power lines. [29] Even after roads were cleared and power was restored, the cleanup and restoration was estimated to take weeks or months. [18] [30]

Response

Each jurisdiction had very similar Emergency Operation Plans and this made for a very consistent manner in how activities such as clean-up and response would be organized. Initially, the snow of this storm began to fall just like any other day in the winter season throughout the Buffalo region. Local fire departments were the first to respond to tree limbs blocking road ways, car accidents, and other incidents on top of "usual calls for help". As the storm worsened, police departments had officers staged at major intersections to help in the direction of traffic. Highway departments were called back into work to assist in the removal of tree limbs off roadways. At this point the snow started to come down at a heavier rate and the crews could not keep up with the trees that were obstructing roadways. As a result, plows could not get through to clear the snow and the whole region was "stranded in place". Falling tree limbs greatly contributed to the loss of electricity in all municipalities affected. Downed power lines that were charged also prevented people from driving over them (plowing of the streets). Local departments soon became overwhelmed and requested assistance from the town and city disaster co-coordinators. Requests were made to Erie County for assistance and then up to the state level. "On October 13, 2006, New York Governor George Pataki declared a state of emergency for Erie, Niagara, Genesee and Orléans Counties and dispatched State equipment and crews to assist in clearing debris. Local mayors and town supervisors also declared states of emergency in their respective municipalities. The Federal Emergency Management Agency initially issued a temporary disaster declaration allowing for federal assistance, including financial, for local governments, but which did not address or provide for assistance to individual households affected by the Storm."(Szukala). From here the governor declared a state of emergency and eventually received a presidential declaration which declared a federal state of emergency. The Emergency Operations Plan allowed for effective communication between agencies which helped the disaster run in a smoother manner. [3]

See also

Related Research Articles

<span class="mw-page-title-main">Lake-effect snow</span> Weather phenomenon

Lake-effect snow is produced during cooler atmospheric conditions when a cold air mass moves across long expanses of warmer lake water. The lower layer of air, heated by the lake water, picks up water vapor from the lake and rises through colder air. The vapor then freezes and is deposited on the leeward (downwind) shores.

<span class="mw-page-title-main">Blizzard of 1977</span> Deadly 1977 blizzard in Western New York, United States, and Southern Ontario, Canada

The blizzard of 1977 hit Western New York and Southern Ontario from January 28 to February 1 of that year. Daily peak wind gusts ranging from 46 to 69 mph were recorded by the National Weather Service in Buffalo, with snowfall as high as 100 in (254 cm) recorded in areas, and the high winds blew this into drifts of 30 to 40 ft. There were 23 total storm-related deaths in Western New York, with five more in northern New York.

A winter storm warning is a hazardous weather statement issued by Weather Forecast Offices (WFO) of the National Weather Service (NWS) in the United States to alert the public that a winter storm is occurring or is about to occur in the area, usually within 36 hours of the storm's onset.

A lake effect snow warning is a bulletin issued by the National Weather Service in the United States to warn of heavy snowfall accumulations that are imminent from convective snow generated by very cold airmass passing over unfrozen lakes. The criteria for amounts may vary significantly over different county warning areas. On October 2, 2017, some National Weather Service Forecast Offices discontinued issuing the Lake Effect Snow Warning, and consolidated it with the Winter Storm Warning. On October 15, 2018, the National Weather Service discontinued issuing Lake Effect Snow Warnings nationwide all together, and all offices consolidated it with the Winter Storm Warning. Lake effect snow warnings were reinstated for the 2019–20 winter season.

A snow squall warning is a bulletin issued by Environment Canada's Meteorological Service of Canada and the National Weather Service in the United States to warn population of two types of snow events reducing visibility in blowing snow: lake effectsnow squalls and frontal snow squalls.

The January 2007 North American ice storm was a severe ice storm that affected a large swath of North America from the Rio Grande Valley to New England and southeastern Canada, starting on January 11 and lasting until January 16. It was followed by a second wave in the Southern United States from Texas to the Carolinas from January 16 through January 18, and a third one that hit the southern Plains and mid-Atlantic states as well as Newfoundland and Labrador from January 19 to January 24. It resulted in at least 74 deaths across 12 U.S. states and three Canadian provinces, and caused hundreds of thousands of residents across the U.S. and Canada to lose electric power.

<span class="mw-page-title-main">Snow in Florida</span> Snow events in Florida, USA

It is very rare for snow to fall in the U.S. state of Florida, especially in the central and southern portions of the state. With the exception of the far northern areas of the state, most of the major cities in Florida have never recorded measurable snowfall, though trace amounts have been recorded, or flurries in the air observed few times each century. According to the National Weather Service, in the Florida Keys and Key West there is no known occurrence of snow flurries since the European colonization of the region more than 300 years ago. In Miami, Fort Lauderdale, and Palm Beach there has been only one known report of snow flurries observed in the air in more than 200 years; this occurred in January 1977. In any event, Miami, Fort Lauderdale, and Palm Beach have not seen snow flurries before or since this 1977 event.

<span class="mw-page-title-main">February 2007 North American blizzard</span>

The February 2007 North American blizzard was a massive winter storm that affected most of the eastern half of North America, starting on February 12, 2007 and peaking on Valentine's Day, February 14. The storm produced heavy snowfalls across the midwestern United States from Nebraska to Ohio and produced similar conditions across parts of the northeastern United States, and into Canada in Ontario, Quebec and New Brunswick. Significant sleet and freezing rain fell across the southern Ohio Valley and affected portions of the east coast of the United States, including the cities of Boston, Baltimore, Washington, D.C., New York City and Philadelphia.

The Early December 2007 North American winter storm was a major winter storm which affected the majority of the United States and portions of southern Canada from November 29 to December 5, hitting the Intermountain West and Midwestern United States, the Great Lakes region and the Northeast. The storm brought significant snows to portions of the Upper Midwest, Great Plains and Great Lakes regions of the United States and Canada on December 1 with a major winter storm for Quebec, Ontario and parts of the Northeast region on December 2 and 3 as well as the Canadian Maritimes on December 4 and 5. The system was also responsible for a major ice storm across the Midwestern states which caused disruptions to several major cities including Des Moines, Chicago, Detroit, Milwaukee and Toronto. The storm was blamed for at least 16 deaths across nine US states and one Canadian province. 10 traffic deaths had been reported, as of 2 December 2007.

<span class="mw-page-title-main">Mid-December 2007 North American winter storms</span>

The Mid-December 2007 North American winter storms were a series of two winter storms that affected much of central and eastern North America, from December 8 to December 18, 2007. The systems affected areas from Oklahoma to Newfoundland and Labrador with freezing rain, thunderstorms, sleet, snow, damaging winds, and blizzard-like conditions in various areas. The first two storms produced copious amounts of ice across the Midwestern United States and Great Plains from December 8 to December 11, knocking out power to approximately 1.5 million customers from Oklahoma north to Iowa. The second storm moved northeast, producing heavy snow across New York and New England. A third storm was responsible for a major winter storm from Kansas to the Canadian Maritimes, bringing locally record-breaking snowfalls to Ontario, an icestorm across the Appalachians, and thunderstorms and tornadoes to the Southeastern United States.

The National Weather Service Buffalo, New York is a local office of the National Weather Service responsible for monitoring weather conditions in Western New York and other portions of upstate, downwind from Lake Erie and Lake Ontario. It is based on the premises of Buffalo Niagara International Airport in Cheektowaga. The territory covers the cities of Buffalo, Rochester, Geneva, Fulton, and Watertown. Much of the office's work focuses on lake-effect snow.

<span class="mw-page-title-main">Weather of 2008</span>

Global storm activity of 2008 profiles the major worldwide storms, including blizzards, ice storms, and other winter events, from January 1, 2008 to December 31, 2008. A winter storm is an event in which the dominant varieties of precipitation are forms that only occur at cold temperatures, such as snow or sleet, or a rainstorm where ground temperatures are cold enough to allow ice to form. It may be marked by strong wind, thunder and lightning, heavy precipitation, such as ice, or wind transporting some substance through the atmosphere. Major dust storms, Hurricanes, cyclones, tornados, gales, flooding and rainstorms are also caused by such phenomena to a lesser or greater existent.

Global weather activity of 2007 profiles the major worldwide weather events, including blizzards, ice storms, tornadoes, tropical cyclones, and other weather events, from January 1, 2007, to December 31, 2007. Winter storms are events in which the dominant varieties of precipitation are forms that only occur at cold temperatures, such as snow or sleet, or a rainstorm where ground temperatures are cold enough to allow ice to form. It may be marked by strong wind, thunder and lightning, heavy precipitation, such as ice, or wind transporting some substance through the atmosphere. Other major non winter events such as large dust storms, Hurricanes, cyclones, tornados, gales, flooding and rainstorms are also caused by such phenomena to a lesser or greater existent.

Global weather activity of 2006 profiles the major worldwide weather events, including blizzards, ice storms, tropical cyclones, tornadoes, and other weather events, from January 1, 2006, to December 31, 2006. Winter storms are events in which the dominant varieties of precipitation are forms that only occur at cold temperatures, such as snow or sleet, or a rainstorm where ground temperatures are cold enough to allow ice to form. It may be marked by strong wind, thunder and lightning, heavy precipitation, such as ice, or wind transporting some substance through the atmosphere. Other major non winter events such as large dust storms, Hurricanes, cyclones, tornados, gales, flooding and rainstorms are also caused by such phenomena to a lesser or greater existent.

<span class="mw-page-title-main">2011 Groundhog Day blizzard</span> 2011 blizzard affecting the U.S. and Canada

The 2011 Groundhog Day blizzard was a powerful and historic winter storm that affected large swaths of the United States and Canada from January 31 to February 2, 2011, especially on Groundhog Day. During the initial stages of the storm, some meteorologists predicted that the system would affect over 100 million people in the United States. The storm brought cold air, heavy snowfall, blowing snow, and mixed precipitation on a path from New Mexico and northern Texas to New England and Eastern Canada. The Chicago area saw 21.2 inches (54 cm) of snow and blizzard conditions, with winds of over 60 mph (100 km/h). With such continuous winds, the blizzard continued to the north and affected Eastern and Atlantic Canada. Blizzard conditions affected many other large cities along the storm's path, including Tulsa, Oklahoma City, Kansas City, St. Louis, Springfield, El Paso, Las Cruces, Des Moines, Milwaukee, Detroit, Chicago, Indianapolis, Dayton, Cleveland, New York City, New York's Capital District, and Boston. Many other areas not normally used to extreme winter conditions, including Albuquerque, Dallas and Houston, experienced significant snowfall or ice accumulation. The central Illinois National Weather Service in Lincoln, Illinois, issued only their fourth blizzard warning in the forecast office's 16-year history. Snowfall amounts of 20 to 28 inches were forecast for much of Northern and Western Illinois.

<span class="mw-page-title-main">2020–21 North American winter</span> Winter season in North America

The 2020–21 North American winter was the most significant winter season to affect North America in several years, and the costliest on record, with a damage total of at least $33.35 billion. The season featured 6 storms ranking on the Regional Snowfall Index scale, with 4 storms ranking as at least a Category 3. Most of the winter's damage and fatalities occurred due to a historic and major cold wave in mid-February. Several other significant events occurred, including a crippling early-season ice storm in the Southern Plains, a powerful nor'easter in mid-December, another major nor'easter in early February, two major and widespread winter storms in mid-February, and a major blizzard in the Rocky Mountains in mid-March. The winter-related events were responsible for at least 358 fatalities, making it the deadliest season since 1992–93. A La Niña pattern influenced much of the winter in North America.

<span class="mw-page-title-main">January 14–17, 2022, North American winter storm</span> Category 2 snow and ice storm in North America

The January 14–17, 2022 North American winter storm brought widespread impacts and wintry precipitation across large sections of eastern North America and parts of Canada. Forming out of a shortwave trough on January 13, it first produced a swath of snowfall extending from the High Plains to the Midwestern United States. The storm eventually pivoted east and impacted much of the Southern United States from January 15–16 before shifting north into Central Canada, the Mid-Atlantic states, and the Northeastern United States. The system, named Winter Storm Izzy by The Weather Channel, was described as a "Saskatchewan Screamer".

<span class="mw-page-title-main">2022–23 North American winter</span> Winter season in North America

The 2022–23 North American winter was an unusually warm winter for the east and an unusually cold winter for the west in North America, as it occurred across the continent from late 2022 to early 2023. The winter season in North America began at the winter solstice, which occurred on December 21, 2022, and it ended at the March equinox, which occurred on March 20, 2023. The first day of meteorological winter began on December 1 and unofficially ended on February 28; winter storms may still occur outside of these limits.

<span class="mw-page-title-main">November 2022 Great Lakes winter storm</span> Winter storm in November 2022

The November 2022 Great Lakes winter storm was a winter storm that affected parts of Pennsylvania, Ohio, and New York. The highest total snowfall of the storm was 81.2 inches, recorded in Hamburg, New York. At least four fatalities occurred, with three in New York and one in Indiana.

<span class="mw-page-title-main">December 2022 North American winter storm</span> North American winter storm in 2022

From December 21 to 26, 2022, a historic extratropical cyclone created crippling winter storm conditions, including blizzards, high winds, snowfall, or record cold temperatures across the majority of the United States and parts of Canada. Areas which experienced blizzard conditions included parts of Minnesota, Iowa, Wisconsin, Michigan, Ohio, Pennsylvania, New York and Ontario, with the Buffalo area of New York and the Fort Erie and Kingston areas of Ontario experiencing almost two full days of blizzard/zero-visibility conditions on December 23 and 24. The cold wave affected all U.S. states from Colorado to the eastern seaboard and as far south as Miami, Florida. On December 24, 110 million people across 36 states were subject to wind chill alerts.

References

  1. "Archived copy". Archived from the original on 2015-10-16. Retrieved 2006-10-19.{{cite web}}: CS1 maint: archived copy as title (link)
  2. 1 2 3 4 "Historic Lake Effect Snow Storm of October 12–13, 2006". National Weather Service Forecast Office in Buffalo. Archived from the original on 2015-10-16. Retrieved 2006-10-20.
  3. 1 2 3 Poloncarz, Mark C.; Szukala, Michael R. (September 2010). "REVIEW OF THE ERIE COUNTY STORM FUND – Analysis of the County's Expenses and Reimbursements Associated with the October 12–13, 2006 Storm" (PDF). Erie County Government. Archived (PDF) from the original on October 21, 2020. Retrieved February 18, 2021.
  4. "Cost of October Surprise storm revealed | WIVB.com". Archived from the original on 1 October 2010. Retrieved 2 February 2022.
  5. "Remembering The October Storm | WKBW News 7: News, Sports, Weather | Buffalo, NY | Top Stories". Archived from the original on 17 October 2010. Retrieved 2 February 2022.
  6. Gabe (17 October 2006). "Arborgeddon". Buffalo Rising. Archived from the original on 30 September 2022. Retrieved 30 September 2022.
  7. 1 2 3 "Archived copy". Archived from the original on 2008-10-07. Retrieved 2007-09-17.{{cite web}}: CS1 maint: archived copy as title (link)
  8. "Surface Weather and Station Plots". Wpc.ncep.noaa.gov. Archived from the original on 30 September 2022. Retrieved 2 February 2022.
  9. "Surface Weather and Station Plots". Wpc.ncep.noaa.gov. Archived from the original on 4 March 2016. Retrieved 2 February 2022.
  10. "Archived copy". Archived from the original on 2008-10-07. Retrieved 2007-09-17.{{cite web}}: CS1 maint: archived copy as title (link)
  11. 1 2 "Archived copy". Archived from the original on 2008-10-07. Retrieved 2007-09-17.{{cite web}}: CS1 maint: archived copy as title (link)
  12. 1 2 "Archived copy". Archived from the original on 2008-10-07. Retrieved 2007-09-17.{{cite web}}: CS1 maint: archived copy as title (link)
  13. Meteorological Service of Canada. "Daily reports for October 2006 in Ontario". Environment Canada . Retrieved 2007-11-26.[ permanent dead link ]
  14. Michelle Henry (2006-10-21). "30,000 homes still without power". Toronto Star. Archived from the original on 2007-09-29. Retrieved 2006-10-22.
  15. Stu Ostro (2006-10-12). "Historic snowfall for the Niagara Frontier". Weather Channel blog. Archived from the original on October 20, 2009. Retrieved 2006-10-22.
  16. "Buffalo, New York snow storm closes schools, leaves nearly 400,000 without power". Wikinews. 2006-10-13. Archived from the original on 2022-09-30. Retrieved 2006-10-20.
  17. Tim Lai (2006-10-19). "Buffalo still staggering". The Toronto Star. Archived from the original on 2007-09-29. Retrieved 2006-10-20.
  18. 1 2 Michael Beebe (2006-10-22). "Major disaster status expected". Buffalo News. Retrieved 2006-10-22.[ dead link ]
  19. 1 2 Michael Beebe (2006-10-20). "Cleanup costs top $135 million". Buffalo News. Retrieved 2006-10-20.[ dead link ]
  20. Michael Beebe (2006-10-21). "Storm reimbursement cloudy". Buffalo News. Retrieved 2006-10-21.[ dead link ]
  21. Stephen T. Watson and Mary B. Pasciak (2006-10-22). "Cleanup cost a moving target likely to grow bigger". Buffalo News. Retrieved 2006-10-22.[ dead link ]
  22. "Most western New York schools reopen after October-surprise". 13WHAM TV (AP). 2006-10-23. Retrieved 2006-10-25.[ permanent dead link ]
  23. "FEMA Disaster Declaration: What It Means For You". WBEN 930AM. 2006-10-25. Archived from the original on September 27, 2007. Retrieved 2006-10-25.
  24. Caroline Thompson (October 20, 2006). "Early snowstorm battered Buffalo's historic parks, trees". USA Today. Associated Press. Archived from the original on May 22, 2011. Retrieved May 7, 2010.
  25. Gene Warner (2006-10-15). "Parks' treasures badly battered". Buffalo News. Retrieved 2006-10-20.[ dead link ]
  26. Press Release (April 2006). "City of Buffalo Receives State Grant". Office of the Mayor, Buffalo. Archived from the original on 2006-10-02. Retrieved 2006-10-20.
  27. "Urban Ecosystem Analysis Buffalo-Lackawanna Area Erie County, New York" (PDF). American Forests. June 2003. Archived from the original (PDF) on 2006-06-18. Retrieved 2006-10-20.
  28. "WNYers Flock To Erie For Snow Supplies". WBEN 930 AM. 2006-10-15. Archived from the original on September 27, 2007. Retrieved 2006-10-22.
  29. 'Michael Beebe (2006-10-16). "270,000 still lack power". Buffalo News. Retrieved 2006-10-22.[ dead link ]
  30. Michael Beebe and Thomas J Dolan (2006-10-24). "Cleanup to last months". Buffalo News. Retrieved 2006-10-25.[ dead link ]

Coordinates: 42°54′40″N78°43′12″W / 42.911°N 78.720°W / 42.911; -78.720

This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.