Hunt-class mine countermeasures vessel
The Hunt-class mine countermeasures vessel is a class of thirteen coastal minehunters developed for the Royal Navy to detect, locate, and neutralize underwater mines, ensuring safe navigation for naval and commercial shipping. These vessels, constructed primarily from glass-reinforced plastic (GRP) to reduce magnetic, acoustic, and pressure signatures, were built between 1979 and 1990 by shipyards including Vosper Thornycroft and Yarrow Shipbuilders, combining traditional minesweeping and modern minehunting roles in a single hull design. With a displacement of 750 tonnes, a length of 60 meters, a beam of 9.8 meters, and a draught of 2.2 meters, each ship is powered by two Caterpillar C32 ACERT diesel engines (upgraded from original Paxman Valenta 12CM) providing a maximum speed of 17 knots and a range of 1,500 nautical miles at 12 knots. The class features a crew of 45 (including 5 officers) and is equipped with advanced systems such as the Thales Sonar 2193 for detecting objects as small as a football at ranges up to 1,000 meters, the Seafox remotely operated vehicle for mine disposal, and diver support for explosive ordnance disposal. Armament includes a single 30mm DS30M Mark 2 automated gun mount for self-defense and a .50 caliber machine gun, with the vessels also capable of supporting unmanned underwater vehicles and subsea positioning systems.[1][2] Originally comprising 13 ships commissioned from 1980 to 1989, the Hunt class was a response to evolving naval threats during the Cold War, emphasizing non-magnetic construction to evade influence mines. Early vessels like HMS Brecon and HMS Ledbury entered service in the early 1980s, with the class undergoing upgrades including the replacement of propulsion systems in the 2010s under a £15 million contract by BAE Systems to extend operational life. By the mid-2000s, minesweeping equipment was removed from most units to focus on minehunting, though it can be reinstalled within 30 days if needed; the last operational sweep occurred in 2005 aboard HMS Ledbury. Several ships have been decommissioned or transferred: three (HMS Brecon, HMS Cottesmore, and HMS Dulverton) were retired in 2005, HMS Bicester as HS Europa and HMS Berkeley as HS Kallisto served with the Hellenic Navy (Kallisto decommissioned after 2020 collision; Europa remains in service), and three vessels transferred to the Lithuanian Navy: HMS Cottesmore as LNS Skalvis (M53), HMS Atherstone as LNS Kursis (M54), and HMS Quorn as LNS Sūduvis (M52) in 2025.[3])[4][5][6][7] As of 2025, six Hunt-class vessels remain active in the Royal Navy fleet: HMS Ledbury (M30), HMS Cattistock (M31), HMS Brocklesby (M33), HMS Middleton (M34), HMS Chiddingfold (M37), and HMS Hurworth (M39), based primarily at HMNB Portsmouth and Faslane. These ships continue to play a vital role in global operations, including clearing minefields in the Persian Gulf—where HMS Middleton and HMS Chiddingfold have been forward-deployed since 2010 under a BAE Systems support contract—and patrolling chokepoints like the English Channel. Recent enhancements, such as integration of the Easytrack acoustic tracking system and ongoing life-extension programs, align with the Royal Navy's transition toward autonomous mine countermeasures, including the introduction of unmanned systems and the new command vessel HMS Stirling Castle in 2025, which will oversee Hunt-class operations alongside Sandown-class sisters. Despite their age—approaching 40 years—the Hunt class remains a cornerstone of the UK's mine warfare capability, supporting NATO commitments and international mine clearance efforts until replacement by the Mine Hunting Capability (MHC) program in the late 2020s.[1][8][9][10][11]Development
Program origins
During the Cold War, the Soviet Navy's extensive mining capabilities represented a major threat to NATO's maritime operations, particularly in contested areas like the North Sea and Baltic approaches, where mines could block reinforcements and disrupt supply lines. The Royal Navy identified a critical need for non-magnetic mine countermeasures vessels capable of clearing such threats to maintain open sea lanes for allied forces. This urgency was underscored by NATO's overall shortage of mine countermeasures resources, as highlighted by British naval leaders in the late 1970s.[12][13] The Royal Navy's existing fleet of Ton-class minesweepers, dating from the 1950s, had become inadequate for evolving threats, lacking the precision required for minehunting alongside traditional sweeping tasks. These wooden-hulled vessels were increasingly obsolete, prompting the development of dual-role ships that could deploy sonar systems and remotely operated vehicles to detect and neutralize mines without entering hazardous areas. The program built upon the prototype HMS Wilton (M1116), commissioned in 1973 as the world's first glass-reinforced plastic (GRP) warship, which tested non-magnetic construction and minehunting concepts later scaled up for the Hunt class. The transition to GRP construction emerged as a key innovation, enabling larger, non-magnetic hulls suitable for these advanced operations.[14][12] The Hunt-class program received approval in the mid-1970s, with initial operational requirements formalized to address these gaps. The first contracts were awarded in the mid-1970s to Vosper Thornycroft, with HMS Brecon as the lead ship (ordered circa 1975) and HMS Ledbury ordered in 1976, followed by additional orders in 1978 that launched full-scale production. Planned for 12 or more vessels, the class comprised 13 ships due to budgetary considerations, with construction split between Vosper Thornycroft and Yarrow Shipbuilders to accelerate delivery.[12]Design requirements
The design of the Hunt-class mine countermeasures vessels was driven by the need to counter influence mines, which are triggered by magnetic or acoustic signatures, necessitating a configuration with minimal detectability. To achieve a low magnetic signature, the vessels were constructed using a glass-reinforced plastic (GRP) hull, the largest warships built from this non-ferrous material at the time, which avoids the magnetic interference associated with steel. Complementing this, low-permeability materials such as stainless steel were employed in components like crankshafts, and compensating coils were incorporated to neutralize fields from motors and solenoids. For reduced acoustic signature, the machinery was mounted on GRP rafts with rubber 'U' mounts positioned above the waterline, while flexible cardan shafts and Twiflex couplings isolated the propulsion engines from the hull, further minimizing noise transmission. These features ensured the vessels could operate in mined areas without activating acoustic or magnetic sensors on threats.[15][16] A key requirement was dual-role capability, enabling the Hunt-class to perform both traditional minesweeping—using mechanical sweep gear to detonate or cut mine moorings—and active minehunting, which involves detecting, classifying, and neutralizing mines at a safe distance. Minehunting relied on advanced sonar systems for bottom and volume search, capable of identifying small objects, combined with remotely operated vehicles (ROVs) such as the ECA PAP 104 for mine disposal, allowing operations without exposing the crew to direct risk. This versatility addressed the evolving mine threats of the era, stemming from Cold War concerns over Soviet naval mining strategies in potential conflict zones.[15][17] Operational efficiency demanded a compact crew of 45 personnel, including 5 officers, to lower costs, simplify logistics, and reduce the vessel's overall detectability through smaller support needs. Performance specifications included a maximum speed of 17 knots for rapid transit to deployment areas and an endurance of 1,500 nautical miles, sufficient for extended mine clearance missions in coastal or littoral environments while maintaining the low-signature profile.[1][15][18]Design and specifications
Hull and structure
The Hunt-class mine countermeasures vessels measure 60 m in length overall, with a beam of 10.5 m, a draught of 2.2 m, and a displacement of 750 tonnes.[15] These dimensions provide a compact yet stable platform optimized for shallow-water operations in mine-threatened areas. The vessels' non-magnetic requirements, stemming from the design phase, influenced the selection of construction materials to avoid triggering magnetic-influence mines.[17] The entire hull is constructed from glass-reinforced plastic (GRP), making the Hunt-class the largest GRP warships built at the time of their introduction in the 1980s. This material choice significantly reduces both magnetic and acoustic signatures compared to traditional steel hulls, enhancing survivability in minefields by minimizing detectability to underwater threats.[15] The GRP construction also contributes to low maintenance needs and corrosion resistance in marine environments.[1] The vessels feature a single-deck design with the superstructure positioned amidships, creating clear fore and aft areas for equipment handling. A helicopter deck is located aft, capable of supporting small unmanned aerial vehicles (UAVs) or drones for reconnaissance and auxiliary roles. Internal compartmentalization divides the hull into multiple watertight sections to improve damage control and buoyancy in the event of hull breaches. Wooden fittings are used throughout the interior to further suppress magnetic signatures and avoid ferrous materials.[19]Propulsion and performance
The Hunt-class mine countermeasures vessels were originally equipped with two Ruston-Paxman 9-59K Deltic diesel engines, delivering a combined output of 3,540 horsepower to drive the propulsion system.[15] These non-magnetic engines were selected for their compatibility with the vessels' low-signature requirements, powering two main shafts. A third Deltic 9-55B auxiliary diesel engine (0.582 MW) provides power for magnetic loop generation during minesweeping or drives hydraulic pumps for a low-speed variable propulsion system, enabling precise positioning at speeds up to 6 knots without engaging the main engines.[15] This setup ensures redundancy, allowing the ship to maintain control and maneuverability even if one propeller is compromised during operations.[15] Performance characteristics include a maximum speed of 17 knots and a cruising speed of 12 knots, providing an operational range of 1,500 nautical miles.[1] The glass-reinforced plastic (GRP) hull further minimized acoustic signatures from the propulsion system, enhancing stealth by reducing noise transmission through the water.[1] Between 2008 and 2018, all active Hunt-class vessels underwent a propulsion upgrade program, replacing the original Deltic engines with twin Caterpillar CAT C32 diesel engines producing a total of 2,300 horsepower.[20][2] This modernization, managed by BAE Systems under a £15 million contract initiated in 2010, improved reliability by addressing the Deltics' maintenance challenges, reduced fuel consumption by approximately 30 percent, and lowered emissions by 20 percent through more efficient combustion and updated gearboxes.[21][2] The upgraded power plants maintained the two-shaft arrangement and performance envelope, ensuring continued effectiveness in minehunting while extending service life.[20]Sensors and electronics
The Hunt-class mine countermeasures vessels are equipped with the Type 2193 hull-mounted minehunting sonar, developed by Thales Underwater Systems, which serves as the primary detection system for bottom-laid and moored mines.[15] This wideband sonar operates across frequencies from 100 kHz to 300 kHz, enabling high-resolution imaging and classification of small targets, such as objects the size of a football, at ranges up to 1,000 meters even in challenging acoustic environments.[15] The system's advanced signal processing enhances detection of stealthy modern mines, representing a significant upgrade over earlier sonars like the Type 193M.[17] The navigation and combat management suite centers on the NAUTIS 3 system provided by BAE Systems, which integrates sonar data with operational displays for real-time mission planning and decision-making.[15] NAUTIS 3 features modular software that processes sensor inputs, supports automated target tracking, and interfaces with multifunction consoles from DRS Technologies, allowing the crew to manage complex minehunting scenarios efficiently.[15] This system ensures seamless data fusion across the vessel's electronics, tailored to the class's dual-role requirements for both minehunting and minesweeping.[22] For communication, the Hunt-class incorporates standard Royal Navy HF, VHF, and UHF radio transceivers to support voice and data exchange over varying distances, complemented by the NATO-compatible Link 11 tactical datalink for secure, real-time information sharing with allied vessels and aircraft.[1] These systems enable coordinated operations in multinational task groups, with Link 11 facilitating the transmission of tactical pictures including minefield data.[1] In the 2010s, the vessels received upgrades to their surface surveillance capabilities with the installation of Kelvin Hughes SharpEye solid-state radars, specifically the X-band models for navigation and target detection in cluttered coastal waters.[23] These radars offer improved reliability and low electromagnetic signature, enhancing situational awareness without compromising the vessels' low-observability design.[23]Construction
Shipbuilders and production
The Hunt-class mine countermeasures vessels were constructed primarily by Vosper Thornycroft at their shipyard in Woolston, Southampton (near Portsmouth), United Kingdom, which built 11 of the 13 ships in the class, including HMS Brecon, Ledbury, Cattistock, Brocklesby, Dulverton, Bicester, Chiddingfold, Atherstone, Hurworth, Berkeley, and Quorn.[24] Yarrow Shipbuilders, based in Scotstoun, Glasgow, United Kingdom, constructed the remaining two vessels: HMS Cottesmore and Middleton.[24] Construction of the class spanned from 1978 to 1988, with keels laid at a rate of approximately 1–2 ships per year to meet Royal Navy requirements for replacing aging Ton-class minesweepers.[24] This timeline reflected the innovative use of glass-reinforced plastic (GRP) hulls, selected for their low magnetic signature essential to mine countermeasures operations, though the novel material required significant research and development investment.[3] Each vessel cost approximately £40 million in 1980 prices, encompassing the specialized GRP fabrication and integration of minehunting systems.[25] The overall program for the 13 ships represented a major commitment to UK shipbuilding capacity during the period, with production challenges arising from the complexities of scaling GRP molding techniques for large warships and ensuring compatibility with advanced sonar and propulsion equipment.[12]Commissioning and initial fitting
The fitting-out process for the Hunt-class mine countermeasures vessels began following their launches, with installation of specialized minehunting equipment such as the Type 218 sonar system, remotely operated vehicles, and non-magnetic propulsion components occurring primarily at the builders' yards, HM Naval Base Portsmouth, and Rosyth Dockyard from 1980 onward.[15] These vessels underwent sea trials to verify the integration of their glass-reinforced plastic hulls with mine countermeasures gear, ensuring low acoustic and magnetic signatures essential for operations in mine-threatened waters.[12] The first vessel, HMS Brecon, was commissioned into Royal Navy service in January 1980, marking the entry of the class into active mine warfare duties.[15] The final ship, HMS Quorn, entered service on 20 January 1989, completing the build and outfitting of the 13-vessel class over nearly a decade.[26] Initial crews for these vessels received specialized training in mine warfare operations at HMS Vernon in Portsmouth, the Royal Navy's primary center for mine countermeasures instruction until its closure in 1996.[27][28]Capabilities
Mine countermeasures systems
The Hunt-class vessels employ the Thales Sonar 2193, a hull-mounted wideband minehunting sonar operating in the 100kHz to 300kHz frequency range, to detect and classify seabed targets such as mines.[15] This system enables identification of objects as small as a football at ranges up to 1,000 meters in shallow coastal waters, where the class primarily operates, and entered service in 2004 following upgrades to the original sonar suite.[15] The sonar's variable frequency transmission enhances performance against modern stealthy mines by improving resolution and reducing false alarms in cluttered environments. For mine neutralization, the vessels deploy the SeaFox C remotely operated vehicle (ROV), an expendable system measuring 1.3 meters in length and weighing 40 kilograms, designed for identification and disposal of tethered, bottom-laid, or floating mines.[15] Launched from a dedicated handling system, the SeaFox is guided via a fiber-optic umbilical incorporating sonar and closed-circuit television for real-time operator control, culminating in detonation via an integrated shaped charge warhead.[15] Introduced to replace earlier Plume of Smoke (PAP) systems, the SeaFox entered Royal Navy service between 2007 and 2009 under a contract awarded to Ultra Electronics in 2006, with design contributions from Atlas Elektronik.[15] Manual diver operations remain a core capability, supported by an onboard two-man decompression chamber that allows clearance divers to conduct inspections and neutralizations at depths up to 80 meters.[15] These operations complement automated systems for close-range verification in complex seabed conditions. Integration of unmanned systems has advanced with the 2023 delivery of REMUS 300 autonomous underwater vehicles (AUVs) from HII Mission Technologies, specifically to bolster mine countermeasures on Hunt-class platforms.[29] The REMUS 300, a modular 3.25-meter vehicle with endurance up to 110 nautical miles at 3-4 knots, performs seabed surveys, mine detection via side-scan sonar, and data relay without risking manned assets, fully integrated into service as of 2025 with operational deployments in multinational exercises.[29][30] In July 2025, the Royal Navy accepted the SWEEP autonomous minesweeping system into service, consisting of uncrewed surface vessels equipped with influence sweep payloads to simulate ship signatures and detonate acoustic and magnetic mines at safe distances.[31] This complements the Hunt-class's minehunting role by providing unmanned sweeping capabilities, reducing risk to personnel and vessels. Traditional mechanical and influence sweeping capabilities are retained through acoustic and magnetic sweep gear, such as the non-magnetic wire sweep Mk8 and combined influence sweep (MSSA 1 and MS 14), which can be fitted to selected vessels within 30 days for secondary roles like route clearance.[15] Though last actively used in October 2005, this equipment simulates mine triggers to detonate acoustic or magnetic influence mines at safe standoff distances.[15]Armament and secondary roles
The Hunt-class mine countermeasures vessels are armed primarily for self-defense, reflecting their emphasis on survivability in contested littoral environments rather than offensive engagements. The main armament consists of a single MSI DS30M Mark 2 30 mm automated gun, capable of firing 0.36 kg shells in single-shot or burst modes to engage surface threats at ranges up to several kilometers.[32] Complementing this are two Browning .50 caliber heavy machine guns, installed as upgrades in recent years to replace earlier Miniguns for enhanced close-in protection, along with three general-purpose machine guns for anti-personnel and light vehicle defense.[33] These light armaments underscore the class's design philosophy, which avoids heavier weapons like missiles or torpedoes to maintain a low magnetic, acoustic, and pressure signature essential for mine operations.[17] Beyond mine countermeasures, the Hunt-class fulfills secondary roles as offshore patrol vessels (OPVs), conducting maritime security tasks such as monitoring exclusive economic zones and countering smuggling or piracy.[1] Their endurance, supported by the non-magnetic glass-reinforced plastic hull, allows for extended patrols without compromising stealth characteristics.[15] Vessels routinely participate in NATO exercises, including multinational mine warfare drills that integrate patrol and surveillance elements to enhance alliance interoperability.[34]Operational history
Royal Navy service
The Hunt-class mine countermeasures vessels entered Royal Navy service in the early 1980s, providing a combined minesweeping and minehunting capability that addressed gaps in previous designs.[15] These ships quickly proved their value in post-conflict operations during the Falklands War in 1982, where HMS Brecon and HMS Ledbury arrived in July to conduct sonar surveys and confirm the clearance of Argentine-laid mines around Port William and other key areas, ensuring safe navigation for task force vessels returning from the conflict zone.[35][36] During the Gulf War in 1991, multiple Hunt-class vessels, including HMS Brocklesby, Brecon, and Bicester, led coalition efforts to clear extensive Iraqi minefields in the northern Persian Gulf, guiding amphibious forces through danger areas and neutralizing threats that could have impeded landings.[37][38] Similar roles continued into the 2003 Iraq War, with Hunt-class ships participating in mine clearance operations around Umm Qasr and the Al Faw peninsula to secure shipping lanes in the Persian Gulf, contributing to the detection and disposal of legacy ordnance from prior conflicts in the region.[39] Across these operations, the class played a key role in detecting and neutralizing numerous mines, underscoring their reliability in high-threat environments.[40] In peacetime, Hunt-class vessels have regularly supported NATO mine countermeasures initiatives, including participation in standing groups like SNMCMG1 and exercises such as Dynamic Move, where they integrate with allied forces for multinational minehunting drills to enhance collective defense readiness.[41][42] In 2025, the Royal Navy reintroduced an influence minesweeping capability to the fleet after a two-decade hiatus, integrating autonomous systems like SWEEP with Hunt-class platforms to simulate vessel signatures and trigger acoustic and magnetic mines remotely, thereby reducing risks to crews.[9][31] However, the class faces planned retirement, with all remaining Royal Navy Hunt-class vessels scheduled for decommissioning between 2029 and 2031 as they are replaced by unmanned systems under the Maritime Mine Counter Measures (MMCM) program, a joint UK-France initiative focused on autonomous surface and underwater vehicles.[43][44][45]Service in foreign navies
The Hellenic Navy acquired two Hunt-class mine countermeasures vessels between 2000 and 2001 to bolster its mine clearance capabilities in the Aegean Sea. HS Evropi (ex-HMS Bicester) was delivered on 31 July 2000, followed by HS Kallisto (ex-HMS Berkeley) in 2001. These vessels were primarily employed for mine detection and neutralization operations in the strategically vital Aegean region, participating in multinational exercises such as Ariadne, an annual NATO-hosted event focused on enhancing mine countermeasures interoperability.[46][47][48] HS Kallisto's service ended tragically on 27 October 2020 when it collided with the containership Maersk Launceston off Piraeus, resulting in the vessel being cut in two and sinking; all 27 crew members were safely evacuated. The incident highlighted vulnerabilities in operating wooden-hulled minehunters amid heavy commercial traffic, though no immediate fleet-wide adaptations were publicly detailed in response. HS Evropi continues to support Aegean patrols and exercises, including recent multinational drills like NUSRET 25 for coastal defense and mine disposal.[4][49][50] The Lithuanian Navy has integrated Hunt-class vessels into its Baltic Sea operations since acquiring its first two in 2008, with LNS Skalvis (ex-HMS Cottesmore) and LNS Kuršis (ex-HMS Dulverton) becoming operational in 2011. These ships conduct routine mine countermeasures, including historical ordnance disposal in the shallow, mine-laden Baltic waters, often in collaboration with NATO allies; for instance, LNS Kuršis joined HMS Echo in 2021 for seabed munitions surveys off Lithuania's coast. In 2020, Lithuania purchased a third vessel, LNS Sūduvis (ex-HMS Quorn), which as of November 2025 remains under modernization at a Lithuanian yard following initial refurbishment in the UK and transfer in August 2025 for final conversion.[51][52][53] Lithuanian Hunt-class vessels have played key roles in international exercises emphasizing mine defense in contested environments. During Northern Coasts 2025, a major NATO drill in the Baltic Sea involving 14 nations and over 40 units, Lithuania contributed through Standing NATO Mine Countermeasure Group 1, focusing on mine clearance, interoperability, and crisis response operations. These activities underscore the vessels' adaptability to regional threats like legacy ordnance and potential hybrid warfare scenarios.[55] Adaptations for foreign service have included targeted upgrades to address local operational needs. For the Lithuanian fleet, LNS Sūduvis's ongoing modernization incorporates enhanced sonar and mission systems, new engines, propulsion, and search-and-rescue features to improve NATO integration and endurance in the Baltic. The original Hunt-class design, with its glass-reinforced plastic hull, proved suitable for export due to its non-magnetic properties ideal for minehunting in varied theaters.[53]Ships in class
Royal Navy vessels
The Royal Navy operates six active Hunt-class mine countermeasures vessels as of November 2025, based primarily at HMNB Portsmouth and Faslane, with ongoing maintenance and upgrades to extend their service life into the 2030s.[1][11] These ships form the core of the UK's minehunting capability. Two former Royal Navy vessels remain in retained non-operational roles. HMS Brecon serves as a static training ship at HMS Raleigh, providing seamanship and damage control instruction since her decommissioning in 2005.[15] HMS Atherstone, decommissioned in 2017 after 30 years of service, was placed in reserve until her sale in 2022 to Harland & Wolff for potential reuse or preservation.[56] The following table summarizes the Royal Navy's Hunt-class vessels, including builders, launch and commission dates, and current statuses:| Ship Name | Pennant Number | Builder | Launch Date | Commission Date | Status (as of November 2025) |
|---|---|---|---|---|---|
| HMS Ledbury | M30 | Vosper Thornycroft | 5 December 1979 | 11 June 1981 | Active; based primarily at HMNB Portsmouth and Faslane |
| HMS Cattistock | M31 | Vosper Thornycroft | 22 January 1981 | 5 March 1982 | Active; based primarily at HMNB Portsmouth and Faslane |
| HMS Brocklesby | M33 | Vosper Thornycroft | 12 January 1982 | 3 February 1983 | Active; based primarily at HMNB Portsmouth and Faslane |
| HMS Middleton | M34 | Yarrow Shipbuilders | 27 April 1983 | 4 July 1984 | Active; based primarily at HMNB Portsmouth and Faslane |
| HMS Chiddingfold | M37 | Vosper Thornycroft | October 1983 | October 1984 | Active; based primarily at HMNB Portsmouth and Faslane |
| HMS Hurworth | M39 | Vosper Thornycroft | 25 September 1984 | 2 July 1985 | Active; based primarily at HMNB Portsmouth and Faslane |
| HMS Brecon | M29 | Vosper Thornycroft | 21 June 1978 | 21 March 1980 | Decommissioned 2005; static training ship at HMS Raleigh |
| HMS Atherstone | M38 | Vosper Thornycroft | 1 March 1986 | 17 January 1987 | Decommissioned 2017; sold 2022 to Harland & Wolff |
Hellenic Navy vessels
The Hellenic Navy acquired two Hunt-class mine countermeasures vessels from the Royal Navy between 2000 and 2001 to bolster its mine warfare capabilities in the Aegean Sea. HS Europa (M62), formerly HMS Bicester, was built by Vosper Thornycroft Shipyards in Portsmouth, United Kingdom.[46] She was transferred to the Hellenic Navy on 31 July 2000 and remains active, assigned to the 3rd Mine Countermeasures Squadron at Salamis Naval Base as of 2025.[46][57] HS Kallisto (M63), formerly HMS Berkeley, was also constructed by Vosper Thornycroft.[3] Launched on 3 December 1986, she was commissioned into Royal Navy service on 14 January 1988 before being transferred to the Hellenic Navy on 28 February 2001. She operated until 27 October 2020, when a collision with the container ship MV Maersk Launceston off Piraeus cut her in two; the wreck was raised and subsequently scrapped.Lithuanian Navy vessels
The Lithuanian Navy operates three Hunt-class mine countermeasures vessels, acquired from the United Kingdom to enhance its capabilities in Baltic Sea mine defense operations. These ships underwent modernization prior to or following transfer, focusing on updated sensors and systems for NATO interoperability. They contribute to regional security through participation in multinational exercises, including NATO-led mine countermeasures activities. LNS Skalvis (M53) was built by Yarrow Shipbuilders at their Scotstoun yard in Glasgow, laid down in 1980, launched on 9 February 1982, and originally commissioned as HMS Cottesmore (M32) on 24 June 1983.[3] Acquired by Lithuania in 2008, it underwent refurbishment by Thales UK, including upgrades to sonar and mine disposal systems, before being commissioned into the Lithuanian Naval Force on 12 July 2013 at Klaipėda.[58] The vessel remains active, supporting minehunter roles in the Baltic and integrating into NATO's Standing NATO Mine Countermeasures Group 1 (SNMCMG1).[59] LNS Kuršis (M54) was constructed by Vosper Thornycroft in Portsmouth, laid down on 1 June 1981, launched on 3 November 1982, and initially commissioned as HMS Dulverton (M35) on 3 November 1983.[60] Transferred to Lithuania in 2008 alongside Skalvis, it received similar modernizations and was commissioned on 12 July 2013.[58] Now active, Kuršis focuses on Baltic mine defense, conducting surveys and clearance operations to secure sea lanes vital for regional trade and NATO logistics.[61] LNS Sūduvis (pennant number pending) was built by Vosper Thornycroft, launched on 23 January 1988, and commissioned as HMS Quorn (M41) in 1989.[32] Sold to Lithuania in April 2020, the vessel began regeneration work under a £55 million contract awarded to Harland & Wolff in 2022, including new propulsion engines installed in late 2023.[32][62] As of August 2025, Sūduvis was towed from Appledore Shipyard to a Lithuanian facility for completion of upgrades, which encompass enhanced sonar systems for improved mine detection; full commissioning is anticipated in 2026.[63]Decommissioned vessels
Several Hunt-class mine countermeasures vessels have been fully decommissioned from active service, primarily due to the age of the vessels—built in the early 1980s—and budgetary constraints within the Royal Navy and foreign operators, leading to their retirement ahead of the class's planned phase-out in the late 2020s.[43][15] In foreign service, HS Kallisto (M63, ex-HMS Berkeley), transferred to the Hellenic Navy in 2001, suffered a catastrophic collision with the containership Maersk Launceston on 27 October 2020 off Piraeus, Greece, resulting in the vessel being cut in half and suffering severe structural damage.[4] Towed to Salamis Naval Base, she was declared a total loss and permanently decommissioned due to irreparable damage and high repair costs relative to her age.[64] No salvage for operational reuse occurred, and the wreck awaits disposal, potentially for scrapping, though no specific plans have been publicly detailed.[49] No other non-transferred Hunt-class vessels have been fully decommissioned outside of training, parts support, or loss; the remaining ships either remain in active or reserve service or have been transferred to allied navies.[3]| Vessel | Pennant Number | Decommission Date | Reason | Current Status/Location |
|---|---|---|---|---|
| HS Kallisto | M63 | 27 October 2020 | Collision damage (total loss) | Awaiting disposal at Salamis Naval Base, Greece[64] |