Landing craft mechanized

A landing craft mechanized (LCM) is a rugged, steel-hulled amphibious vessel designed to transport troops, vehicles, equipment, and supplies from ships to shore without requiring docking facilities, enabling direct beach landings during military operations.^[1] These craft feature a bow ramp for rapid offloading and are powered by diesel engines for reliable performance in shallow waters and surf conditions.^[2] Originating from British prototypes in the late 1930s, the LCM evolved rapidly during World War II to meet the demands of large-scale amphibious assaults, with American industrialist Andrew Higgins playing a pivotal role in refining U.S. designs after reviewing Navy plans in 1941.^[3] The first U.S. LCM(2) variant, completed in just 61 hours of design work, was tested in May 1941 and led to mass production of subsequent models like the LCM(3) and LCM(6), which could carry a 30-ton tank such as the Sherman or up to 60 troops with gear.^[3] Over 8,600 LCM(3)s and 2,500 LCM(6)s were built between 1941 and 1945, making them essential for operations in North Africa, the Pacific, and Europe.^[4] During the Normandy invasion on June 6, 1944 (D-Day), hundreds of LCMs from flotillas like LCM Flotilla 2 ferried demolition teams, airborne troops, and heavy equipment to Utah Beach, despite challenges from rough seas and enemy fire that damaged or sank several craft.^[3] Post-WWII, variants such as the LCM(8)—introduced in 1959 and extended to 74 feet—continued service in conflicts like the Vietnam War, where they were adapted as armored gunboats for riverine patrols.^[4] Today, the U.S. Navy employs modernized LCMs alongside larger landing craft utility (LCU) vessels, which boast greater payload capacities for tanks and logistics support in expeditionary warfare from amphibious assault ships.^[1] These craft remain vital for joint operations, emphasizing versatility in transporting mechanized units over short distances at speeds up to 11 knots when light.^[2]

History

Early development

The conceptual origins of mechanized landing craft trace back to early 20th-century amphibious experiments, particularly the British experiences during the Gallipoli Campaign of World War I, which highlighted the limitations of relying on towed barges and makeshift docks for delivering vehicles and troops to hostile shores.^[4] In response, British military planners recognized the need for self-propelled craft capable of carrying armored vehicles directly onto beaches without extensive infrastructure, driving interwar innovations in amphibious warfare.^[2] In 1924, the British established a Landing Craft Committee to oversee the design and testing of specialized vessels, leading to the conception of the Motor Landing Craft (MLC) series in the mid-1920s.^[2] The first prototype, MLC(1), was constructed in 1926 by J. Samuel White and Company at their Cowes shipyard on the Isle of Wight, featuring a 40-foot hull, a capacity for a 16-ton tank, and innovative steerable water-jet propulsion powered by a Hotchkiss petrol engine to avoid propeller fouling in shallow waters.^[4] Initial trials in 1927 demonstrated the craft's potential during annual amphibious exercises, where it successfully beached and offloaded vehicles, marking the first purpose-built mechanized landing craft in service.^[2] Early prototypes faced significant challenges, including instability when loaded in rough seas—exemplified by a 1940 incident where an MLC sank under the weight of a 13-ton tank—and propulsion inefficiencies from the noisy, vibration-prone water jets that complicated control in waves.^[4] These issues were progressively addressed through iterative prototyping by firms like John I. Thornycroft and Company, which refined hull shapes for better stability and experimented with alternative engine configurations to enhance seaworthiness without sacrificing beachability.^[4] By 1939, nine MLCs were in service, with six stationed in Britain and three in Malta, providing a foundational fleet for further development.^[4] The outbreak of World War II in 1939 intensified wartime urgency, prompting the formation of the Inter-Service Training and Development Centre (ISTDC) in 1938 to accelerate amphibious innovations, including early Allied collaboration with the United States on design sharing and standardization that influenced the evolution toward World War II variants like the LCM(1).^[4]

World War II production and deployment

The production of landing craft mechanized (LCM) during World War II saw a dramatic scale-up, particularly for the LCM(3) variant, which became the workhorse for amphibious operations. In the United States, over 8,000 LCM(3)s were constructed between 1942 and 1945 to meet the demands of expanding naval campaigns.^[5] Key manufacturers included Higgins Industries in New Orleans, which produced hundreds of units leveraging its innovative assembly techniques, and Bethlehem Steel in Wilmington, Delaware, which delivered 400 LCM(3)s in 1943 alone.^[5]^[3] This rapid ramp-up was part of a broader Allied effort influenced by early British Mechanized Landing Craft (MLC) designs from the interwar period, which emphasized rugged, ramp-bowed vessels for vehicle delivery.^[4] Standardization played a crucial role in this expansion, coordinated by the U.S. Navy's Bureau of Ships, which refined designs for mass production while incorporating feedback from joint Navy-Marine Corps exercises.^[6] The Bureau ensured uniformity in hull forms and propulsion to facilitate interchangeable parts and training, enabling output to surge from prototypes in 1941 to thousands annually by 1944.^[2] Under the Lend-Lease program, the U.S. transferred approximately 650 LCM(3)s to Britain, bolstering Royal Navy capabilities and supporting combined operations; Britain itself produced around 750 LCMs domestically, often adapting U.S. specifications for local yards.^[7] These efforts addressed initial shortages in skilled labor and facilities, with production peaking despite wartime constraints on steel allocation, as hulls were primarily constructed from this material to prioritize durability over lighter alternatives reserved for aircraft.^[8] Deployment logistics integrated LCMs into larger amphibious fleets, where they were transported aboard ships like Landing Ship Tanks (LSTs) and Landing Ship Docks (LSDs) for transoceanic voyages.^[9] In the European theater, LCMs were offloaded from LSTs for assaults such as Normandy in 1944, where flotillas like the U.S. Navy's LCM Flotilla 2 ferried tanks and troops to Utah Beach amid rough Channel conditions.^[3] In the Pacific theater, similar tactics supported island-hopping campaigns, with LCMs launched from LSDs carrying Marine divisions to beaches in operations from Guadalcanal to Okinawa, enabling the delivery of heavy equipment over coral reefs and surf.^[10] Variations in production arose from material constraints, including delays in steel deliveries that occasionally led to experimental adjustments in hull plating thickness, though steel remained the dominant choice for its strength in combat zones.^[5]

Post-World War II evolution

Following World War II, the U.S. military adapted landing craft mechanized (LCM) designs to meet emerging needs in amphibious logistics and warfare, particularly during the Korean War. The LCM(6) was developed in the early 1950s as an extension of the earlier LCM(3) hull, with a 6-foot section added to increase capacity for heavier loads such as the 30-ton M4 Sherman tank, enabling more effective ship-to-shore and riverine transport. This steel-hulled, 56-foot twin-screw craft, with a displacement of 64 tons fully loaded, supported coastal and riverine logistics operations, including supply runs to forward bases and occasional roles as improvised gunboats against infiltrating forces.^[11] Its design emphasized durability for beaching and offloading in contested environments, marking a transitional step toward larger postwar amphibious assets.^[12] By the late 1950s, the LCM(8) emerged as a significant advancement, introduced in 1959 and constructed primarily by Marinette Marine Corporation as a replacement for the LCM(3).^[12] Over 1,100 units were built during the Vietnam era, serving as versatile "Mike Boats" for troop and vehicle transport in riverine and coastal operations, with a 70-ton payload capacity and enhanced steel construction for sustained use in Southeast Asia.^[4] These craft, powered by twin diesel engines, facilitated amphibious assaults and logistics from amphibious ships to shorelines, underscoring the evolution from wartime prototypes to standardized Cold War tools.^[9] Postwar LCMs also incorporated specialized modifications to address operational challenges, particularly in Vietnam. The "Zippo" variant, based on the LCM(6) and used in Mobile Riverine Force monitors, integrated dual M10-8 flamethrowers (with a 200–300-yard range and up to 225 seconds of sustained flame using napalm mixtures) starting in mid-1967 to clear Viet Cong bunkers and vegetation along riverbanks, replacing less effective 40mm autocannons in some configurations.^[13] Similarly, the LCM(8) Mod 2 served as a command and control platform, supporting personnel transfer, light salvage, and firefighting duties with adapted superstructures for enhanced communications and utility roles.^[12] Into the late 20th and 21st centuries, LCM concepts shifted toward larger successors like the Landing Craft Utility (LCU) series, which expanded payload to 170 short tons and range to 1,200 nautical miles for modern amphibious operations.^[9] By the 2020s, the Maneuver Support Vessel (Light) (MSV(L)) emerged as a direct replacement for the aging LCM(8), offering a 82-short-ton capacity, 21-knot speed, and improved maneuverability for transporting vehicles like the M1 Abrams tank to austere beaches, with plans to build up to 13 units. As of November 2025, the MSV(L) prototype has completed repairs and testing, with the Army proceeding to acquire several units despite prior program reviews, supporting the scheduled phase-out of the LCM(8) by 2027.^[14]^[15]^[16]^[12]

Design and characteristics

Hull and structural features

The Landing Craft Mechanized (LCM) is characterized by a boxy, flat-bottomed steel hull optimized for shallow draft and beaching, enabling the craft to approach shorelines in minimal water depths and ground firmly for unloading operations. This design facilitates navigation in nearshore environments where deeper-draft vessels cannot operate, with the flat bottom providing stability on uneven seabeds during beaching. The hull's high sides protect cargo from wave action, while the overall structure supports amphibious assaults by allowing direct transition from water to land.^[17]^[3] A prominent feature is the bow ramp, typically constructed of heavy steel plating, which lowers to the beach to permit rapid exit of vehicles and personnel without the need for docks or piers. This ramp, integrated into the forward hull, enables mechanized equipment such as tanks to roll off efficiently, minimizing exposure time during landings. Hull lengths generally range from 50 to 75 feet across designs, balancing transportability aboard larger ships with sufficient internal space for cargo. The deck features reinforced plating to bear payloads of 30 to 60 tons, including the distributed weight and tracked movement of armored vehicles, ensuring structural integrity under combat loads.^[3]^[18] For operational stability, particularly during partial unloading when weight distribution shifts forward, LCMs incorporate watertight compartments to maintain buoyancy and prevent flooding, alongside ballast systems and bilge pumps to adjust trim and enhance balance. These elements allow the craft to remain upright and seaworthy even as loads are offloaded on sloped beaches. Construction techniques evolved during the war, transitioning from riveted to predominantly welded steel assemblies by late 1942, which improved hull strength, reduced weight, and accelerated production while enhancing resistance to battle damage.^[4]^[19]

Propulsion and operational capabilities

Landing craft mechanized (LCMs) primarily employed twin-screw diesel propulsion systems, typically powered by two Gray Marine 6-71 diesel engines, each delivering 225 horsepower, to ensure reliable performance in amphibious operations.^[12] These engines, derived from the Detroit Diesel 6V-71 series and modified for marine use, drove twin propellers and rudders, enabling speeds of 8 to 11 knots when loaded and up to 12 knots when light, depending on the variant such as the LCM(3) or LCM(6).^[4] The reversible nature of the diesel engines allowed for direct astern propulsion without complex gear shifts, providing essential control during beaching and retraction maneuvers on varied shorelines.^[12] Fuel capacity generally ranged from 300 to 400 gallons, supporting an operational range of 125 to 150 nautical miles at cruising speeds of 8 to 9 knots, sufficient for shuttling between transport ships and beaches in assault scenarios.^[12] For instance, the LCM(3) carried approximately 400 gallons, achieving a 125-mile range, while later models like the LCM(6) extended this to 130 miles under similar conditions.^[4] This endurance balanced the need for repeated short-haul trips with the demands of fuel efficiency in shallow, near-shore environments. Operational capabilities included a minimal crew of 4 to 6 personnel, comprising a coxswain, engineer, and deck hands, to manage propulsion, navigation, and basic maintenance during missions.^[12] Self-defense was provided by two .50-caliber M2 Browning machine guns mounted aft near the pilothouse, offering protection against small arms fire and low-level threats without compromising the craft's primary transport role.^[4] The twin-screw configuration enhanced maneuverability in confined waters, allowing precise handling for alignment during beach approaches. The flat-bottomed hull design further aided shallow-water operations by minimizing draft to 3 to 4 feet when loaded.^[12]

Variants

LCM(1)

The Landing Craft Mechanized Mark 1 (LCM(1)), an early British design developed by the Thornycroft company, measured approximately 45 feet in length and was constructed primarily from 1940 to 1942, with around 500 units produced in Britain during this period.^[4]^[20] It had a payload capacity of one 16-ton tank, such as the M3 Stuart, or up to 100 troops, making it suitable for transporting armored vehicles or infantry from mother ships to shore.^[20]^[4] Powered by two Chrysler petrol engines each producing 100 horsepower, the LCM(1) achieved a maximum speed of about 8 knots when loaded, enabling it to operate effectively in the European theater where calmer coastal waters predominated.^[4]^[20] Its design drew brief influence from pre-war Mechanized Landing Craft (MLC) prototypes tested in the 1930s, adapting those concepts for wartime mass production.^[4] The craft featured a crew of six, including a coxswain and engineer, and was armed with two .303 Lewis machine guns for self-defense.^[20] Despite its utility, the LCM(1) exhibited significant limitations in rough seas, where its open deck and low freeboard led to heavy swamping and reduced stability, contributing to its rapid obsolescence by mid-war in favor of more seaworthy variants.^[4]^[20] In operational service, it played key roles in early amphibious actions, including supporting commando landings during the Norwegian Campaign in 1940 and ferrying troops and vehicles in the Dieppe Raid of August 1942, where its ramp facilitated direct beach assaults under fire.^[4] These deployments highlighted its value in sheltered waters but underscored vulnerabilities in contested environments.^[4]

LCM(2)

The Landing Craft Mechanized Mark 2 (LCM(2)) represented the United States Navy's initial indigenous design for a mechanized landing craft, developed in 1941 as an adaptation of the British LCM Mark 1 to meet American amphibious requirements during early World War II preparations. Measuring 45 feet (13.7 meters) in length with a beam of 14 feet 1 inch (4.29 meters) and a draft of 3 feet (0.91 meters), it displaced 29 tons light and was constructed with a steel hull featuring 1/4-inch plating for basic protection, including at the forward control station.^[4] Powered by two Kermath 225-horsepower petrol engines driving twin screws, the LCM(2) attained a maximum speed of 7.5 to 8.5 knots, an improvement in propulsion reliability over the less powerful British predecessor.^[4]^[21] This variant offered enhanced seaworthiness through refined hull proportions that provided better stability in moderate seas compared to the shallower-draft LCM(1), while maintaining a crew of four and armament of two .50-caliber M2 Browning machine guns for self-defense.^[4] It could transport up to 100 troops or a single 14-ton tank such as the M3 Stuart, or equivalent cargo of 14 tons, emphasizing its role in delivering armored vehicles or infantry to contested beaches without dock facilities.^[4] Production was limited to 147 units, completed between 1941 and 1942 primarily by commercial shipbuilders American Car & Foundry (which handled the initial TKL-series prototypes) and Higgins Industries under Navy contracts, reflecting the urgent but short-lived need before standardization on subsequent models.^[21]^[22] The LCM(2)'s brief manufacturing run stemmed from the Navy's pivot to the larger, more versatile LCM(3) by mid-1942, which allowed for greater payload and production efficiency; nonetheless, the earlier craft contributed to initial Pacific Theater deployments, including the Guadalcanal campaign where nearly half of the fleet saw action.^[4]

LCM(3)

The LCM(3) represented the most extensively produced variant of the Landing Craft Mechanized during World War II, with a total of 8,631 units constructed between 1942 and 1945 to meet the demands of amphibious operations across multiple theaters.^[5] Measuring 50 feet in length overall, it featured an all-steel hull designed for durability in surf conditions and could transport a 30-ton tank, such as the M4 Sherman, or up to 60 troops along with their equipment.^[19]^[23] This variant incorporated two primary sub-designs developed concurrently to optimize production and performance: the Bureau of Ships design, produced in limited numbers with a focus on sturdy construction and a cargo capacity of up to 120,000 pounds, and the Higgins Industries design, which emphasized a wider beam for enhanced stability in rough waters and became the dominant production model.^[23]^[19] Both sub-designs were powered by twin diesel engines, achieving a speed of approximately 10 knots when loaded.^[19] Armament typically consisted of one or two .50-caliber machine guns mounted aft near the pilot house, with options for .30-caliber guns in some configurations, providing defensive fire during beach approaches.^[23] The operational range was approximately 40-50 miles at full speed, sufficient for tactical runs from transport ships to shore.^[23] Production reached its zenith in 1944, exceeding 1,000 units per month across multiple shipyards, enabling the rapid buildup of amphibious forces for major assaults.^[5] The LCM(3)'s standardized design and interchangeable parts facilitated this high-volume output, serving as the foundational model for subsequent extensions like the LCM(6).^[19]

LCM(4)

The LCM(4) represented a refined iteration of the landing craft mechanized series, incorporating enhancements tailored for late-war amphibious operations in the European theater during World War II. As a British development refining the LCM(1) design, it emphasized improved seaworthiness through internal modifications including special bilge pumps and ballast tanks within the pontoon fenders to enhance stability when partially loaded.^[4] Measuring 45 feet (13.7 m) in length with a beam of 14 feet 1 inch (4.3 m), the LCM(4) shared external dimensions with the LCM(1). Propulsion was provided by two 100 horsepower Chrysler or Thornycroft petrol engines, delivering a speed of 8 to 10 knots when light. The design allowed for a payload of one 16-ton tank, such as the M3 Stuart, or up to 100 troops.^[4] Production totaled 77 units between 1943 and 1944, rendering the type relatively rare amid the prioritization of higher-volume LCM(3) output for mass deployments.^[4] These craft played a supporting role in major European invasions, including Normandy follow-up operations where they shuttled supplies and vehicles to sustain the Allied bridgehead against German defenses.^[20]

LCM(5)

The British LCM(5) represented a lesser-known specialized variant of the landing craft mechanized, developed specifically for Royal Navy use during the later stages of World War II. Introduced around 1944, it measured approximately 50 feet in length, paralleling the design intent of the US LCM(3), and featured limited production with fewer than 100 units constructed, largely overshadowed by the extensive output of United States facilities supplying Allied forces. Documentation remains sparse, with the variant incorporating an enclosed wheelhouse to enhance protection and visibility during voyages in the challenging North Atlantic environment. It boasted a payload capacity sufficient for a 30-ton tank such as the M4 Sherman and attained a maximum speed of 8 knots, enabling effective transport in amphibious scenarios. This variant saw rapid phase-out following the Normandy operations in 1944, as postwar priorities shifted away from wartime surplus types.^[23]^[7]

LCM(6)

The LCM(6), also known as the Landing Craft Mechanized Mark 6, was a postwar evolution of the World War II-era LCM(3), featuring a lengthened hull to enhance cargo capacity for Cold War-era amphibious operations. Measuring 56 feet (17 meters) in length overall with a beam of 14 feet 4 inches (4.4 meters) and a maximum draft of 4 feet 3 inches (1.3 meters) when fully loaded, the vessel displaced approximately 137,600 pounds (62,390 kilograms) at full load. It was powered by two Detroit Diesel 6-71 engines providing 348 horsepower (260 kW) total, enabling a top speed of 9 to 10 knots (17 km/h) and a range of about 130 nautical miles at cruising speed. The design prioritized versatility, with a cargo deck area of 620 square feet (58 square meters) capable of transporting a 50-ton medium tank such as the M48 Patton, up to 120 combat troops (though operational planning typically limited to 80 for safety), or equivalent cargo weighing 68,800 pounds (31,200 kilograms).^[24]^[25] Production of the LCM(6) began in 1950 with prototypes and continued through the 1960s, resulting in approximately 500 units constructed primarily for the U.S. Navy during this period, though total builds exceeded 1,000 by the 1980s including foreign and later variants. Major builders included Marinette Marine Corporation, which delivered batches such as 160 craft in 1955, alongside contributions from facilities in Japan and other U.S. yards. The hull was constructed of welded steel for durability in rough seas and beach landings, crewed by five personnel, and lightly armed with two .50-caliber machine guns or 20-mm cannons for self-defense. Fuel capacity stood at 768 gallons (2,907 liters), supporting sustained logistics runs without frequent resupply. This mid-sized design filled a gap between smaller WWII craft and larger postwar types, optimizing for ship-to-shore transfers in contested environments.^[26]^[25] In service, the LCM(6) supported U.S. amphibious logistics during the Korean War (1950–1953), serving as a workhorse for operations like the Incheon landings where units such as the 50th Port Construction Company offloaded 50 LCM loads of cargo at BETTY Beach, and at Iwon Beach where 10 LCMs provided essential lighterage for the 7th Infantry Division alongside LSTs. It facilitated shore-to-shore movements of troops, light vehicles, and supplies in challenging tidal conditions, including at Pohang and Suyeong, bolstering Eighth Army sustainment despite limitations against heavier modern tanks that shifted some roles to larger vessels. During the Vietnam War, the LCM(6) contributed to riverine patrols in the [Mekong Delta](/page/Mekong Delta), transporting personnel and equipment for naval support activities from 1966 onward, often operating from well decks of assault ships.^[25]^[27] Several LCM(6)s underwent modifications for specialized roles, including conversions to combat salvage boats equipped for riverine recovery operations, as seen in Harbor Clearance Unit One where four were adapted for diving support, wreck removal, and emergency repairs in Vietnam-era waterways. Others were outfitted as light lift craft with enhanced winches and pumps for towing and firefighting, while a number served in command capacities with added communications gear and armored enclosures for Mobile Riverine Force control boats, enabling coordination of patrols without compromising mobility. These adaptations extended the craft's utility into the 1970s for salvage, personnel transfer, and auxiliary missions across U.S. Navy fleets.^[28]

LCM(7)

The LCM(7), also known as the Landing Craft Mechanized Mark 7, represented the final British variant in the series of mechanized landing craft developed during World War II, with a focus on coastal operations requiring shallower drafts than earlier ocean-going models like the LCM(5).^[4] Measuring 18.4 meters (approximately 60 feet) in length with a beam of 4.9 meters and a draft of 1.13 meters, it was designed for use in regions such as the Mediterranean and English Channel, where beaching on shallow coastal areas was essential.^[4] Powered by two Hudson Invader diesel engines delivering 290 brake horsepower, the craft attained a maximum speed of 11 knots and had a range of 150 nautical miles at that speed.^[4] Production of the LCM(7) was limited, with approximately 150 units constructed between 1943 and 1944, primarily in British yards, to support late-war amphibious needs.^[4] It featured a reinforced structure capable of transporting a single 40-ton vehicle, such as a Sherman tank, or up to 100 troops, with a crew of seven and light armament consisting of two 12.7 mm machine guns.^[4] Contemporary documentation remains sparse, as evidenced by U.S. Navy recognition manuals from the period, which noted no available statistics for the type.^[23] In the immediate postwar years, around 18 LCM(7)s were commissioned specifically for training roles, while 12 others were placed in reserve, supporting the Royal Marines' amphibious exercises as part of broader British defense policy adjustments.^[29] By the 1950s, the variant had become obsolete amid fleet modernization efforts that favored more capable designs.^[30]

LCM(8)

The LCM(8), also known as the "Mike Boat," represents the largest and longest-serving variant in the landing craft mechanized series, entering production in 1959 and continuing operational service into the present day. Evolving from the LCM(6) as a scaled-up design for greater payload capacity, it was primarily developed by Marinette Marine Corporation to support heavy equipment transport in amphibious and riverine environments during the Cold War era. Over 1,100 units were constructed across multiple shipyards, including Marinette Marine, Avondale Shipyard, Higgins Industries, and Gunderson Brothers Engineering, with production spanning from fiscal year 1950 prototypes through batches into the 1990s.^[31] Measuring 73 feet in length with a beam of 21 feet, the steel-hulled LCM(8) has a displacement ranging from 57.8 long tons light to 111.4 long tons fully loaded. It is capable of transporting one M48 or M60 main battle tank, equivalent to approximately 60 short tons of cargo, or up to 200 troops in an assault configuration. Propulsion is provided by four Detroit Diesel 6-71 six-cylinder engines delivering a combined 675 horsepower through twin propeller shafts and rudders, enabling a maximum speed of 12 knots when light-loaded and a range of 190 nautical miles at 8 knots fully loaded.^[24]^[9]^[24] Several specialized modifications enhanced the LCM(8)'s versatility for combat and support roles. The Zippo variant, deployed during the Vietnam War, replaced the standard armament with two M10-8 flamethrower turrets and additional fuel tanks for close-support fire in riverine assaults. The LCM(8) Mod 2 served as a command and control platform, incorporating communications equipment, personnel berthing, and salvage capabilities for multi-role operations. Experimental trials also explored aluminum hull constructions to reduce weight and improve speed, though steel remained the standard for production models.^[12] The LCM(8) maintains ongoing utility in prepositioned fleets, such as those supporting the U.S. Marine Corps' Maritime Prepositioning Force, for rapid logistics and equipment delivery in contingency operations. As of November 2025, its replacement by the Maneuver Support Vessel (Light) (MSV(L)) is underway, with prototypes repaired and operational, targeting first unit equipped in 2025 despite some program setbacks; the new design offers increased payload and range to address modern requirements while phasing out the aging fleet.^[14]

Operational service

World War II amphibious assaults

Landing craft mechanized (LCMs), particularly the LCM(3) variant, were essential for delivering heavy equipment and troops during major World War II amphibious assaults, enabling the rapid buildup of forces on contested shores despite intense enemy opposition.^[4] In the European theater, LCMs played a critical role in Operation Overlord at Normandy on June 6, 1944. Hundreds of LCMs, including those from LCM Flotilla 2 with 66 operational craft initially supplemented by 17 more, ferried tanks, demolition teams, airborne troops, and equipment to Utah Beach amid rough seas and German artillery fire, such as 88 mm shells that struck vessels like LCM 109 without loss of crew.^[3] These craft overcame beach obstacles including mines and heavy surf, contributing to the landing of over 130,000 troops and 17,000 vehicles within 48 hours, though over a dozen LCMs in Flotilla 2 became inoperable by mid-June due to damage and exhaustion.^[32] In the Mediterranean, LCMs supported Operation Husky, the invasion of Sicily on July 10, 1943, unloading troops and vehicles under minimal enemy fire, though approximately 55 percent in the Roger sector became stranded on D-Day due to shallow beaches and abnormal tidal effects.^[33] Similarly, during Operation Shingle at Anzio on January 22, 1944, LCMs transported personnel and supplies to the beachhead while enduring German artillery barrages, aiding the landing of two divisions approximately 40 miles south of Rome to outflank the Gustav Line.^[34] In the Pacific island-hopping campaign, LCMs were instrumental in early and late-war operations. At Guadalcanal on August 7, 1942, LCM(2)s from ships like USS Alchiba hoisted and landed M2A4 Stuart light tanks of the 1st Tank Battalion, marking one of the first major U.S. amphibious assaults and enabling Marines to secure the beachhead against Japanese resistance.^[35] By the Battle of Iwo Jima in February 1945, LCMs delivered artillery pieces such as 155 mm howitzers, ammunition, rations, and troops to southeastern beaches under heavy mortar, rocket, and small-arms fire from entrenched Japanese positions, while also evacuating casualties to hospital ships amid turbulent surf and ongoing combat, with widespread damage to landing craft contributing to logistical difficulties during a campaign with total Marine casualties of nearly 30 percent.^[36] Across these assaults, LCMs faced high attrition from enemy action, weather, and mechanical failures, with rates approaching 20 percent in major landings; for instance, one D-Day flotilla lost over a dozen craft out of 66.^[3]^[36]

Postwar conflicts and missions

LCMs saw extensive use in the Korean War (1950–1953), including during the Inchon amphibious landings in September 1950, where they transported troops and supplies to support the UN counteroffensive against North Korean forces.^[25] During the Vietnam War, Landing Craft Mechanized (LCM) variants, particularly the LCM(6) and LCM(8), played a critical role in riverine assaults and logistics operations within the Mekong Delta. The LCM(6) served as command ships in river assault groups, equipped with armaments such as 40mm cannons, 20mm cannons, .50-caliber machine guns, and 81mm mortars to support troop movements and provide gunfire support against Viet Cong positions along riverbanks.^[37] Meanwhile, the LCM(8) was reconfigured into armored troop carriers (ATCs) and monitors for the Mobile Riverine Force, transporting infantry platoons of the U.S. 9th Infantry Division while delivering heavy firepower to suppress ambushes.^[37] Specialized "Zippo" variants of these ATCs, fitted with flamethrowers, were employed to incinerate riverbank foliage and enemy bunkers, enhancing the safety of logistics convoys in contested waterways like the Vam Co Tay River.^[37] In the Gulf War of 1990-1991, the LCM(8) supported prepositioned equipment delivery as part of amphibious logistics efforts to sustain coalition forces during Operations Desert Shield and Desert Storm.^[4] Similarly, during Operation Restore Hope in Somalia in 1992, LCMs contributed to humanitarian logistics by facilitating the transport of troops and supplies to secure ports such as Kismayo, where boat companies used landing craft to offload aid and enforce security amid factional conflicts.^[38] Humanitarian missions further demonstrated the versatility of LCMs beyond combat roles. In 1994, during Operation Uphold Democracy in Haiti, landing craft were utilized to transfer U.S. troops ashore for the non-combatant intervention aimed at restoring President Jean-Bertrand Aristide, enabling rapid deployment without opposition.^[39] LCM(8)s were also employed during the 2003 invasion of Iraq, where two craft patrolled the shallow waters of the Khawr Abd Allah estuary, inspecting for mines and supporting maritime security operations.^[4] The LCM(8)'s enduring prevalence in modern operations stems from its robust design for versatile logistics in diverse environments.^[4]

Operators

Current operators

The Australian Army maintains a fleet of 15 LCM-8 landing craft, operated by the 35th Water Transport Squadron for amphibious support roles, with these vessels expected to continue in service until their replacement by 18 new Littoral Manoeuvre Vessel–Medium (LMV-M) craft beginning in 2026.^[40] The French Navy operates the Chaland de Transport de Matériel (CTM) class, a design derived from the LCM-8, with at least five units active as of 2023 for logistics and troop transport in overseas territories, though they are progressively being supplanted by 14 EDA-S next-generation landing craft delivered starting in 2021.^[41] The Honduran Navy sustains an inventory of 4 LCM-8 units for coastal defense patrols and military training exercises. The United States Navy operates approximately 32 modernized LCM 8 Mod 1 vessels alongside larger LCUs for amphibious operations from assault ships, supporting expeditionary warfare as of 2019.^[1] In the private and commercial sectors, surplus LCM-8 vessels—many originating from U.S. military production legacies—are employed globally for heavy-lift tasks such as logging in remote areas, humanitarian aid delivery, and inter-island cargo transport.^[42]^[43]

Former operators

The United States Army operated the LCM-8 landing craft, introduced in 1959, throughout the Cold War and into the 21st century, with the design serving as a primary mechanized transport for amphibious and riverine operations.^[14] By the 2020s, the fleet faced replacement due to the craft's age, limited speed, range, and capacity to handle modern equipment like heavier armored vehicles.^[44]^[45] The Maneuver Support Vessel (Light) (MSV(L)) program initiated production in 2024 to phase out the LCM-8, with the Army planning to retain some in reserves for training and contingency use while divesting others; as of 2018, the active inventory stood at approximately 36 units, reflecting a significant drawdown from peak Vietnam-era numbers, and phase-out continues as of 2025.^[46]^[47]^[48] The United Kingdom's Royal Navy utilized LCM variants, including the Mk.9 introduced in the early 1960s, for amphibious support until their retirement in the late 1980s.^[49] Earlier WWII-era LCM fleets, such as the Mk.1, were phased out by the 1960s amid post-war demobilization and the adoption of larger landing craft utility (LCU) designs better suited for Cold War requirements. Retirement was driven by hull degradation from extended service and the need for vessels with enhanced payload and over-the-horizon capabilities.^[50] During the Vietnam War, allies such as South Vietnam and Thailand received U.S.-surplus LCMs through military aid programs, with the South Vietnamese Navy operating hundreds of former American vessels, including dozens of LCM types, until the 1975 fall of Saigon.^[37] Thailand's Royal Thai Navy acquired 26 ex-U.S. LCM(6) craft in 1969, using them for coastal and riverine roles into the 1990s before surpluses led to phase-out in favor of newer utility landing craft.^[51] Common phase-out factors across these operators included structural fatigue in aging steel hulls and the emergence of advanced alternatives, such as LCUs and air-cushion vehicles like the LCAC, offering superior speed and versatility.^[52]^[45]