Distant Early Warning Line

Distant Early Warning Line
Distant Early Warning Line
Active	1957–1993
Country	Canada & United States
Branch	Royal Canadian Air Force; United States Air Force
Type	Early-warning radar
Role	Continental air defence
Part of	North American Aerospace Defense Command

The Distant Early Warning Line, also known as the DEW Line or Early Warning Line, was a system of radar stations in the northern Arctic region of Canada, with additional stations along the north coast and Aleutian Islands of Alaska (see Project Stretchout and Project Bluegrass), in addition to the Faroe Islands, Greenland, and Iceland. It was set up to detect incoming bombers of the Soviet Union during the Cold War, and provide early warning of any sea-and-land invasion.

The DEW Line was the northernmost and most capable of three radar lines in Canada and Alaska. The first of these was the joint Canadian-United States Pinetree Line, which ran from Newfoundland to Vancouver Island just north of the Canada–United States border, but even while it was being built there were concerns that it would not provide enough warning time to launch an effective counterattack. The Mid-Canada Line (MCL) was proposed as an inexpensive solution using bistatic radar. This provided a "trip wire" warning located roughly at the 55th parallel, giving commanders ample warning time, but little information on the targets or their exact location. The MCL proved largely useless in practice, as the radar return of flocks of birds overwhelmed signals from aircraft.

The DEW Line was proposed as a solution to both of these problems, using conventional radar systems that could both detect and characterise an attack, while being located far to the north where they would offer hours of advance warning. This would not only provide ample time for the defences to prepare, but also allow the Strategic Air Command to get its active aircraft airborne long before Soviet bombers could reach their targets. The need was considered critical and the construction was given the highest national priorities. Advance site preparation began in December 1954, and the construction was carried out in a massive logistical operation that took place mostly during the summer months when the sites could be reached by ships. The 63-base line reached operational status in 1957. The MCL was shut down in the early 1960s, and much of the Pinetree Line was given over to civilian use.

In 1985, as part of the "Shamrock Summit", the United States and Canada agreed to transition DEW to the new North Warning System (NWS). Beginning in 1988, most of the original DEW stations were deactivated, while a small number were upgraded with all-new equipment.^[1] The official handover from DEW to NWS took place on 15 July 1993.

Introduction[edit]

The shortest, or great circle, route for a Soviet air attack on North America was through the Arctic, across the area around the North Pole. The DEW Line was built during the Cold War to give early warning of a Soviet nuclear strike, to allow time for United States bombers to get off the ground and land-based intercontinental ballistic missile (ICBMs) to be launched, to reduce the chances that a preemptive strike could destroy United States strategic nuclear forces. The original DEW line was designed to detect bombers and was unable to detect ICBMs. To give warning of this threat, in 1958 a more sophisticated radar system was constructed, the Ballistic Missile Early Warning System (BMEWS).

The DEW Line was a significant achievement among Cold War initiatives in the Arctic. A successful combination of scientific design and logistical planning of the late 1950s, the DEW Line consisted of a string of continental defence radar installations, ultimately stretching from Alaska to Greenland. In addition to the secondary Mid-Canada Line and the tertiary Pinetree Line, the DEW Line marked the edge of an electronic grid controlled by the new Semi-Automatic Ground Environment (SAGE) computer system and was ultimately centred at the Cheyenne Mountain Complex, Colorado, command hub of the North American Aerospace Defense Command (NORAD).^[2]

The construction of the DEW Line was made possible by a bilateral agreement between the Canadian and United States governments, and by collaboration between the United States Department of Defense and the Bell System of communication companies. The DEW Line grew out of a detailed study made by a group of the nation's foremost scientists in 1952, the Summer Study Group at the Massachusetts Institute of Technology. The subject of the study was the vulnerability of the United States and Canada to aerial bombing attacks, and its concluding recommendation was that a distant early warning line of search radar stations be built across the Arctic region of the North American continent as rapidly as possible.^[3]

Development and construction[edit]

Improvements in Soviet technology rendered the Pinetree Line and Mid-Canada Line inadequate to provide enough early warning and on 15 February 1954, the Canadian and United States governments agreed to jointly build a third line of radar stations (Distant Early Warning), this time running across the high Arctic. The line would run roughly along the 69th parallel north, about 320 km (200 mi) north of the Arctic Circle.^[4]

Before this project was completed, men and women with the necessary knowledge, skills, and experience were drawn from Bell Telephone companies in every state in the United States, and many Canadian provinces. Much of the responsibility was delegated under close supervision to a vast number of subcontractors, suppliers, and United States military units.^[5]

The initial contract with the United States Air Force and the Royal Canadian Air Force provided for the design and construction of a small experimental system to determine at the beginning whether the idea was practicable. The designs of communication and radar detection equipment available at the time were known to be unsuited to the weather and atmospheric conditions to be encountered in the Arctic.

Early efforts were aided when, by happenstance, the US Navy terminated its oil exploration activities in Alaska. The associated infrastructure that had been established in the arctic was quickly repurposed to serve early development of the DEW line. Material converted from navy use included 1200 tons of supplies, with many Caterpillar D8 tractors, heavy duty cranes, diesel generators, and radio equipment. Most fortunately, the surplus included sixty equipped wannigans - enough to permit setup of field camps at all construction sites. (A "wannigan" is a building on sleds, about 12 x 20 feet in size. These were completely equipped for camp operations and were of various types - Cook, Mess, Bunk, Power Plant, Water, Shop, Storage, Utility, Steam Point, etc.^[6])

Prototypes of several stations were designed and built in Alaska in 1953. A prototype built for training purposes was chosen to be located in Streator, Illinois in 1952. The Streator DEW-Line Training Center became operational in 1956 and closed when operations were moved to Colorado Springs, Colorado in 1975. While few of the original designs for either buildings or equipment were retained, the trial installations did prove that the DEW Line was feasible, and they furnished a background of information that led to the final improved designs of all facilities and final plans for manpower, transportation, and supply.^[5]

With the experimental phase completed successfully, the Air Forces asked the Western Electric Company to proceed as rapidly as possible with the construction of the entire DEW Line. That was in December 1954, before the route to be followed in the eastern section had even been determined. The locations were surveyed out by John Anderson-Thompson.^[7] Siting crews covered the area – first from the air and then on the ground – to locate by scientific means the best sites for the main, auxiliary, and intermediate stations. These crews lived and worked under primitive conditions. They covered vast distances by airplanes, snowmobiles, and dog sleds, working in blinding snowstorms with temperatures so low that ordinary thermometers could not measure them. They completed their part of the job on schedule and set the stage for the crews and machines that followed. The line consisted of 63 stations stretching from Alaska to Baffin Island, covering nearly 10,000 km (6,200 mi). The United States agreed to pay for and construct the line, and to employ Canadian labour as much as possible.^[3]^[5]

A target date for completing the DEW Line and having it in operation was set for 31 July 1957. This provided only two short Arctic summers adding up to about six months in which to work under passable conditions. Much of the work would have to be completed in the long, dark, cold, Arctic winters, including over a month of polar night.^[5]

Construction process[edit]

From a standing start in December 1954, many thousands of skilled workers were recruited, transported to the polar regions, housed, fed, and supplied with tools, machines, and materials to construct physical facilities – buildings, roads, tanks, towers, antennas, airfields, and hangars – in some of the most hostile and isolated environments in North America. The construction project employed about 25,000 people.^[3]

Western Electric and Alaska Freightlines, with the help of the United States Army Transportation Research and Development Command (TRADCOM), contracted to have a pair of off-road overland trains, the TC-264 Sno-Buggy, designed specifically for Arctic conditions, to be built by LeTourneau Technologies, owned by R. G. LeTourneau. The TC-264 Sno-Buggy was the longest off-road vehicle ever built at the time, with its six cars (including the locomotive) measuring a total of 274 ft (84 m). Each car was driven by four 7.3 ft (2.2 m) tall wheels and tires. The 24-wheel-drive was powered by two 400 horsepower Cummins diesel engines connected to a hub motor. It had a payload capacity of 150 short tons (140 t; 130 long tons), and could traverse nearly any terrain. It had a very successful first season hauling freight to the DEW Line.^[8] Later, military and civilian airlifts, huge sealifts during the short summers, barges contributed to the distribution of vast cargoes along the length of the Line to build the permanent settlements needed at each site. Much of the job of carrying mountains of supplies to the northern sites fell to military and naval units. More than 3,000 United States Army Transportation Corps soldiers were given special training to prepare them for the job of unloading ships in the Arctic. They went with the convoys of United States Navy ships and they raced time during the few weeks the ice was open to land supplies at dozens of spots on the shores of the Arctic Ocean during the summers of 1955, 1956, and 1957.^[5]

Scores of military and commercial pilots, flying everything from small bush planes to four-engined turboprops, were the backbone of the operation. The Lockheed LC-130, a ski-equipped version of the C-130 Hercules, owned by the United States Air Force and operated by the 139th Airlift Squadron, provided a significant amount of airlift to sites that were out on ice caps such as Dye 3 in Greenland. Transport planes such as the C-124 Globemaster and the C-119 Flying Boxcar also supported the project. Together, these provided the only means of access to many of the stations during the wintertime. In all, 460,000 short tons (420,000 t; 410,000 long tons) of materials were moved from the United States and southern Canada to the Arctic by air, land, and sea.^[5]

As the stacks of materials at the station sites mounted, construction went ahead rapidly. Subcontractors with a flair for tackling difficult construction projects handled the bulk of this work under the direction of Western Electric engineers. Huge quantities of gravel were produced and moved. The construction work needed to build housing, airstrips, aircraft hangars, outdoor and covered antennas, and antenna towers was done by subcontractors. In all, over 7,000 bulldozer operators, carpenters, masons, plumbers, welders, electricians, and other tradesmen from the United States and southern Canada worked on the project. Concrete was poured in the middle of Arctic winters, buildings were constructed, electrical service, heating, and fresh water were provided, huge steel antenna towers were erected, airstrips and hangars were built, putting it all together in darkness, blizzards, and subzero temperatures.^[2]

After the buildings came the installation of radar and communications equipment, then the thorough and time-consuming testing of each unit individually and of the system as an integrated whole. Finally all was ready, and on 15 April 1957 – just two years and eight months after the decision to build the Distant Early Warning Line was made – Western Electric turned over to the Air Force on schedule a complete, operating radar system across the top of North America, with its own communications network. Later, the system coverage was expanded even further: see Project Stretchout and Project Bluegrass.

The majority of Canadian DEW Line stations were the joint responsibility of the Royal Canadian Air Force (the Canadian Armed Forces) and the United States Air Force.^[5] The USAF component was the 64th Air Division, Air Defense Command. The 4601st Support Squadron, based in Paramus, New Jersey, was activated by ADC to provide logistical and contractual support for DEW Line operations. In 1958, the line became a cornerstone of the new North American Aerospace Defense Command (NORAD) organization of joint continental air defence.^[4]^[5]

USAF personnel were limited to the main stations for each sector and they performed annual inspections of auxiliary and intermediate stations as part of the contract administration. Most operations were performed by Canadian and United States civilian personnel, and the operations were automated as much as was possible at the time. All of the installations flew both the Canadian and United States flags until they were deactivated as DEW sites and sole jurisdiction was given to the Government of Canada as part of the North Warning System in the late 1980s and early 1990s.

Radar system[edit]

The Point Lay, Alaska DEW line station has a typical suite of systems. The main AN/FPS-19 search radar is in the dome, flanked by two AN/FRC-45 lateral communications dishes (or AN/FRC-102, depending on the date). To the left are the much larger southbound AN/FRC-101 communications dishes. Not visible is the AN/FPS-23 "gap filler" doppler antenna.^[4]

The DEW Line was upgraded with fifteen new AN/FPS-117 passive electronically scanned array radar systems between 1985 and 1994, and the line was then renamed the North Warning System.^[9]

Operating characteristics of the AN/TPS-1D (Mod c) search radar^[10]

Frequency range 1.22 to 1.35 GHz
Peak power output 160 kilowatts

Average power output 400 watts

Pulse rate 400 pulses per second
- Pulse width 6.0 microsecond
Range 1,000 yards (910 m) to 160 nautical miles (300 km; 180 mi)
Antenna radiation pattern
- Horizontal 2.8-degree
- Vertical 30 deg cosecant² (elevation angle)
Receiver noise figure 11.7 dB
IF bandwidth and frequency 5.0 MHz and 60 MHz
Required prime power 8.5 kW
Weight of radar about 4,800 lb (2,200 kg)
Total volume of radar electronics about 1,000 cu ft (28 m³)

Modifications to each operating radar station occurred during the construction phase of the DEW Line system. This was due to the extreme winds, frigid temperatures, and the ground conditions due to permafrost and ice.^[11] There were two significant electronic modifications that were also crucial to the functioning of these radar stations in an Arctic environment. One reduced the effects of vibration in correlation to temperature change, the other increased the pulse duration from two to six microseconds. It also began using a crystal oscillator for more stable readings and accurate accounts of movement within the air.^[12]

Operations[edit]

There were three types of stations: small unstaffed "gap filler stations" that were checked by ground crews only every few months during the summer; intermediate stations with only a station chief, a cook, and a mechanic; and larger stations that had a variable number of employees and may have had libraries, forms of entertainment, and other accommodations. The stations used a number of long-range L band – emitting systems known as the AN/FPS-19. The "gaps" between the stations were watched by the directional AN/FPS-23 doppler radar systems, similar to those pioneered only a few years earlier on the Mid-Canada Line. The stations were interconnected by White Alice, a series of radio communications systems that used tropospheric scatter technology.^[3]^[4]

For stations at the western end of the line, buildings at the deactivated Pet-4 United States Navy camp at Point Barrow were converted into workshops where prefabricated panels, fully insulated, were assembled to form modular building units 28 ft (8.5 m) long, 16 ft (4.9 m) wide, and 10 ft (3.0 m) high. These modules were put on sleds and drawn to station sites hundreds of miles away by powerful tractors. Each main station had its own airstrip – as close to the buildings as safety regulations and the terrain permitted. Service buildings, garages, connecting roads, storage tanks, and perhaps an aircraft hangar completed the community. Drifting snow was a constant menace. Siting engineers and advance parties learned this the hard way when their tents disappeared beneath the snow in a few hours. The permanent H-shaped buildings at the main stations were always pointed into the prevailing winds and their bridges built high off the ground.^[5]

The Arctic region was frequently transited by commercial aircraft on polar routes, either flying between Europe and western North America, or between Europe and Asia using Alaska as a stopover. These flights would penetrate the DEW Line. To differentiate these commercial flights from Soviet bombers, the flight crews had to transmit their flight plan to an Air Movement Identification System (AMIS) centre at either Goose Bay, Edmonton, or Anchorage. These stations then passed the information on to the DEW Line.^[13] If an unknown flight was detected, the DEW Line station would contact AMIS to see if a flight plan might have been missed; if not, NORAD was notified. Military flights, including B-52 bombers, frequently operated in the polar regions and used identification friend or foe (IFF) systems to authenticate the flight.^[13]

The early warning provided was useless against intercontinental ballistic missiles (ICBM) and submarine-launched attacks. These were countered and tempered by the mutual assured destruction (MAD) philosophy. However, the scenario of a coordinated airborne invasion coupled with a limited nuclear strike was the real threat that this line protected against. It did so by providing Distant Early Warning of an inbound aerial invasion force, which would have to appear at the far north hours ahead of any warhead launches in order to be coordinated well enough to prevent MAD. A number of intermediate stations were decommissioned, since their effectiveness was judged to be less than desired and required. The staffed stations were retained to monitor potential Soviet air activities and to allow Canada to assert sovereignty in the Arctic. International law requires a country that claims territory to actively occupy and defend such territory^{[citation needed]}.

Because the advent of ICBMs created another attack scenario that the DEW Line could not defend against, in 1958 the United States Federal Government authorized construction of the Ballistic Missile Early Warning System (BMEWS), at a reported cost of $28 billion.^[2]

In 1985, it was decided that the more capable of the DEW Line stations were to be upgraded with the GE AN/FPS-117 radar systems and merged with newly built stations into the North Warning System. Their automation was increased and a number of additional stations were closed. This upgrading was completed in 1990, and with the end of the Cold War and dissolution of the Soviet Union, the United States withdrew all of its personnel and relinquished full operation of the Canadian stations to Canada. Costs for the Canadian sector were still subsidized by the United States. However, the American flags were lowered at the Canadian stations and only the Canadian flag remained.^{[citation needed]} The United States retained responsibility and all operational costs for North Warning System stations located in Alaska and Greenland.^[2]

Canadian perception[edit]

From the beginning of the development of the DEW Line idea, Canadian concerns over political perception grew enormously. Noted Canadian Arctic historian P. Whitney Lackenbauer argues that the Canadian Government saw little intrinsic value in the Arctic, but due to fear of Americanization and American penetration into the Canadian Arctic, brought significant changes and a more militaristic role to the north.^[14] This shift into a more military role began with a transition of authority, shifting responsibility of Arctic defence in Canada from the Royal Canadian Mounted Police to the Canadian Armed Forces. This "active defence" had three key elements: minimizing the extent of the American presence in the Canadian Arctic, Canadian government input into the management of the DEW Line, and full Canadian participation in Arctic defence.^[15]

Funding problems for the DEW Line also played a role in perception of the project. American investment in building and operating the DEW Line system declined as the ICBM threat refocused priorities, but Canada did not fill the void with commensurate additional funding. In 1968 a Canadian Department of National Defence Paper (27 November 1968) stated no further funding for research on the DEW Line or air space would be allocated due in part to lack of commercial activity^[16] The Canadian Government also limited United States air activity, base activity, soldier numbers, and contractor numbers; and the overall operation would be considered and called in all formalities a "joint operation".^[17]

Cultural impact[edit]

The cultural impact of the DEW Line System is immense and significant to the heritage of Canada and Alaska. In Canada, the DEW line increased connections between the populous south and the remote High Arctic, helping to bring Inuit more thoroughly into the Canadian polity.^[18] The construction and operating of the DEW Line provided some economic development for the Arctic region. This provided momentum for further development through research, new communications, and new studies of the area. Although the construction of the DEW line itself was placed in American hands, much of the later development was under direct Canadian direction.^[19]

Resource protection of historical DEW Line sites is currently under discussion in Canada and Alaska. The discussion stems from the deactivation aspect of the sites and arguments over what to do with leftover equipment and leftover intact sites. Many Canadian historians encourage the preservation of DEW Line sites through heritage designations. ^{[citation needed]}

The DEW Line is a setting for the 1957 film The Deadly Mantis. The film begins with a short documentary on the three RADAR lines, focusing on the DEW Line's construction.

Deactivation and clean-up[edit]

A controversy also developed between the United States and Canada over the cleanup of deactivated Canadian DEW Line sites. The cleanup is now underway, site by site.^[20] In assessing the cleanup, new research suggests that off-road vehicles damaged vegetation and organic matter, resulting in the melting of the permafrost, a key component to the hydrological systems of the areas.^[21] The DEW Line has also been linked to depleted fish stocks and carelessness in agitating local animals such as the caribou, as well as non-seasonal hunting. These aspects are claimed to have had a devastating impact on the local native subsistence economies and environment.^[21]

Atlantic and Pacific Barrier[edit]

The DEW line was supplemented by the Contiguous Radar Coverage System, which included two "barrier" forces in the Atlantic and the Pacific oceans which were operated by the United States Navy from 1956 to 1965. These barrier forces consisted of surface picket stations, dubbed "Texas Towers", a surface naval force of 12 radar picket destroyer escorts and 16 Guardian-class radar picket ships, and an air wing of Lockheed WV-2 Warning Star aircraft that patrolled the picket lines at an altitude of 1,000–2,000 m (3,300–6,600 ft) in 12- to 14-hour missions. Their objective was to extend early warning coverage against surprise Soviet bomber and missile attack as an extension of the DEW Line.^[22]

The Atlantic Barrier (BarLant) consisted of two rotating squadrons, one based at Naval Station Argentia, Newfoundland, to fly orbits to the Lajes Field in the Azores and back; and the other at Naval Air Station Patuxent River, Maryland. BarLant began operations on 1 July 1956, and flew continuous coverage until early 1965, when the barrier was shifted to cover the approaches between Greenland, Iceland, and the United Kingdom (GIUK barrier). Aircraft from Argentia were staged through Naval Air Station Keflavik, Iceland, to extend coverage times.

The Pacific Barrier (BarPac) began operations with one squadron operating from Naval Air Station Barbers Point, Hawaii, and a forward refuelling base at Naval Air Facility Midway Island, on 1 July 1958. Planes flew from Midway Island to Naval Air Facility Adak on Adak Island (in the Aleutian Island chain) and back, non-stop. Its orbits overlapped the radar picket stations of the ships of Escort Squadron Seven (CORTRON SEVEN), from roughly Kodiak Island to the Midway Atoll and Escort Squadron Five (CORTRON FIVE), from Pearl Harbor to northern Pacific waters. Normally four or five WV-2s were required at any single time to provide coverage over the entire line. This coverage was later augmented, and modified/replaced by Project Stretchout and Project Bluegrass).

The Guardian-class radar picket ships were based in Rhode Island and San Francisco, and covered picket stations 400–500 mi (640–800 km) off each coast.

Barrier Force operations were discontinued by September 1965 and their EC-121K (WV-2 before 1962) aircraft placed in storage.

References[edit]

^ Lajeunesse, Adam (20 June 2007). "The Distant Early Warning Line and the Canadian Battle for Public Perception". Canadian Military Journal. Archived from the original on 10 February 2024.
^ ^a ^b ^c ^d The DEW LINE Sites in Canada, Alaska & Greenland
^ ^a ^b ^c ^d "The DEW Line and Other Military Projects". Archived from the original on 5 January 2011. Retrieved 8 April 2011.
^ ^a ^b ^c ^d "Distant Early Warning Line Radars: The Quest for Automatic Signal Detection" (PDF). Archived from the original (PDF) on 3 March 2016. Retrieved 8 April 2011.
^ ^a ^b ^c ^d ^e ^f ^g ^h ⁱ "The Distant Early Warning (DEW) Line: A Bibliography and Documentary Resource List" (PDF). Archived from the original (PDF) on 25 August 2011. Retrieved 8 April 2011.
^ Bagnall, V. B. (June 1955). "Operation DEW Line". Journal of the Franklin Institute. 259 (6): 481–490. doi:10.1016/0016-0032(55)90093-4.
^ McGrath, T. "The Commissioner's Award for Public Service", The Canadian Surveyor, September 1975.
^ Holderith, Peter (25 May 2020). "The Incredible Story of the US Army's Earth-Shaking, Off-Road Land Trains". the drive.com. Retrieved 30 May 2020.
^ North American Radar – DEW Line Radar Update
^ Naka, Robert F. and William W. Ward. "Distant Early Warning Line Radars: The Quest For Automatic Signal Detection." Lincoln Laboratory Journal, Vol 12. No. 2. 2000. 181–204.
^ Robert F. and William W. Ward. "Distant Early Warning Line Radars: The Quest For Automatic Signal Detection." Lincoln Laboratory Journal, Vol 12. No. 2. 2000. 184.
^ Robert F. and William W. Ward. "Distant Early Warning Line Radars: The Quest For Automatic Signal Detection." Lincoln Laboratory Journal, Vol 12. No. 2. 2000. 185.
^ ^a ^b A History of the DEW Line, Aerospace Defense Command Historical Study No. 31, SECRET, June 1965.
^ Lackenbauer, Whitney. P. and Peter Kikkert. "The Canadian Forces & Arctic Sovereignty: Debating Roles, Interests and Requirements, 1968–1974". Waterloo: Wilfrid Laurier University Press, 2010. 7.
^ Lackenbauer, Whitney. P. and Peter Kikkert. "The Canadian Forces & Arctic Sovereignty: Debating Roles, Interests and Requirements, 1968–1974". Waterloo: Wilfrid Laurier University Press, 2010. 56.
^ Lackenbauer, Whitney. P. and Peter Kikkert. "The Canadian Forces & Arctic Sovereignty: Debating Roles, Interests and Requirements, 1968–1974". Waterloo: Wilfrid Laurier University Press, 2010. 68.
^ Lajeunesse, Adam. "The Distant Early Warning Line and The Canadian Battle For Public Perception". Thesis Calgary: University of Calgary. Canadian Military Journal, Summer. 2007. 51.
^ Neufeld, David. "Commemorating the Cold War in Canada: Considering the DEW Line." The Public Historian, Vol. 20, No. 1 (Winter, 1998), 18.
^ Neufeld, David. "Commemorating the Cold War in Canada: Considering the DEW Line." The Public Historian, Vol. 20, No. 1 (Winter, 1998), 15.
^ "Government of Canada Recognizes Successful Completion of Contaminated Site Clean-Up in Ivvavik National Park" (Press release). Government of Canada. 26 January 2011. Retrieved 16 February 2016.
^ ^a ^b Lackenbauer, Whitney P. "The Cold War on Canadian Soil: Militarizing a Northern Environment." American Society for Environmental History, Vol. 12, No. 4. Special Issue on Canada (Oct 2007), 932.
^ Bouchard, Capt. Joseph F. (USN). "Guarding the Cold War Ramparts." dean-boys.com. Retrieved: 13 March 2009.

External links[edit]

[1] Lajeunesse, Adam (20 June 2007). "The Distant Early Warning Line and the Canadian Battle for Public Perception". Canadian Military Journal. Archived from the original on 10 February 2024.

[dew1-2] The DEW LINE Sites in Canada, Alaska & Greenland

[dew2-3] "The DEW Line and Other Military Projects". Archived from the original on 5 January 2011. Retrieved 8 April 2011.

[dew3-4] "Distant Early Warning Line Radars: The Quest for Automatic Signal Detection" (PDF). Archived from the original (PDF) on 3 March 2016. Retrieved 8 April 2011.

[dew4-5] ^ ^a ^b ^c ^d ^e ^f ^g ^h ⁱ "The Distant Early Warning (DEW) Line: A Bibliography and Documentary Resource List" (PDF). Archived from the original (PDF) on 25 August 2011. Retrieved 8 April 2011.

[6] Bagnall, V. B. (June 1955). "Operation DEW Line". Journal of the Franklin Institute. 259 (6): 481–490. doi:10.1016/0016-0032(55)90093-4.

[7] McGrath, T. "The Commissioner's Award for Public Service", The Canadian Surveyor, September 1975.

[8] Holderith, Peter (25 May 2020). "The Incredible Story of the US Army's Earth-Shaking, Off-Road Land Trains". the drive.com. Retrieved 30 May 2020.

[9] North American Radar – DEW Line Radar Update

[10] Naka, Robert F. and William W. Ward. "Distant Early Warning Line Radars: The Quest For Automatic Signal Detection." Lincoln Laboratory Journal, Vol 12. No. 2. 2000. 181–204.

[11] Robert F. and William W. Ward. "Distant Early Warning Line Radars: The Quest For Automatic Signal Detection." Lincoln Laboratory Journal, Vol 12. No. 2. 2000. 184.

[12] Robert F. and William W. Ward. "Distant Early Warning Line Radars: The Quest For Automatic Signal Detection." Lincoln Laboratory Journal, Vol 12. No. 2. 2000. 185.

[adc31-13] A History of the DEW Line, Aerospace Defense Command Historical Study No. 31, SECRET, June 1965.

[14] Lackenbauer, Whitney. P. and Peter Kikkert. "The Canadian Forces & Arctic Sovereignty: Debating Roles, Interests and Requirements, 1968–1974". Waterloo: Wilfrid Laurier University Press, 2010. 7.

[15] Lackenbauer, Whitney. P. and Peter Kikkert. "The Canadian Forces & Arctic Sovereignty: Debating Roles, Interests and Requirements, 1968–1974". Waterloo: Wilfrid Laurier University Press, 2010. 56.

[16] Lackenbauer, Whitney. P. and Peter Kikkert. "The Canadian Forces & Arctic Sovereignty: Debating Roles, Interests and Requirements, 1968–1974". Waterloo: Wilfrid Laurier University Press, 2010. 68.

[17] Lajeunesse, Adam. "The Distant Early Warning Line and The Canadian Battle For Public Perception". Thesis Calgary: University of Calgary. Canadian Military Journal, Summer. 2007. 51.

[18] Neufeld, David. "Commemorating the Cold War in Canada: Considering the DEW Line." The Public Historian, Vol. 20, No. 1 (Winter, 1998), 18.

[19] Neufeld, David. "Commemorating the Cold War in Canada: Considering the DEW Line." The Public Historian, Vol. 20, No. 1 (Winter, 1998), 15.

[20] "Government of Canada Recognizes Successful Completion of Contaminated Site Clean-Up in Ivvavik National Park" (Press release). Government of Canada. 26 January 2011. Retrieved 16 February 2016.

[Lackenbauer,_Whitney_P_2007-21] Lackenbauer, Whitney P. "The Cold War on Canadian Soil: Militarizing a Northern Environment." American Society for Environmental History, Vol. 12, No. 4. Special Issue on Canada (Oct 2007), 932.

[barwv2-22] Bouchard, Capt. Joseph F. (USN). "Guarding the Cold War Ramparts." dean-boys.com. Retrieved: 13 March 2009.

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v t e Canada in the Cold War
Events	1972 Summit Series 1974 Summit Series Gouzenko Affair
Defectors	Igor Gouzenko Mikhail Baryshnikov Tamás Buday Igor Vasilyevich Ivanov Yuri Bezmenov
Alleged Soviet agents	Sam Carr Lauchlin Currie Gordon Lunan E. Herbert Norman Fred Rose John Watkins Emma Woikin
Military	Canadian peacekeeping NORAD DEW Line Mid-Canada Line Pinetree Line Canadian Forces Europe Avro Canada CF-105 Arrow Canada and weapons of mass destruction CIM-10 Bomarc
Government	Canada–Soviet Union relations Emergency Government Headquarters CFS Carp PROFUNC
Other	Radar Station Young Communist League of Canada

v t e United States Air Force system numbers
100–199	100 101 P 102 103 104 105 106¹ 107 A-1 A-2 108¹ 109¹ 110 111¹ 112 113¹ 114¹ 115¹ 116¹ 117 L M 118 A L P 119 C/F E L T Y 120 121 122 123 124 125 126 127¹ 128 129 130 131 132 A B 133 134¹ 135 136¹ 137¹ 138 139 140 141¹ 142 143–197¹ 198 199 B C D Y
200–299	200 201 A/L B/W E 202 203¹ 204 205 206 207¹ 208 209¹ 210 211¹ 212 213 214 215¹ 216 217 218 219¹ 220 221 222 A G 223¹ 224 225¹ 226 227–238¹ 239 240–278¹ 279 280–298¹ 299
300–399	300 301¹ 302 303 304¹ 305¹ 306 A/L B 307 308 309 310¹ 311¹ 312¹ 313¹ 314 315 A-1 A-2 316 317 318¹ 319 320¹ 321 322¹ 323 324 L M/N 325 326 327 E 328 E 329 F 330¹ 331¹ 332¹ 333¹ 334¹ 335 336 337 338–379¹ 380 A/B/E/F/N P 381–397¹ 398 399 A B
400–499	400 B/C/N E G/H M 401 402 403¹ 404 405 B C D 406¹ 407 408¹ 409¹ 410 E L 411 E L 412 413 414 L M 415 416 L M (I) M (II) P Q 417 418 L M 419¹ 420 L/W 421¹ 422 423 424 425 426 L M 427 L M 428 A L 429 430 431 G (I) G (II) 432 433 434 435 A L 436 437 438 439 440 441 A D L 442 443 444¹ 445 L M 446 447 448¹ 449¹ 450 451 D L 452 453 454¹ 455 456 457¹ 458 459 460 L 461 462 463 464 465 466 467 468 469 470 471 L (I) L (II) 472 473 474 L N 475¹ 476 E 477 478 A T 479¹ 480 481 L 482 E L M/Z 483 484 L M N 485 L Z 486 487 488 489 490 L M 491¹ 492 493 494 495 L (I) L (II) 496 497 A L (I) L 498 A C D E L 499 A C D
500–599	500 501–519¹ 520 521–529¹ 530 531–541¹ 542 543–549¹ 550 A E 551–559¹ 560 A F 561–569¹ 570 571–579¹ 580 A E 581–589¹ 590 591 592 593–599¹
600–699	600 601 A L 602 A L 603 A L 604 605 606 607 608¹ 609 610¹ 611¹ 612¹ 613¹ 614 615¹ 616 617¹ 618 619¹ 620 621 A/B (I) B (II) 622 623 624 625 626¹ 627 628¹ 629¹ 630¹ 631¹ 632 633 634 A B 635 636¹ 637¹ 638 639 640 641 642 643 644¹ 645¹ 646¹ 647¹ 648 A D P 649 A B C D E F L P 650 651 652 653¹ 654¹ 655 A (I) A (II) P 656 657¹ 658¹ 659¹ 660 661 662¹ 663¹ 664 665 A (I) A (II) 666 A C/P 667 668 669¹ 670 671¹ 672 A M/P 673¹ 674 675 676¹ 677¹ 678¹ 679 680 681 D E 682¹ 683 A J V 684¹ 685 686 687 J P 688¹ 689¹ 690 691 C X Z 692¹ 693 694¹ 695 A B C L N P Q R S (I) S (II) 696¹ 697¹ 698¹ 699¹
700–799	700–735¹ 736 737¹ 738¹ 739¹ 740¹ 741 742 743 744¹ 745 746–753¹ 754 755–799¹
800–899	800¹ 801¹ 802 L (I) L (II) 803¹ 804¹ 805¹ 806 807 808–816¹ 817 818¹ 819¹ 820¹ 821¹ 822¹ 823 824–831¹ 832 833¹ 834 835–845¹ 846 847–899¹
900–999	900–951¹ 952 853¹ 854¹ 855¹ 956 957–967¹ 968
¹ Unknown or not assigned

Authority control databases
International	FAST
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