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Colorado blizzards have shaped the state's history, geography, and culture for centuries. These severe winter storms — defined by the National Weather Service as events combining sustained winds or gusts of at least 35 mph with falling or blowing snow that reduces visibility to one-quarter mile or less for three or more consecutive hours — are a defining feature of Colorado's high-altitude climate.<ref>{{cite web |title=Blizzard Definition and Criteria |url=https://www.weather.gov/bou/winter_weather_types |work=National Weather Service Boulder/Denver |access-date=2026-03-03}}</ref> Blizzards occur most frequently in the mountainous regions, where elevation and topography create ideal conditions for intense snow accumulation and wind-driven snowdrifts. They also strike the Front Range corridor with particular force, given a weather pattern called the upslope storm that can dump feet of snow on Denver and its suburbs with little warning. While they pose significant challenges to transportation and infrastructure, blizzards are woven into the state's identity, influencing everything from historical settlement patterns to modern emergency preparedness. This article covers the history, geography, cultural impact, economic costs, and architectural adaptations associated with Colorado blizzards, as well as their effects on the state's parks and recreation. | |||
== History == | == History == | ||
Colorado's history with blizzards dates back | Colorado's history with blizzards dates back long before European settlement. The Ute, Arapaho, and Cheyenne peoples who inhabited the region developed seasonal migration patterns and survival knowledge finely tuned to the state's brutal winter conditions. When Euro-American settlers began arriving in earnest in the mid-19th century, they were far less prepared. Historical records from that era document numerous blizzards that delayed westward expansion, destroyed supply lines, and claimed lives. The 1875 "Great Colorado Blizzard" is frequently cited as one of the most severe storms in the state's recorded history, with snowfall reaching depths of over 10 feet in some areas and temperatures plummeting to −30°F. These events forced settlers to develop strategies for survival, including the construction of insulated shelters and the establishment of winter trails that could be navigated even under extreme conditions.<ref>{{cite web |title=3 Colorado Blizzards That Tested the Western Slope |url=https://kekbfm.com/colorado-historic-winter-storms/ |work=99.9 KEKB |access-date=2026-03-03}}</ref> | ||
The winter of 1913 brought one of the most destructive storms in Colorado's recorded meteorological history. A two-day blizzard from December 1–5 buried Denver under 45.7 inches of snow — still the city's single-storm record — collapsed roofs across the metro area, and killed dozens of people statewide. The economic disruption lasted weeks, with rail lines impassable and livestock deaths numbering in the thousands across the eastern plains.<ref>{{cite web |title=Colorado's Most Devastating Blizzards |url=https://www.weather.gov/bou/historic_storms |work=National Weather Service Boulder/Denver |access-date=2026-03-03}}</ref> | |||
In the 20th century, advancements in weather forecasting and infrastructure helped mitigate the risks associated with blizzards, but major storms still occasionally disrupted daily life on a massive scale. The 1982 blizzard, which struck the Front Range in April of that year, dropped more than two feet of snow on Denver over 24 hours, closed major highways including portions of Interstate 25 and Interstate 70, and led to the evacuation of thousands of stranded motorists. The period between the mid-1980s and the early 2000s produced other notable storms, but none disrupted Colorado quite like the back-to-back blizzards of December 2006. The first struck December 20–21 and buried the Denver metro area under 20 or more inches; before that snow had fully cleared, a second storm arrived December 28–29, adding another 12–30 inches across the region. Together, the two events stranded thousands of motorists on Interstate 70, closed Denver International Airport for two days during one of the year's busiest travel periods, and required the National Guard to assist with rescues. That storm sequence remains one of the most disruptive in the state's modern history.<ref>{{cite web |title=3 Colorado Blizzards That Tested the Western Slope |url=https://kekbfm.com/colorado-historic-winter-storms/ |work=99.9 KEKB |access-date=2026-03-03}}</ref><ref>{{cite web |title=Colorado's Most Devastating Blizzards |url=https://www.weather.gov/bou/historic_storms |work=National Weather Service Boulder/Denver |access-date=2026-03-03}}</ref> | |||
More recently, a March 2021 winter storm paralyzed Denver and surrounding areas over a single weekend, dropping up to 27 inches in some communities, knocking out power to more than 100,000 customers, and closing schools and state offices for multiple days. The storm's rapid intensification — from a light snow advisory to a blizzard warning within hours — demonstrated how quickly Colorado's weather can shift and how dependent the region's infrastructure remains on favorable conditions.<ref>{{cite web |title=March 2021 Colorado Blizzard Summary |url=https://www.weather.gov/bou/March2021_blizzard |work=National Weather Service Boulder/Denver |access-date=2026-03-03}}</ref> | |||
= | In early 2026, Colorado experienced another significant blizzard, part of a broader pattern of extreme weather that season which also included wildfires and widespread power outages across the state.<ref>{{cite web |title=Extreme Weather Hits Colorado: Blizzards, Fires, and Blackouts Loom |url=https://nationaltoday.com/us/co/denver/news/2026/02/17/extreme-weather-hits-colorado-blizzards-fires-and-blackouts-loom/ |work=National Today |date=2026-02-17 |access-date=2026-03-03}}</ref> The timing fit a well-documented statistical pattern: the week of March 12 through March 18 historically sees more blizzards strike Colorado than any other week of the year, a fact that routinely catches late-winter travelers off guard.<ref>{{cite web |title=More blizzards hit Colorado between March 12 and March 18 than any other week |url=https://www.facebook.com/ilike9news/posts/more-blizzards-hit-colorado-between-march-12-and-march-18-than-any-other-week-an/930806926231303/ |work=9NEWS (KUSA) |access-date=2026-03-03}}</ref> Lessons drawn from past storms have also driven improvements in community preparedness. The New Falcon Herald, reporting on Colorado's blizzard history, noted that after the 2006 storms, El Paso County and several adjacent counties overhauled their emergency communications systems and pre-positioned road equipment at strategic intervals along major corridors — changes credited with significantly faster road clearance times in subsequent events.<ref>{{cite web |title=Colorado blizzards: lessons learned |url=https://newfalconherald.com/colorado-blizzards-lessons-learned/ |work=The New Falcon Herald |access-date=2026-03-03}}</ref> | ||
Blizzards | |||
== Geography == | |||
Colorado's geography plays a central role in the frequency and intensity of its blizzards. The state's high average elevation — over 6,800 feet above sea level — combined with its varied terrain, creates conditions that can generate severe winter storms in multiple ways simultaneously. The Rocky Mountains, which run north to south through the center of the state, act as a natural barrier that forces moist air to rise, cool, and drop its moisture as snow. This process, known as orographic lift, produces the heaviest snowfall in regions such as the San Juan Mountains in the southwest, the Elk Mountains around Aspen, and along the Continental Divide near Breckenridge and Loveland Pass.<ref>{{cite web |title=Orographic Precipitation and Colorado's Mountain Snowpack |url=https://climate.colostate.edu/pdfs/orographic.pdf |work=Colorado Climate Center, Colorado State University |access-date=2026-03-03}}</ref> | |||
Blizzards are most common in the western slope and high mountain zones, where cold air masses originating in the Arctic frequently collide with moisture-laden storm systems moving in from the Pacific. These interactions can produce blizzards with sustained winds well above the 35 mph threshold for official classification, visibility near zero, and snowfall rates exceeding three or four inches per hour. Summit County, Gunnison County, and the area around Wolf Creek Pass — which averages more than 400 inches of snowfall per year — are among the most reliably blizzard-prone zones in the continental United States.<ref>{{cite web |title=Colorado Snowfall Climatology |url=https://climate.colostate.edu/snowfall.html |work=Colorado Climate Center, Colorado State University |access-date=2026-03-03}}</ref> | |||
The Front Range urban corridor — Denver, Colorado Springs, Boulder, and Fort Collins — occupies a transitional zone between the mountains and the plains and faces its own distinct blizzard threat. The mechanism here is the upslope storm, in which persistent easterly or northeasterly winds push moist air from the Gulf of Mexico westward against the foothills. As that air rises, it cools and condenses rapidly. Upslope events often begin as modest snowfall but can intensify sharply, producing blizzard conditions within hours and depositing a foot or more of heavy, wet snow. Because upslope storms are tied to low-pressure systems tracking across the southern plains rather than classic Pacific storm tracks, they can be harder to forecast with precision, and the Front Range's reputation for sudden, dramatic snowfall accumulation stems largely from this pattern.<ref>{{cite web |title=Upslope Storms: Colorado's Hidden Blizzard Threat |url=https://www.weather.gov/bou/upslope_storms |work=National Weather Service Boulder/Denver |access-date=2026-03-03}}</ref> | |||
The eastern plains of Colorado experience fewer blizzards than the mountains, but those that do occur on the plains can be especially dangerous. The absence of natural windbreaks allows wind-driven snow to reduce visibility to near zero almost instantaneously. Open range roads and long, straight highway corridors like U.S. Highway 287 and U.S. Highway 40 have seen fatal multi-vehicle pileups during plains blizzards. Temperature drops on the plains can also be sudden and extreme, with conditions shifting from above freezing to well below zero Fahrenheit within a matter of hours as an Arctic front surges through. These regional contrasts — the orographic snows of the high country, the upslope storms of the Front Range, and the open-terrain white-outs of the eastern plains — make Colorado's blizzard geography unusually complex compared to most other states.<ref>{{cite web |title=These 5 American States Have More Brutal Blizzards Than Any Other |url=https://www.islands.com/2058641/5-american-states-more-brutal-blizzards-any-other/ |work=Islands.com |access-date=2026-03-03}}</ref> | |||
Colorado | |||
Interstate 70 deserves particular mention. The highway crosses the Continental Divide at Eisenhower-Johnson Tunnel (elevation 11,013 feet) and descends through Glenwood Canyon on the western slope before continuing to Grand Junction. It is the primary freight and passenger route linking Colorado's mountain communities to the Front Range and the rest of the country. During major blizzards, CDOT routinely closes I-70 mountain segments for hours or days at a time, backing up traffic for dozens of miles and effectively halting commerce along one of the most critical freight corridors in the American West.<ref>{{cite web |title=I-70 Mountain Corridor Program |url=https://www.codot.gov/programs/i70mountain |work=Colorado Department of Transportation |access-date=2026-03-03}}</ref> | |||
== | == Culture == | ||
Colorado's | Blizzards have deeply influenced Colorado's cultural identity, shaping traditions, folklore, and community resilience. In rural areas, stories of survival during blizzards are passed down through generations, often centered on cooperation and resourcefulness under pressure. Mountain towns across Gilpin, Clear Creek, and Lake counties hold informal memories of storms that isolated communities for days, requiring neighbors to share fuel, food, and labor before county plows could break through. The 1976 blizzard is remembered in many mountain communities as a defining moment of that kind of mutual aid — roads impassable, snowdrifts taller than houses, and neighbors collectively digging out with whatever equipment they had on hand. These events have also inspired local art, music, and literature, with many artists drawing on the stark visual drama and physical danger of blizzards as source material.<ref>{{cite web |title=Colorado blizzards: lessons learned |url=https://newfalconherald.com/colorado-blizzards-lessons-learned/ |work=The New Falcon Herald |access-date=2026-03-03}}</ref> | ||
The cultural impact of blizzards also shows up in modern practices. Some communities along the Front Range have developed an informal tradition of treating major snow days as communal events — neighbors who would otherwise barely speak clearing each other's sidewalks and driveways, impromptu gatherings forming in the hours after a storm. Colorado's strong outdoor recreation culture means that blizzards are not only feared but, in certain contexts, eagerly anticipated. A fresh two-foot dump at a ski resort can generate lines stretching hundreds of cars deep on I-70 within hours of the lifts opening. Winter festivals in Breckenridge, Telluride, and Steamboat Springs draw on the visual appeal and physical demands of heavy snow as central themes. Colorado's long relationship with severe winter weather has produced a broadly shared ethos of self-reliance and neighbor-to-neighbor mutual aid — values that surface reliably whenever a major storm strikes.<ref>{{cite web |title=Colorado blizzards: lessons learned |url=https://newfalconherald.com/colorado-blizzards-lessons-learned/ |work=The New Falcon Herald |access-date=2026-03-03}}</ref> | |||
{{ | == Economy == | ||
The economic impact of Colorado blizzards is substantial and runs in more than one direction. The state's ski industry — which generated roughly $5 billion in annual economic activity for Colorado in recent years — depends on heavy mountain snowfall to fill its resorts.<ref>{{cite web |title=Colorado Ski Country Economic Impact |url=https://www.coloradoski.com/economicimpact |work=Colorado Ski Country USA |access-date=2026-03-03}}</ref> A blizzard that buries Summit County under three feet of snow is a financial windfall for resort towns like Vail, Breckenridge, and Steamboat Springs, filling hotel rooms, restaurants, and rental shops. At the same time, those storms often shut down the very road systems — primarily I-70 — that visitors need to reach those resorts, creating an ironic situation where the best snow conditions coincide with the least accessible roads. | |||
Transportation disruptions drive significant losses across other sectors. When I-70 closes through the mountain corridor, freight carriers face costly detours or multi-day waits, and just-in-time delivery operations for businesses across the western slope can be thrown off schedule for days. The Colorado Department of Transportation spends tens of millions of dollars each year on snow removal, sand and salt application, and avalanche-control operations — costs that spike sharply during major blizzard years.<ref>{{cite web |title=CDOT Winter Operations Annual Report |url=https://www.codot.gov/programs/winter-operations |work=Colorado Department of Transportation |access-date=2026-03-03}}</ref> | |||
Blizzards also strain public emergency systems. The March 2021 storm required the activation of dozens of emergency shelters across the metro area, cost utility companies millions of dollars in restoration work, and led to significant property damage from roof collapses and ice dams. The extreme weather events of early 2026 — which combined blizzards with concurrent wildfire emergencies and widespread power outages — demonstrated how compounding weather events can overwhelm both public agencies and private insurers simultaneously.<ref>{{cite web |title=Extreme Weather Hits Colorado: Blizzards, Fires, and Blackouts Loom |url=https://nationaltoday.com/us/co/denver/news/2026/02/17/extreme-weather-hits-colorado-blizzards-fires-and-blackouts-loom/ |work=National Today |date=2026-02-17 |access-date=2026-03-03}}</ref> These financial pressures have pushed state and local governments toward longer-term investments in infrastructure resilience: wider highway shoulders for emergency staging, upgraded drainage systems to handle rapid snowmelt, and pre-positioned equipment contracts that reduce response times after major storms. Despite these challenges, the state's economy has demonstrated considerable adaptability, with both private businesses and public agencies refining their storm-response strategies after each major event.<ref>{{cite web |title=Colorado blizzards: lessons learned | | |||
== References == | |||
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Latest revision as of 07:51, 12 May 2026
```mediawiki Colorado blizzards have shaped the state's history, geography, and culture for centuries. These severe winter storms — defined by the National Weather Service as events combining sustained winds or gusts of at least 35 mph with falling or blowing snow that reduces visibility to one-quarter mile or less for three or more consecutive hours — are a defining feature of Colorado's high-altitude climate.[1] Blizzards occur most frequently in the mountainous regions, where elevation and topography create ideal conditions for intense snow accumulation and wind-driven snowdrifts. They also strike the Front Range corridor with particular force, given a weather pattern called the upslope storm that can dump feet of snow on Denver and its suburbs with little warning. While they pose significant challenges to transportation and infrastructure, blizzards are woven into the state's identity, influencing everything from historical settlement patterns to modern emergency preparedness. This article covers the history, geography, cultural impact, economic costs, and architectural adaptations associated with Colorado blizzards, as well as their effects on the state's parks and recreation.
History
Colorado's history with blizzards dates back long before European settlement. The Ute, Arapaho, and Cheyenne peoples who inhabited the region developed seasonal migration patterns and survival knowledge finely tuned to the state's brutal winter conditions. When Euro-American settlers began arriving in earnest in the mid-19th century, they were far less prepared. Historical records from that era document numerous blizzards that delayed westward expansion, destroyed supply lines, and claimed lives. The 1875 "Great Colorado Blizzard" is frequently cited as one of the most severe storms in the state's recorded history, with snowfall reaching depths of over 10 feet in some areas and temperatures plummeting to −30°F. These events forced settlers to develop strategies for survival, including the construction of insulated shelters and the establishment of winter trails that could be navigated even under extreme conditions.[2]
The winter of 1913 brought one of the most destructive storms in Colorado's recorded meteorological history. A two-day blizzard from December 1–5 buried Denver under 45.7 inches of snow — still the city's single-storm record — collapsed roofs across the metro area, and killed dozens of people statewide. The economic disruption lasted weeks, with rail lines impassable and livestock deaths numbering in the thousands across the eastern plains.[3]
In the 20th century, advancements in weather forecasting and infrastructure helped mitigate the risks associated with blizzards, but major storms still occasionally disrupted daily life on a massive scale. The 1982 blizzard, which struck the Front Range in April of that year, dropped more than two feet of snow on Denver over 24 hours, closed major highways including portions of Interstate 25 and Interstate 70, and led to the evacuation of thousands of stranded motorists. The period between the mid-1980s and the early 2000s produced other notable storms, but none disrupted Colorado quite like the back-to-back blizzards of December 2006. The first struck December 20–21 and buried the Denver metro area under 20 or more inches; before that snow had fully cleared, a second storm arrived December 28–29, adding another 12–30 inches across the region. Together, the two events stranded thousands of motorists on Interstate 70, closed Denver International Airport for two days during one of the year's busiest travel periods, and required the National Guard to assist with rescues. That storm sequence remains one of the most disruptive in the state's modern history.[4][5]
More recently, a March 2021 winter storm paralyzed Denver and surrounding areas over a single weekend, dropping up to 27 inches in some communities, knocking out power to more than 100,000 customers, and closing schools and state offices for multiple days. The storm's rapid intensification — from a light snow advisory to a blizzard warning within hours — demonstrated how quickly Colorado's weather can shift and how dependent the region's infrastructure remains on favorable conditions.[6]
In early 2026, Colorado experienced another significant blizzard, part of a broader pattern of extreme weather that season which also included wildfires and widespread power outages across the state.[7] The timing fit a well-documented statistical pattern: the week of March 12 through March 18 historically sees more blizzards strike Colorado than any other week of the year, a fact that routinely catches late-winter travelers off guard.[8] Lessons drawn from past storms have also driven improvements in community preparedness. The New Falcon Herald, reporting on Colorado's blizzard history, noted that after the 2006 storms, El Paso County and several adjacent counties overhauled their emergency communications systems and pre-positioned road equipment at strategic intervals along major corridors — changes credited with significantly faster road clearance times in subsequent events.[9]
Geography
Colorado's geography plays a central role in the frequency and intensity of its blizzards. The state's high average elevation — over 6,800 feet above sea level — combined with its varied terrain, creates conditions that can generate severe winter storms in multiple ways simultaneously. The Rocky Mountains, which run north to south through the center of the state, act as a natural barrier that forces moist air to rise, cool, and drop its moisture as snow. This process, known as orographic lift, produces the heaviest snowfall in regions such as the San Juan Mountains in the southwest, the Elk Mountains around Aspen, and along the Continental Divide near Breckenridge and Loveland Pass.[10]
Blizzards are most common in the western slope and high mountain zones, where cold air masses originating in the Arctic frequently collide with moisture-laden storm systems moving in from the Pacific. These interactions can produce blizzards with sustained winds well above the 35 mph threshold for official classification, visibility near zero, and snowfall rates exceeding three or four inches per hour. Summit County, Gunnison County, and the area around Wolf Creek Pass — which averages more than 400 inches of snowfall per year — are among the most reliably blizzard-prone zones in the continental United States.[11]
The Front Range urban corridor — Denver, Colorado Springs, Boulder, and Fort Collins — occupies a transitional zone between the mountains and the plains and faces its own distinct blizzard threat. The mechanism here is the upslope storm, in which persistent easterly or northeasterly winds push moist air from the Gulf of Mexico westward against the foothills. As that air rises, it cools and condenses rapidly. Upslope events often begin as modest snowfall but can intensify sharply, producing blizzard conditions within hours and depositing a foot or more of heavy, wet snow. Because upslope storms are tied to low-pressure systems tracking across the southern plains rather than classic Pacific storm tracks, they can be harder to forecast with precision, and the Front Range's reputation for sudden, dramatic snowfall accumulation stems largely from this pattern.[12]
The eastern plains of Colorado experience fewer blizzards than the mountains, but those that do occur on the plains can be especially dangerous. The absence of natural windbreaks allows wind-driven snow to reduce visibility to near zero almost instantaneously. Open range roads and long, straight highway corridors like U.S. Highway 287 and U.S. Highway 40 have seen fatal multi-vehicle pileups during plains blizzards. Temperature drops on the plains can also be sudden and extreme, with conditions shifting from above freezing to well below zero Fahrenheit within a matter of hours as an Arctic front surges through. These regional contrasts — the orographic snows of the high country, the upslope storms of the Front Range, and the open-terrain white-outs of the eastern plains — make Colorado's blizzard geography unusually complex compared to most other states.[13]
Interstate 70 deserves particular mention. The highway crosses the Continental Divide at Eisenhower-Johnson Tunnel (elevation 11,013 feet) and descends through Glenwood Canyon on the western slope before continuing to Grand Junction. It is the primary freight and passenger route linking Colorado's mountain communities to the Front Range and the rest of the country. During major blizzards, CDOT routinely closes I-70 mountain segments for hours or days at a time, backing up traffic for dozens of miles and effectively halting commerce along one of the most critical freight corridors in the American West.[14]
Culture
Blizzards have deeply influenced Colorado's cultural identity, shaping traditions, folklore, and community resilience. In rural areas, stories of survival during blizzards are passed down through generations, often centered on cooperation and resourcefulness under pressure. Mountain towns across Gilpin, Clear Creek, and Lake counties hold informal memories of storms that isolated communities for days, requiring neighbors to share fuel, food, and labor before county plows could break through. The 1976 blizzard is remembered in many mountain communities as a defining moment of that kind of mutual aid — roads impassable, snowdrifts taller than houses, and neighbors collectively digging out with whatever equipment they had on hand. These events have also inspired local art, music, and literature, with many artists drawing on the stark visual drama and physical danger of blizzards as source material.[15]
The cultural impact of blizzards also shows up in modern practices. Some communities along the Front Range have developed an informal tradition of treating major snow days as communal events — neighbors who would otherwise barely speak clearing each other's sidewalks and driveways, impromptu gatherings forming in the hours after a storm. Colorado's strong outdoor recreation culture means that blizzards are not only feared but, in certain contexts, eagerly anticipated. A fresh two-foot dump at a ski resort can generate lines stretching hundreds of cars deep on I-70 within hours of the lifts opening. Winter festivals in Breckenridge, Telluride, and Steamboat Springs draw on the visual appeal and physical demands of heavy snow as central themes. Colorado's long relationship with severe winter weather has produced a broadly shared ethos of self-reliance and neighbor-to-neighbor mutual aid — values that surface reliably whenever a major storm strikes.[16]
Economy
The economic impact of Colorado blizzards is substantial and runs in more than one direction. The state's ski industry — which generated roughly $5 billion in annual economic activity for Colorado in recent years — depends on heavy mountain snowfall to fill its resorts.[17] A blizzard that buries Summit County under three feet of snow is a financial windfall for resort towns like Vail, Breckenridge, and Steamboat Springs, filling hotel rooms, restaurants, and rental shops. At the same time, those storms often shut down the very road systems — primarily I-70 — that visitors need to reach those resorts, creating an ironic situation where the best snow conditions coincide with the least accessible roads.
Transportation disruptions drive significant losses across other sectors. When I-70 closes through the mountain corridor, freight carriers face costly detours or multi-day waits, and just-in-time delivery operations for businesses across the western slope can be thrown off schedule for days. The Colorado Department of Transportation spends tens of millions of dollars each year on snow removal, sand and salt application, and avalanche-control operations — costs that spike sharply during major blizzard years.[18]
Blizzards also strain public emergency systems. The March 2021 storm required the activation of dozens of emergency shelters across the metro area, cost utility companies millions of dollars in restoration work, and led to significant property damage from roof collapses and ice dams. The extreme weather events of early 2026 — which combined blizzards with concurrent wildfire emergencies and widespread power outages — demonstrated how compounding weather events can overwhelm both public agencies and private insurers simultaneously.[19] These financial pressures have pushed state and local governments toward longer-term investments in infrastructure resilience: wider highway shoulders for emergency staging, upgraded drainage systems to handle rapid snowmelt, and pre-positioned equipment contracts that reduce response times after major storms. Despite these challenges, the state's economy has demonstrated considerable adaptability, with both private businesses and public agencies refining their storm-response strategies after each major event.<ref>{{cite web |title=Colorado blizzards: lessons learned |
References
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