Grumman S-2 Tracker Explained

The Grumman S-2 Tracker (S2F prior to 1962) was the first purpose-built, single airframe anti-submarine warfare (ASW) aircraft to enter service with the United States Navy. Designed and initially built by Grumman, the Tracker was of conventional design — propeller-driven with twin radial engines, a high wing that could be folded for storage on aircraft carriers, and tricycle undercarriage. The type was exported to a number of navies around the world. Introduced in 1952, the Tracker and its E-1 Tracer derivative saw service in the U.S. Navy until the mid-1970s, and its C-1 Trader derivative until the mid-1980s, with a few aircraft remaining in service with other air arms into the 21st century. Argentina and Brazil are the last countries to still use the Tracker.

Design and development

The Tracker was intended as a replacement for the Grumman AF Guardian,[1] which was the first purpose-built aircraft system for anti-submarine warfare. The Guardian operated in two aircraft "hunter-killer" pairs, with one aircraft (the AF2-W) carrying the detection gear to find the submarine and to direct the second aircraft, the AF-2S, which carried weapons to attack and destroy the submarine.[2] The Tracker combined both functions in one aircraft, saving deck space aboard carriers and making for more efficient operations.[1] Grumman's design (model G-89) was for a large high-wing monoplane with twin Wright Cyclone R-1820 nine cylinder radial engines, a yoke type arrestor hook and a crew of four. Both the two XS2F-1 prototypes and 15 S2F-1 production aircraft were ordered at the same time, on 30 June 1950. The first flight was conducted on 4 December 1952, and production aircraft entered service with VS-26, in February 1954.

Follow-on versions included the WF Tracer and TF Trader, which became the Grumman E-1 Tracer and Grumman C-1 Trader in the tri-service designation standardization of 1962. The S-2 carried the nickname "Stoof" (S-two-F) throughout its military career; and the E-1 Tracer variant with the large overhead radome was colloquially called the "stoof with a roof.".[3]

Grumman produced 1,185 Trackers and another 99 aircraft carrying the CS2F designation were manufactured in Canada under license by de Havilland Canada. U.S.-built versions of the Tracker were sold to various nations, including Australia, Japan, Turkey and Taiwan.

Sensors and armament

The Tracker had an internal torpedo bay capable of carrying two lightweight aerial torpedoes or one nuclear depth charge.[4] There were six underwing hard points for rocket pods and conventional depth charges or up to four additional torpedoes. A ventrally-mounted retractable radome for AN/APS-38 radar and a Magnetic Anomaly Detector (MAD) AN/ASQ-8 mounted on an extendable rear mounted boom were also fitted. Early model Trackers had an Electronic Support Measures (ESM) pod mounted dorsally just aft of the front seat overhead hatches and were also fitted with a smoke particle detector or "sniffer" for detecting exhaust particles from diesel-electric submarines running on snorkel.[5] Later S-2s had the sniffer removed and had the ESM antennae moved to four rounded extensions on the wingtips. A 70-million-candlepower searchlight was mounted on the starboard wing. The engine nacelles carried JEZEBEL sonobuoys in the rear (16 in early marks, 32 in the S-2E/G). Early Trackers also carried 60 explosive charges, dispensed ventrally from the rear of the fuselage and used to create sound pulses for semi-active sonar (JULIE) with the AN/AQA-3 and later AQA-4 detection sets, whereas the introduction of active sonobuoys (pingers) and AN/AQA-7 with the S-2G conversion saw these removed. Smoke dispensers were mounted on the port ventral surface of the nacelles in groups of three each.[6] [7]

Operational history

The Tracker was eventually superseded in U.S. military service by the Lockheed S-3 Viking; the last USN Tracker operational squadron (VS-37 with S-2G models) was disestablished in 1976. The last Navy S-2 was withdrawn from service on 29 August 1976.[8] For many years the TS-2A version of the Tracker was used by U.S. Navy training units, culminating with its use by Training Squadron 27 (VT-27), Training Squadron 28 (VT-28) and Training Squadron 31 (VT-31) for Student Naval Aviator training in the multi-engine pipeline with Training Air Wing FOUR (TRAWING 4) at Naval Air Station Corpus Christi, Texas.

A number of Trackers live on as firefighting aircraft while the design also continued to provide excellent service with the naval forces of other countries for years after the U.S. retired them. For example, the Royal Australian Navy continued to use Trackers as front line ASW assets until the mid-1980s.[9]

Argentina

Argentine Naval Aviation received seven S-2As in 1962, six S-2Es in 1978, and three S-2Gs in the 1990s. They were operated from both aircraft carriers, and, and used in the carrier onboard delivery (COD) (US-2A conversions,[10]) maritime patrol, and ASW roles. They were extensively used in the 1982 Falklands War, first from Veinticinco de Mayo, from where they detected the British task force, and then from the mainland[11] when the carrier returned to port after the sinking of the cruiser . In the 1990s, six remaining airframes were refurbished by Israel Aerospace Industries with turboprop engines as S-2T Turbo Trackers. with the retirement of Argentina's only aircraft carrier, the Trackers were annually deployed on board Brazilian Navy aircraft carrier during joint exercises ARAEX and TEMPEREX.[12] and with U.S. Navy aircraft carriers during Gringo-Gaucho maneuvers.[13] at least one S-2T was reported still operational in the maritime surveillance role.[14] [15]

Australia

See main article: Grumman S-2 Tracker in Australian service.

Between 1967 and 1984 the Royal Australian Navy operated two Squadrons of S-2E and S-2G variants, based at NAS Nowra .[16] These aircraft served with the RAN's 816 Squadron, which embarked aboard the as part of the 21st Carrier Air Group whenever that ship was deployed; and with 851 Squadron, the S-2 training squadron.[16]

Australia initially acquired 14 S-2Es.[17] During approximately 17 years of operation of the Tracker, the RAN lost only one S-2 during aircraft operations due to an accident at sea on 10 February 1975.[16] However, on 4 December 1976, a deliberately lit fire in a hangar at Nowra destroyed or badly damaged a large proportion of the RAN's complement of Trackers.[16] Of the 14 original aircraft, one was away from Nowra undergoing maintenance at the time of the fire and three aircraft were damaged but only two of these were repaired. The destroyed aircraft were subsequently replaced with 16 ex-USN aircraft.[17] [16] The replacement aircraft were all S-2Gs,[16] including the original aircraft modified by the USN to that status.[18] This saw the introduction of AQA-7 acoustic gear into RAN service and all RAN operational Trackers were subsequently modified to this standard.

Brazil

The Brazilian Air Force flew Trackers from the aircraft carrier NAeL . Both the S-2A and S-2E were used (respectively as P-16A and P-16E). At the end of its service in Brazilian Air Force, one S-2T Turbo Tracker was evaluated as a possible upgrade, but due high costs the program was canceled. However, in 2010 the Brazilian Navy contracted Marsh Aviation to convert four S-2Ts to Airborne Early Warning configuration and upgrade four additional Grumman C-1 Traders for tanking and carrier onboard delivery transport duties. The latter were scheduled to be back in service by 2015 and were expected to operate from the successor of Minas Gerais, NAe São Paulo.[19] Following the bankruptcy of Marsh Aviation in 2009 the program suffered delays and the upgrade of the airframes was resumed in partnership with Elbit Systems's subsidiary, M7 Aerospace.[20] The decommissioning of the São Paulo in 2017 means that the Brazilian Navy does not have an immediate need for carrier-based tankers, transports and AEW aircraft, however the navy proceeded with procurement and the delivery of four tanker aircraft are expected by 2021.[21]

As noted under Argentina above, Trackers of that country have been flown from the São Paulo until its decommissioning in early 2017.

Canada

In 1954, de Havilland Canada (DHC) entered into a contract to build 100 Trackers under license to replace the outmoded Grumman TBM-3E Avengers being used by the Royal Canadian Navy (RCN). 99 Trackers were actually built by DHC, with the first Canadian-built aircraft flying on 31 May 1956. From 1957 onwards, these aircraft operated from the newly deployed aircraft carrier and various shore bases.[22] All the Canadian Trackers were built to the earlier "A" model airframe design with a length of 42feet[23] (c.f. 43feet for later model Trackers) in order to fit in Bonaventures hangar.[24] In 1960–1961, 17 CS2F-1 aircraft, which had been relegated to training and utility duties by the CS2F-2, were transferred to the Royal Netherlands Navy. From 1964, 45 CS2F-2s were upgraded by fitting revised electronic equipment and sensors, becoming CS2F-3s. Also in 1964, a pair of CS2F-1 aircraft were stripped of armament and ASW electronics, converted to transports, and subsequently used for carrier onboard delivery.[25] The CS2F-1, -2, and -3 were redesignated as the CP-121 Mk.1, Mk. 2, and Mk. 3 respectively following the unification of Canadian forces in 1968.

After Bonaventure was decommissioned in 1970, all remaining Canadian Trackers were transferred to shore bases. This limited their usefulness for ASW patrols, and between 1974 and 1981 gradually all but 20 were placed in storage and the remainder were stripped of their ASW gear. The remaining active-duty Trackers served until 1990 on fisheries protection and maritime patrol duties. A handful of Trackers were kept in flying condition until the late 1990s but were no longer used for active service.[26]

DHC purchased a single U.S.-built S2F-1 from Grumman for testing avionics and anti-submarine systems and also for evaluating Engineering Change Proposals created by Grumman; it was initially given RCN serial number 1500 and counted as one of the 100 contracted airframes. In 1954, this aircraft was transferred to the RCN for operational testing, and assigned the test code X-500. In 1956, it was upgraded to CS2F-1 standards and assigned serial number 1501; it was last used as a stationary instructional airframe at Shearwater until 1972.[27] It is not known whether this aircraft was ever assigned a U.S. Navy bureau number.[28]

Japan

The Japan Maritime Self-Defense Force received 60 S2F-1s[29] in 1957 from U.S. stocks, and were operated until 1984. After being received, six S2F-1s were reconfigured into four S2F-U and two S2F-C variants. The S2F-1 was nicknamed Aotaka(あおたか, Blue Hawk). They were replaced by the Lockheed P-3 Orion.[30]

Netherlands

The Netherlands Naval Aviation Service (Marineluchtvaartdienst - MLD), the air arm of the Royal Netherlands Navy, received 28[31] S-2A (S2F-1) aircraft under MDAP from the US Navy in 1960. An additional 17[32] Canadian-built CS-2A (CS2F-1) aircraft formerly operated by the Royal Canadian Navy were delivered between December 1960 and September 1961 after being overhauled by Fairey Canada. These aircraft were operated from Valkenburg Naval Air Base as well as from the light aircraft carrier until a fire in 1968 took that ship out of Dutch service.[33]

A total of 18 aircraft were converted to S-2N (for Netherlands) standard by Fairey Canada in 1968–1970 for ASW and MR use with 1 Sqn (at Hato International Airport), of which four were converted to US-2N trainer/transport standards in May 1971. Most of the de Havilland Canada-built CS-2As were scrapped by 1970 or used for ground instruction. The last Tracker in MLD service was withdrawn in January 1976, with some transferred to the Turkish Navy.[31]

Peru

The Peruvian Navy operated with S-2E and S-2G from 1975 until 1989, they were assigned to Naval Aviation Squadron N°12 (Escuadron Aeronaval N°12). A total of 12 S-2Es were bought from the U.S. Navy in 1975 and 4 S-2G in 1983.

Taiwan

The Republic of China Air Force initially operated the S-2A in 1967. In 1976, they received S-2Es. The S-2As were later converted into target aircraft and later decommissioned in batches from 1979 to 1992. In 1986, several S-2Gs were purchased to make up for attrition. A modernization program began the same year, converting the remaining S-2E/G to a military S-2T configuration. The conversion involved the installation of two Garrett/Honeywell TPE-331-15AW turboprop engines, each rated at 1,227 kW (1,645 shp), with four-blade propellers This resulted in a payload increase of 500 kg. The upgrade also included new mission equipment of AN/AQS-92F digital sonobuoy processor, A/NARR-84 99-channel sonobuoy receiver, Litton AN/APS-504 radar, AN/ASQ-504 MAD and AN/AAS-40 FLIR.[34]

The 27 S-2Ts upgraded were transferred to the ROCN Aviation Command on 1 July 1999. In 2013, the S-2s were transferred back into ROCAF service. In May 2017, all S-2Ts were withdrawn from active service.

Turkey

The Turkish Navy received a number of ex-U.S. Navy S-2E Trackers under the MAP program and operated them from the Cengiz Topel Naval Air Base starting in the 1960s. These were later supplemented by retired S-2A (or S-2N as called by the Dutch) airframes from Netherlands. Turkish Trackers were retired in 1994 after a series of accidents caused by the advanced age and fatigue of the airframes.[35] [30]

Uruguay

The Uruguayan Navy received the first three S-2A Trackers on 10 April 1965 at the Capitan Curbelo Navy Base. On 15 September 1982, one S-2G arrived. On 2 February 1983, another two S-2Gs arrived. By September 2004, the remaining Uruguayan Trackers were not in flight condition.[36]

Civilian use

From the late 1970s until the mid-1990s Conair Aviation of Abbotsford, British Columbia, Canada took possession of retired Canadian and U.S. Trackers and converted them into Firecats, with a four-door fire retardant tank replacing the weapons bay and adjacent mid-fuselage section. Firecats were made in two variants: the piston-engined Firecat and the turboprop-powered Turbo Firecat.

In 1958, CAL FIRE, then CDF, contracted with a private air tanker service for the use of their converted World War II aircraft. By 1970 the department began to evaluate the use of former military Grumman S-2 aircraft. Over the next ten years CAL FIRE continued to build up its fleet of S-2A air tankers and in 1987, CAL FIRE began the process of converting their piston engines to turboprop. By 2005 all of CAL FIRE's airtanker fleet had been converted to S-2T air tankers.[37]

Turkey

The Tracker was considered for Turkey's firefighting aircraft project.[38] The project, which began in the late 1990s, never went beyond the conversion of a single prototype.[39] The Turkish Navy had retired its entire Tracker fleet 1994, so these aircraft were readily available for modification.[40] Turkish Aerospace Industries (TAI) undertook a study in 1997 to investigate if it was possible to convert any of these S-2Es for firefighting.[41] After re-engining with Honeywell TPE331 turboprop engines, at a cost of about $3 million per aircraft, it was expected to provide at least twenty years of service.[42]

TAI ordered an S-2T Turbo Tracker upgrade kit for conversion of one of the S-2Es. Following its conversion in 1999, the aircraft was used during the 1999 Antalya wildfires and the Tüpraş Izmit Oil Refinery fire, started after the 1999 İzmit earthquake. Although up to fifteen aircraft were intended to be converted, the project was cancelled in 2002 for unclear reasons. TAI's Flight Test Engineering Group flew the lone converted aircraft as a testbed for new technology until the mid-2010s.

Variants

XS2F-1
  • Two prototype anti-submarine warfare aircraft powered by 1,450 hp R-1820-76WA engines.
    YS2F-1
  • Designation of the first 15 production aircraft used for development, redesignated YS-2A in 1962.
    S2F-1
  • Initial production variant with two 1,525 hp R-1820-82WA engines, re-designated S-2A in 1962, 740 built.
    S2F-1T
  • Trainer conversion of S2F-1, redesignated TS-2A in 1962.
    S2F-1U
  • Utility conversion of S2F-1, redesignated US-2A in 1962.
    S2F-1S
  • S2F-1 conversion with Julie/Jezebel detection equipment, redesignated S-2B in 1962. Survivors converted to US-2B after removal of ASW gear.
    S2F-1S1
  • S2F-1S fitted with updated Julie/Jezebel equipment, redesignated S-2F in 1962.
    S2F-2
  • As S2F-1 with asymmetrical (port-side) extension of bomb bay, slightly enlarged tail surfaces, 77 built, most redesignated S-2C in 1962.
    S2F-2P
  • Photo reconnaissance conversion of S2F-2, redesignated RS-2C in 1962.
    S2F-2U
  • Utility conversion of S2F-2/S-2C, redesignated US-2C in 1962. Some were used as target tugs.
    S2F-3
  • Enlarged forward fuselage, enlarged tail surfaces, additional fuel capacity, and enlarged engine nacelles bays for 32 sonobuoys, redesignated S-2D in 1962, 100 built.
    S2F-3S
  • As S2F-3 but with Julie/Jezebel equipment, redesignated S-2E in 1962, 252 built.
    YS-2A
  • YS2F-1 redesignated in 1962.
    S-2A
  • S2F-1 redesignated in 1962.
    TS-2A
  • S2F-1T training version redesignated in 1962 and 207 conversion from S-2A.
    US-2A
  • S-2A converted as light transports/target tugs, 51 conversions.
    S-2B
  • S2F-1S redesignated in 1962.
    US-2B
  • Utility and target tug conversions of S-2A and S-2B; most S-2Bs were converted and 66 S-2As.
    S-2C
  • S2F-2 redesignated in 1962.
    RS-2C
  • S2F-2P photo-reconnaissance version redesignated in 1962.
    US-2C
  • S2F-2U utility version redesignated in 1962.
    S-2D
  • S2F-3 redesignated in 1962.
    YAS-2D/AS-2D
  • Proposed self-contained night attack aircraft to be developed under Operation Shed Light; none produced.
    ES-2D
  • Electronic trainer conversion of the S-2D.
    US-2S
  • Utility conversion of the S-2D.
    S-2E
  • S2F-3S redesignated in 1962.
    S-2F
  • S2F-1S1 redesignated in 1962.
    US-2F
  • Transport conversion of S-2F.
    S-2G
  • S-2E conversions with updated electronics (primarily AN/AQA-7 DIFAR sonobuoy processor and AN/ARR-75 sonobuoy receiver)
    CS2F-1
  • Initial production run of anti-submarine warfare aircraft for Canada based on S2F-1. A total of 42 built by De Havilland Canada.
    CS2F-2
  • Improved version of CS2F-1 with Litton Industries tactical navigation equipment. A total of 57 were built by De Havilland Canada.
    CS2F-3
  • New designation given to 43 CS2F-2 aircraft upgraded with additional electronics.
    CP-121
  • New designation given to all CS2F-1, -2, and -3 aircraft following unification of Canadian military in 1968.

    Turbo Tracker

    Military S-2T Turbo Tracker For Argentina
  • Upgraded S-2E with new engines and military equipment by IAI in the 1990s for the Argentine Navy. 6 upgraded.
    Military S-2T Turbo Tracker For Taiwan
  • Upgraded S-2E/S-2G with new engines and military equipment by Grumman from 1986 to 1992 for the ROC Air Force. 27 upgraded.
    S-2T Turbo Tracker
  • Civil conversion
    S-2AT
  • Civil firefighter conversion with turboprop engines.
    S-2ET
  • Civil conversion
    Marsh Aviation S-2F3AT Turbo Tracker
  • Turboprop conversion, powered by two Garrett TPE331 engines;[43] A total of 22 are operated by the CDF.
    Conair Firecat or Turbo Firecat
  • Civil conversion as a single-seat firefighting aircraft.

    Derivatives

    Operators

    Military operators

    (retired)
    (retired)
    (retired)
    (retired)
    (retired)
    (retired)
    (retired)
    (retired)
    (retired)
    (retired)
    (retired)
    (retired)
    (retired)

    Civil operators

    Many retired Trackers were sold to private owners for fire-fighting duties. Some were rebuilt and re-engined with turboprop engines.

    Aircraft on display

    See main article: List of displayed Grumman S-2 Trackers. Although still in active service in South America, numbers of Trackers are on public display, mainly in countries that formerly operated the type.

    References

    Bibliography

    Further reading

    External links

    Notes and References

    1. Francillon 1989, p. 351
    2. Sullivan 1990, p. 4
    3. O'Rourke, G.G., Captain USN. "Of Hosenoses, Stoofs, and Lefthanded Spads". United States Naval Institute Proceedings, July 1968.
    4. Web site: Grumman S-2 Tracker. s2tracker.com. 19 January 2016. https://web.archive.org/web/20110514222909/http://www.s2tracker.com/Tracker%20page.htm. 14 May 2011. dead.
    5. Web site: RAN Aircraft Hoisting – Changing Techniques . Naval Historical Society of Australia . September 2000 . Vickridge, G.L.W., Lieutenant, RANR . Naval Historical Review . 1 September 2017.
    6. Web site: Grumman C-1 Trader / S-2 Tracker . Warbird Alley . 1952-12-04 . 2013-07-26.
    7. Web site: Tracker History . S2ftracker.com . 1952-12-04 . 2013-07-26 . dead . https://web.archive.org/web/20131019221541/http://s2ftracker.com/TrackerHistory.htm . 19 October 2013 .
    8. http://www.history.navy.mil/avh-1910/PART10.PDF "The Seventies."
    9. Web site: Grumman S-2E/G Tracker . Royal Australian Navy . 6 July 2022.
    10. Jackson, David D. "Grumman S2F / S-2 Trackers in service with the Argentina Navy." Surviving Grumman S2F Tracker Information Repository, 2010. Retrieved: 15 June 2010.
    11. http://www.institutoaeronaval.org/Malvinas/Malvinas/Escuadrilla-Aeronaval-Antisubmarina.html "Escuadrilla Aeronaval Antisubmarina." (in Spanish)
    12. http://www.histarmar.com.ar/Armada%20Argentina/AviacionNaval/AS-Tracker.htm "Pictorial and historical data ."
    13. https://www.youtube.com/watch?v=rHB6kqaG3I0 "S-2 video."
    14. Web site: La Armada Argentina contabiliza en año y medio solo 158 días de navegación y 52 horas de vuelo . Infodefensa.com . Mary . Gonzalo . 20 June 2023 . 26 June 2023.
    15. Web site: Cooperación regional en acción: ejercicios combinados de la Armada Argentina . infodefensa.com . es . Gonzalo . Mary . 9 September 2023 . 9 September 2023.
    16. Gillett 1987, p. 206.
    17. Web site: Grumman S-2E/G Tracker . Royal Australian Navy . 27 Feb 2010.
    18. Francillon 1989, p. 367.
    19. http://www.flightglobal.com/news/articles/brazilian-traders-set-for-modernisation-365929/ "Brazilian Traders set for modernisation."
    20. Web site: Brazilian Navy restarts KC-2 Turbo Trader contract . Flight Global . 10 September 2019 . 17 November 2014.
    21. Web site: Host . Pat . LAAD 2019: Elbit Systems of America targets debut Brazil KC-2 flight . Jane's . 10 September 2019 . 4 April 2019.
    22. Cummings 1988, pp. 180–182.
    23. Taylor 1987
    24. http://www.airforce.forces.gc.ca/v2/equip/hst/tracker-eng.asp "de Haviland Grumman CP-121 Tracker."
    25. Cummings 1988, p. 182.
    26. Tate, Colonel D.H. "Grumman CS2F / CP-121 Tracker." Canada Aviation and Space Museum. Retrieved: 22 March 2009.
    27. Web site: Grumman CS2F/CP 121 Tracker . Shearwater Aviation Museum . 11 April 2022. https://web.archive.org/web/20220411115957/http://www.shearwateraviationmuseum.ns.ca/exhibits/tracker.htm. 11 April 2022. dead .
    28. Web site: US Navy and US Marine Corps BuNos, Third Series (135774 to 140052) . Baugher . Joe . 7 August 2023 . joebaugher.com . 1 July 2024.
    29. http://www.s2tracker.com/Tracker%20page.htm Grumman S-2 Tracker - History
    30. http://home.planet.nl/~roden171/operatorse.html S-2 Website : Operators in past and present
    31. Web site: Netherlands Naval Aviation Service . Aeroflight.co.uk . 2013-07-26.
    32. Web site: Netherlands Naval Aviation Service . Aeroflight.co.uk . 2013-07-26.
    33. Web site: KDoorman . Steelnavy.com . 2013-07-26.
    34. http://www.taiwanairpower.org/navy/s2t.html "Northrop Grumman S-2T Turbo Tracker."
    35. http://artofabandonment.com/2013/12/the-airplane-graveyard-the-complete-story/ The Airplane Graveyard - The Complete Story
    36. Jackson, David D. "Uruguay Museum or Outside Display S2F / S-2 Grumman Trackers." Surviving Grumman S2F Tracker Information Repository, 2010. Retrieved: 23 August 2010.
    37. "Firefighting Aircraft Recognition Guide." Firefighting Aircraft (n.d.): 1. http://calfire.ca.gov/communications/downloads/fact_sheets/Aviation_Firefighting_webbooklet.pdf . Cal. Fire. Web. 8 October 2014.
    38. Web site: Reklam Engelliyici . 2023-01-05 . www.sozcu.com.tr . 13 May 2023 . https://web.archive.org/web/20230513144546/https://www.sozcu.com.tr/reklam-engelleyici . dead .
    39. Web site: Oryx . Fire Boss - Türkiye's S-2 Tracker Aerial Firefighter . 2023-01-05 . Oryx.
    40. Web site: TPE331 Turboprop Engine . 2023-01-05 . aerospace.honeywell.com . en-US.
    41. Web site: Turkey S2F Trackers . 2023-01-05 . www.grummantracker.com.
    42. Web site: Reklam Engelliyici . 2023-01-05 . www.sozcu.com.tr . 13 May 2023 . https://web.archive.org/web/20230513144546/https://www.sozcu.com.tr/reklam-engelleyici . dead .
    43. http://registry.faa.gov/aircraftinquiry/NNum_Results.aspx?NNumbertxt=436DF "Marsh S-2F3AT Turbo Tracker."
    44. Web site: Argentina S2F Trackers . S2ftracker.com . 2014-01-07 . dead . https://web.archive.org/web/20131019141822/http://s2ftracker.com/argentinatrackers.htm . 19 October 2013 .
    45. Web site: Jerry Proc . Radio Research Paper - Tracker In Canadian Service . Jproc.ca . 2014-01-07.
    46. Web site: Utility Squadron VU 32 . 2012 . AEROWAREdesigns . 12 May 2022 . dead . https://web.archive.org/web/20120806145622/http://www.canadianwings.com/Squadrons/squadronDetail.php?Utility-Squadron-VU-32-107 . 6 August 2012.
    47. Web site: Italian Air Force Aircraft Types. aeroflight.co.uk. 19 January 2016.
    48. http://www.bushplane.com/grumman-cs2f-tracker-canadian-bushplane-heritage "Grumman CS2F Tracker."
    49. http://p2vneptune.com/f01.shtml "P2V Neptune."