Amphibious reconnaissance
Amphibious reconnaissance consists of ground and naval reconnaissance conducted in the littoral area bordering coastal or ocean areas from which amphibious forces operate or are likely to operate. In the United States Marine Corps (USMC), it is the specialized collection of intelligence on enemy forces, terrain, hydrography, topography, and environmental conditions within coastal littorals, ports, harbors, estuaries, and amphibious objective areas to support Marine Air-Ground Task Force (MAGTF) operations.[1] It encompasses ground and naval reconnaissance efforts conducted by small, stealth-oriented teams prior to, during, and after amphibious assaults, focusing on securing data for landing site suitability, enemy dispositions, and battlespace shaping while emphasizing undetected insertion, observation, and extraction.[1] This doctrine, rooted in U.S. Marine Corps practices, integrates subsurface, surface, and underwater methods to enable seamless transitions from sea to shore, reducing risks in contested maritime environments.[1] In the U.S. military context, amphibious reconnaissance is primarily executed by Marine Corps reconnaissance units, including Force Reconnaissance (FORECON) companies attached to Marine Expeditionary Forces and divisional Reconnaissance Battalions, which consist of specialized platoons trained in advanced skills such as combatant diving, parachuting, and small boat operations.[1] These units, often task-organized with Navy assets like SEAL teams or Underwater Demolition Teams for hydrographic surveys, operate under the control of amphibious task forces or landing force commanders to conduct pre-assault surveys of beaches, landing zones, and coastal defenses.[1] Training for these Marines, designated by primary military occupational specialty 0321, occurs through rigorous programs like the Basic Reconnaissance Course, emphasizing physical endurance, stealth tactics, and environmental adaptation in austere conditions.[1] Key tactics in amphibious reconnaissance prioritize stealth and versatility, employing insertion methods such as helocasts from helicopters, lock-out/lock-in from submarines, combat rubber raiding craft (CRRC) insertions, or combat swimming to position teams for surveillance from hide sites or observation posts.[1] Operations are phased across advance force, pre-assault, assault, and post-assault stages, with teams capable of sustaining dismounted patrols for up to 96 hours using limited equipment like closed-circuit rebreathers for underwater reconnaissance (effective up to 2.5 nautical miles at depths of 20 feet seawater) or open-circuit scuba for deeper dives.[1] Reporting follows standardized formats like RAIDERREP to feed real-time intelligence into reconnaissance operations centers, supporting terminal guidance for assault forces, battle damage assessments, and overall MAGTF maneuver in littoral environments.[1] This capability remains essential for modern amphibious doctrine, adapting to contested littorals through integration with joint forces and advanced surveillance technologies.[2]Fundamentals
Definition and Purpose
Amphibious reconnaissance refers to the specialized process of gathering intelligence on enemy positions, terrain features, hydrographic conditions, weather patterns, and beach characteristics in littoral environments, primarily conducted by small, elite teams prior to or in support of amphibious assaults. These operations emphasize stealthy insertions via watercraft or swimmers, data collection without engaging in combat, and subsequent extraction to minimize detection. According to U.S. Marine Corps doctrine, it is defined as "a general term relating to a landing conducted by minor elements, involving stealth rather than force of arms, for the purpose of securing information, followed by a planned withdrawal and/or recovery," or more broadly as "the collection of information by reconnaissance units concerning terrain, hydrography, and the enemy in areas of operational interest to amphibious forces."[3] The primary purposes of amphibious reconnaissance are to evaluate the suitability of potential landing sites—assessing factors such as beach gradients, obstacles, soil composition, tidal ranges, surf conditions, and currents—and to identify defensive installations, troop dispositions, and logistical vulnerabilities that could impede an assault. This intelligence verifies preliminary data from aerial or satellite sources, supports hydrographic surveys for safe naval transit, and informs adjustments to assault plans, thereby reducing operational risks and enhancing the overall effectiveness of amphibious forces. In U.S. Marine Corps maneuver warfare doctrine, these activities are integral to enabling fluid, expeditionary operations that exploit sea-to-land transitions for decisive advantage.[3][4] Amphibious reconnaissance plays critical roles in achieving tactical surprise through covert waterborne approaches, mitigating casualties in follow-on forces by preemptively mapping hazards, and integrating with joint intelligence efforts to provide real-time terminal guidance for assault elements. Unlike airborne reconnaissance, which prioritizes overland mobility and high-altitude insertions, amphibious variants uniquely focus on littoral zones, emphasizing water-to-shore dynamics and environmental variables like tides and reefs to ensure seamless transitions during operations.[3]Principles and Doctrine
Amphibious reconnaissance adheres to core principles of stealth, speed, and minimal footprint, which prioritize the use of small, highly trained teams to gather intelligence on coastal areas and enemy forces without alerting adversaries or compromising subsequent operations. These principles guide operations to ensure reconnaissance elements withdraw or are recovered after data collection, minimizing logistical demands and detection risks during the vulnerable precursor phase of amphibious assaults. The OCOKA framework—encompassing observation and fields of fire, cover and concealment, obstacles, key terrain, and avenues of approach—is specifically adapted for littoral zones, evaluating factors such as beach observation points, concealment in dunes or reefs, underwater and coastal obstacles, critical landing sites as key terrain, and navigable surf zones as primary avenues.[3][5] U.S. Marine Corps doctrine, as detailed in FMFM 2-2, establishes amphibious reconnaissance as an essential precursor to amphibious operations, focusing on pre-assault intelligence collection to inform landing site selection and force positioning. This approach has evolved in subsequent publications like MCWP 2-25, which integrates reconnaissance within the Marine Air-Ground Task Force to support operational maneuver from the sea. Recent U.S. Marine Corps Force Design updates as of October 2025 have introduced specialized maritime reconnaissance units equipped with high-speed boats to enhance operations in contested littorals, building on traditional doctrine.[3][5][6] NATO and allied doctrines, particularly AJP-3.1, underscore joint naval-infantry coordination, requiring seamless integration between amphibious task forces and landing forces to synchronize reconnaissance with broader maritime power projection and achieve unity of effort across naval and ground components.[7] Amphibious reconnaissance supports key amphibious concepts such as vertical envelopment, which leverages sea-based and air insertions to rapidly outmaneuver enemies in coastal battlespaces, enabling the projection of forces ashore while bypassing defended fronts. Risk assessment models for beach surveys employ trafficability analysis that examines soil bearing capacity, beach slopes, and tidal variations to predict vehicle mobility and landing viability, informing go/no-go decisions for the assault phase. Operations follow a structured reconnaissance process involving sequential phases of shaping the battlespace, intelligence gathering, infiltration to objectives, execution of tasks, exfiltration, and battle damage assessment, ensuring reconnaissance findings directly facilitate follow-on strikes by naval and ground elements.[5][8] In contrast to general reconnaissance, amphibious variants uniquely emphasize hydrographic data collection, including surf height, wave periods, currents, and underwater obstacles like reefs or mines, to guarantee safe transit for landing craft and vehicles. This focus extends to synchronization with naval gunfire support, where reconnaissance identifies targets for pre-assault fires to neutralize threats and create entry corridors for the main landing force.[3][8][7]Historical Development
Pre-World War II Origins
The concept of amphibious reconnaissance traces its roots to ancient naval operations, where coastal raids and expeditions relied on preliminary scouting to assess landing sites and enemy positions. In ancient Greece, Alexander the Great's naval expedition under Admiral Nearchus in 325–324 BCE exemplified early forms of such reconnaissance during the return voyage from India through the Persian Gulf. Alexander directed surveys of the southern coasts near Pattala and the Indus River mouths, employing Macedonian and Greek personnel to map roadsteads, bays, islets, and coastal features, distinguishing fruitful lands from deserts to facilitate fleet movements and potential landings.[9] During an assault on the Tomerus River, Nearchus deployed light-armed swimmers and scouts to probe defenses ahead of the main force, forming a protective line in shallow waters under cover of shipboard fire to secure the beachhead against local resistance.[10] Roman forces similarly incorporated scouts in coastal operations, such as Julius Caesar's use of staff officers for seaward observation during invasions, though these were more observational than dedicated pre-landing patrols.[11] By the 19th century, colonial powers advanced reconnaissance through systematic naval surveys to support amphibious landings. During the Crimean War (1853–1856), British forces under Vice-Admiral Thomas Abel Brimage Spratt conducted detailed hydrographic surveys of the Black Sea using HMS Spitfire, mapping coastlines, beaches, and navigational hazards to enable allied landings against Russian positions.[12] These efforts provided critical intelligence on beach suitability and enemy fortifications, highlighting the growing integration of cartographic reconnaissance in imperial naval strategy.[13] World War I marked a pivotal shift, as limited amphibious operations exposed deficiencies in pre-landing intelligence. The Gallipoli Campaign of 1915, the conflict's only major amphibious assault, proceeded without physical beach reconnaissance, relying instead on incomplete maps and aerial photos, which contributed to high casualties and logistical failures upon landing.[11] Subsequent patrols during the campaign attempted small-scale scouting, with one successful hydrographic probe but another detected and repelled by enemy fire, underscoring the need for covert methods.[14] Allied forces began experimenting with rubber boats for shallow-water scouting, though widespread adoption lagged until later maneuvers; these early efforts revealed reconnaissance as essential for assessing obstacles, currents, and defenses in contested littorals.[15] In the interwar period, major powers formalized amphibious reconnaissance within emerging doctrines. The U.S. Marine Corps conducted extensive experiments at Quantico in the 1920s and 1930s, staging landings at Culebra, Guantanamo Bay, Panama, and Hawaii to test the "Advanced Base" concept, which emphasized offensive seizures of island outposts requiring prior intel on beaches and enemy strengths.[16] By 1933, the formation of the Fleet Marine Force integrated reconnaissance patrols into training, culminating in the 1934 Tentative Manual for Landing Operations, which outlined scouting via small craft for hydrographic and tactical data.[16] Japan's Imperial Navy developed similar tactics through its Special Naval Landing Forces (SNLF), training units in China during the 1930s; the 1932 Shanghai incident, involving 1,700 troops, highlighted reconnaissance shortcomings when inadequate enemy scouting led to unexpected resistance, prompting refinements in pre-operation intelligence gathering.[17] Key publications shaped these innovations. In 1921, Major Earl Hancock Ellis's "Advanced Base Operations in Micronesia" advocated dedicated reconnaissance patrols as foundational to seizing Japanese-held atolls, detailing their role in mapping defenses and terrain to support fleet advances under [War Plan Orange](/page/War Plan Orange).[18] Britain's 1938 revision of the Manual of Combined Operations further codified amphibious reconnaissance, building on 1925 and 1931 editions to emphasize joint scouting for beach assaults and raids.[19]World War II Applications
During World War II, amphibious reconnaissance underwent significant doctrinal advancements across major powers, emphasizing integration with larger assault forces. The United States formalized its approach through the establishment of the Fleet Marine Force (FMF) in 1933, which by 1934 had integrated reconnaissance elements into amphibious planning via the Tentative Manual for Landing Operations, marking a shift toward coordinated naval-infantry operations for pre-assault intelligence gathering.[20] In Britain, the formation of Commando units in June 1940 introduced specialized raiding and reconnaissance capabilities, drawing from interwar experiments to support coastal surveys and sabotage in preparation for cross-channel invasions.[21] Axis powers, conversely, prioritized defensive coastal intelligence; the German Kriegsmarine employed small surface craft and coastal patrols for raider-style monitoring of Allied approaches, while Japanese Special Naval Landing Forces (SNLF) incorporated swimmer and small-boat tactics for island defense reconnaissance.[22] Training and organizational structures expanded rapidly to meet wartime demands. The U.S. Marine Corps activated the first Raider Battalions in February 1942, evolving into dedicated reconnaissance roles with specialized training in rubber-boat insertions, patrolling, and hydrographic surveys at camps like Quantico and Elliott.[23] By November 1943, the Amphibious Reconnaissance Battalion was formed under the V Amphibious Corps, organized into companies for deep reconnaissance and beach assessment, with training at Camp Catlin emphasizing night swims and LCVP operations.[24] British Commandos underwent rigorous six-week programs at Achnacarry, focusing on amphibious assault, cliff scaling, and signals for reconnaissance parties.[21] Japanese SNLF units scaled up swimmer reconnaissance training within their naval infantry framework, integrating it with hydrographic teams for defensive preparations across Pacific atolls.[25] Overall, reconnaissance personnel grew from hundreds in 1939 to thousands by 1944, exemplified by the FMF's expansion from 4,525 to over 29,000 members by late 1941, enabling broader integration of recon elements.[20] Key innovations enhanced reconnaissance effectiveness, particularly in obstacle clearance and intelligence fusion. The U.S. Navy's Underwater Demolition Teams (UDTs), established in July 1943 at Fort Pierce, pioneered swimmer-based surveys to map beaches, measure depths, and remove barriers, with teams growing to 34 by war's end and nearly 1,000 personnel committed to major assaults.[26] Signals intelligence, such as British ULTRA decrypts, was increasingly integrated into recon planning from 1941 onward, providing predictive data on enemy coastal defenses to guide swimmer and boat insertions.[27] Global variations highlighted strategic priorities: Allied doctrines stressed offensive, large-scale amphibious assaults supported by expansive recon networks, contrasting Axis emphasis on localized defensive intelligence to fortify coastlines against invasions.[20] This divergence reflected resource allocation, with Allies investing in scalable units for global theaters while Axis forces adapted pre-war tactics to protect vulnerable littorals.Post-World War II Evolution
Following World War II, amphibious reconnaissance underwent significant organizational transformations to adapt to emerging geopolitical demands. In the United States, the Underwater Demolition Teams (UDTs), originally formed for clearing underwater obstacles during amphibious assaults, evolved into the Navy SEALs in 1962, expanding their mandate to include advanced reconnaissance, sabotage, and direct action in littoral environments.[28] This transition reflected a shift toward versatile special operations capabilities suited for Cold War contingencies, building on wartime experiences without altering core amphibious principles.[29] The Korean War (1950–1953) further refined these capabilities, notably during the Inchon landing in September 1950, where UDTs conducted critical hydrographic surveys and obstacle assessments under fire to enable the successful amphibious assault that reversed the war's tide.[30] In the Vietnam War (1955–1975), U.S. Marine Force Reconnaissance units performed extensive coastal and riverine reconnaissance, adapting swimmer and small-boat tactics to support operations in contested inland waterways and beaches, influencing hybrid warfare doctrines.[31] In the United Kingdom, the Royal Marines enhanced their reconnaissance specialization during the 1956 Suez Crisis, where commando units conducted amphibious insertions to secure key coastal objectives, demonstrating the integration of helicopter-borne assaults with traditional beach reconnaissance.[32] This operation highlighted the need for rapid, specialized littoral intelligence gathering in expeditionary contexts, influencing subsequent doctrinal refinements within NATO allies.[33] During the Cold War, NATO pursued standardization of amphibious procedures through agreements like STANAG 1149, which outlined doctrines for joint operations including reconnaissance to ensure interoperability among member nations in potential European theaters.[34] Concurrently, Soviet Spetsnaz forces developed coastal reconnaissance tactics in the 1970s, emphasizing infiltration by small teams for intelligence on NATO amphibious vulnerabilities, often using submarines and swimmer delivery vehicles.[35] The nuclear era further drove adaptations, with doctrines prioritizing survivability through dispersed insertions and hardened communications to mitigate radiation and blast effects on reconnaissance teams.[36] In the late 20th century, amphibious reconnaissance integrated more deeply with broader special operations frameworks, exemplified by the 2006 formation of the U.S. Marine Forces Special Operations Command (MARSOC), which absorbed Force Reconnaissance elements to enhance global deployment flexibility.[37] Lessons from the 1982 Falklands War underscored the value of helicopter insertion for reconnaissance, enabling quicker dispersal and reduced exposure in contested littorals, though logistical constraints highlighted needs for improved aviation support.[38] Entering the 21st century, amphibious reconnaissance adapted to asymmetric threats, particularly post-9/11 counter-terrorism missions, where units like SEALs and Marine Raiders conducted littoral surveillance to disrupt terrorist networks in regions such as the Horn of Africa. The proliferation of precision-guided munitions diminished the emphasis on traditional beach hydrographic surveys, shifting focus toward over-the-horizon targeting and real-time intelligence fusion to avoid detection.[39] Contemporary U.S. doctrine, as revised in Marine Corps Doctrinal Publication 1-0 (MCDP 1-0) Marine Corps Operations in 2011, incorporates these evolutions by emphasizing maneuver warfare in distributed operations, integrating reconnaissance with joint fires for enhanced littoral dominance. More recent updates, such as Force Design 2030 (as of the June 2023 annual update), further adapt reconnaissance to contested maritime environments through unmanned systems, long-range sensors, and expeditionary advanced base operations to support sea denial and joint force maneuver.[2]Operational Methods
Planning and Intelligence Gathering
The planning process for amphibious reconnaissance missions begins with Intelligence Preparation of the Battlespace (IPB), a systematic analysis tailored to littoral zones that evaluates terrain, hydrography, weather, and adversary dispositions to reduce operational uncertainties.[40] This involves defining the battlespace environment, including coastal features like beaches, surf zones, and tidal currents, while describing their effects on mobility, observation, and insertion methods.[41] IPB products, such as modified combined obstacle overlays incorporating tidal data, guide the identification of named areas of interest and decision points for reconnaissance tasks.[40] Mission orders follow a standardized five-paragraph format, adapted for reconnaissance with specific tasks such as beach gradient measurements, obstacle identification, and site marking for landing forces using signals like pyrotechnics or panels. The situation paragraph details enemy coastal defenses and environmental factors; the mission states clear objectives like hydrographic surveys; execution outlines schemes of maneuver, including covert approaches; administration and logistics cover sustainment for extended patrols; and command and signal specifies reporting protocols.[41] These orders emphasize mission-type directives, allowing flexibility for teams to adapt to dynamic littoral conditions while prioritizing stealth. Pre-mission intelligence draws from diverse sources, including satellite imagery for terrain mapping, unmanned aerial systems for real-time overwatch of seaward approaches, and human intelligence from special operations units like Navy SEALs for enemy disposition assessments.[42] Hydrographic charting relies on nautical surveys and tidal predictions to forecast water depths, currents, and breaker patterns, ensuring viable landing sites; for instance, charts predict tidal ranges that could expose or submerge obstacles during low or high tide.[3] Risk matrices evaluate threats using color-coded zones—green for low-risk infiltration areas, yellow for moderate enemy proximity, and red for high-contact zones—to determine team sizing, typically 2-12 personnel based on mission complexity and endurance needs in coastal environments.[41] Coordination integrates liaison officers from naval and air assets, such as the Commander, Amphibious Task Force (CATF), to synchronize ship-to-shore movement and fire support with reconnaissance timelines.[42] Contingency planning establishes abort criteria, including weather thresholds like sea states exceeding 3 (winds exceeding 17 knots) or surf heights above 3 feet, which could compromise insertion safety or covertness.[41] Debrief protocols mandate immediate post-mission reports via secure channels, fusing reconnaissance data with all-source intelligence to provide real-time updates for assault forces, often through dedicated coordination centers.[40] Unique challenges include balancing operational covertness with communication requirements, where emission control plans limit radio use to avoid detection while ensuring essential links for extraction coordination.[42] Environmental data integration addresses factors like bioluminescence in coastal waters, which can reveal night movements by causing visible wakes from swimmers or small craft, necessitating timing adjustments or alternative insertion methods during high-bioluminescence periods.[43]Insertion, Execution, and Extraction
Amphibious reconnaissance missions begin with insertion, the process of deploying teams into the operational area while prioritizing stealth to avoid detection. Common methods include surface approaches such as swimmer delivery via submarine, where teams debark from the conning tower or escape trunk, or small boat operations launched from ships or submarines using inflatable craft with a coxswain and crew of up to seven. Recent developments include the use of Multi-Mission Reconnaissance Craft (MMRC) for inserting and extracting teams in contested environments.[44] Air insertion techniques encompass helicopter hover methods like helocasting, involving jumps from low-hovering aircraft into water, or parachuting from fixed-wing platforms at altitudes of 1,000 feet or more.[3] Over-the-beach insertions may occur via surface swimming or SCUBA for short distances, often preceded by scout swimmers to secure landing sites.[45] Navigation during insertion relies on dead reckoning, compass bearings, celestial observations using stars for position fixing, or modern GPS systems when available, adjusted for currents, tides, and terrain.[46] Once inserted, execution focuses on stealthy patrolling and information gathering to assess beach conditions, defenses, and terrain without alerting the enemy. Teams typically operate in four-man units, employing formations such as the diamond configuration to maintain 360-degree security and facilitate rapid response to threats.[3] Data collection techniques involve visual and physical surveys, including sketching beach profiles, hydrographic measurements of water depths and surf conditions, and soil sampling to evaluate trafficability for landing forces.[47] Evasion protocols emphasize noise and light discipline, movement under cover of darkness or low visibility, and contingency plans for breaking contact, such as dispersing into pre-designated rally points or using natural terrain for concealment.[3] Extraction concludes the mission, retrieving teams and intelligence while minimizing risks to follow-on forces. Strategies include link-up with pickup assets like helicopters for over-water recovery or small boats for submarine rendezvous, often using surfaced or submerged approaches with buoyed lines for secure attachment.[3] Emergency signals employ infrared strobes, filtered flashlights, smoke grenades, or underwater acoustic devices to guide assets without compromising position.[3] Post-mission evasion routes are planned to circuit away from primary assault beaches, incorporating alternate exfiltration paths and deception measures to prevent enemy pursuit or interdiction.[45] Mission success hinges on undetected operations and accurate reporting, with historical doctrine stressing rigorous training cycles of up to one year to build proficiency in these phases.[3] Key factors include team physical fitness for endurance in water and land movement, as well as mitigation of environmental hazards like hypothermia in cold surf or adverse weather affecting visibility and navigation.[3]Equipment and Technology
Specialized Vehicles and Craft
Amphibious reconnaissance relies on specialized watercraft designed for stealthy, low-profile insertion of small teams into coastal and littoral zones. The Combat Rubber Raiding Craft (CRRC), a wholly inflatable boat, exemplifies this category, measuring 4.7 meters (15 feet 5 inches) in length and accommodating up to 8 personnel along with their equipment.[48] Propelled by an outboard motor, the CRRC achieves a maximum speed of about 6 knots, enabling covert transit over short distances while minimizing acoustic signatures.[49] These craft are launched from larger vessels or submarines, supporting reconnaissance teams in assessing beach defenses and hydrographic conditions prior to larger amphibious assaults.[50] Swimmer propulsion devices further enhance underwater mobility for reconnaissance divers. The Diver Propulsion Device (DPD), a compact underwater scooter, measures 87.8 inches when deployed and weighs 169 pounds in air, achieving neutral buoyancy in water for two operators.[51] Powered by a 28-volt lithium-ion battery, it offers a range of up to 3.5 nautical miles at operational depths of 50 feet seawater (certified to 115 feet), with a maximum cargo capacity of 40 pounds to maintain control and stability.[51] Employed by U.S. Marine Corps reconnaissance units, the DPD facilitates clandestine approaches to denied shorelines, reducing swimmer fatigue and extending mission reach.[51] Submersible support platforms like the Swimmer Delivery Vehicle (SDV), often referred to in operational contexts as a swimmer delivery system, provide covert underwater transport for teams. The MK 7 SDV is a free-flooding submersible capable of carrying up to six combat-equipped personnel over extended distances at speeds exceeding swimmer limits alone.[52] Launched from submarines, it enables reconnaissance teams to approach targets undetected, with battery-powered propulsion allowing transit ranges of several nautical miles while submerged.[52] On land, light amphibious vehicles support inland scouting following beach insertions. During World War II, the DUKW amphibious truck was adapted for reconnaissance patrols, enabling motorized teams to traverse from shore to inland objectives while carrying supplies and personnel. Modern equivalents include variants of the Amphibious Assault Vehicle (AAV-7), a tracked platform used by U.S. Marine Corps reconnaissance elements for beach and littoral mobility, with a water speed of 7 knots and capacity for 3 crew plus 21 combat-loaded Marines. For rapid inland movement, all-terrain motorcycles such as the electric Zero MMX are integrated into reconnaissance platoons, offering quiet, agile scouting over rough terrain with minimal logistical footprint.[53] Helicopters serve as versatile support platforms for over-water insertions. The MH-60S Knighthawk, a multi-mission naval helicopter, facilitates reconnaissance team drops via fast-rope or hover insertion techniques, supporting surveillance and infiltration from amphibious ships.[54] The evolution of these vehicles reflects a shift from manual to powered propulsion post-1950s, enhancing range and stealth. Early reconnaissance relied on oar-powered rubber boats, limiting speed and endurance, but by the 1970s, motorized inflatables like the CRRC introduced outboard engines for reliable transit in varied sea states.[55] This transition addressed maintenance challenges in austere environments, where corrosion and fuel logistics demand rigorous upkeep, yet improved operational tempo for modern missions.[48] Recent developments as of 2025 include the Advanced Reconnaissance Vehicle (ARV), a light, agile platform designed for Marine reconnaissance units to provide enhanced mobility in littoral and inland environments, with prototypes evaluated starting in 2023. Additionally, the U.S. Marine Corps has established boat-based reconnaissance companies equipped with high-speed boats to support maritime reconnaissance operations.[6]| Vehicle/Craft | Key Specifications | Primary Role in Reconnaissance |
|---|---|---|
| CRRC | 4.7 m (15 ft 5 in) length; 8 personnel; 6 knots max speed; outboard motor | Surface insertion to beaches |
| DPD | 87.8 in deployed; 2 divers + 40 lbs cargo; 3.5 nm range | Underwater swimmer propulsion |
| MK 7 SDV | Carries 6 personnel; submerged transit | Covert submersible delivery |
| AAV-7 | 7 knots water; 21 Marines capacity | Amphibious beach-to-inland mobility |
| DUKW (WWII) | 2.5-ton truck; wheeled amphibious | Early shore reconnaissance patrols |
| Zero MMX Motorcycle | Electric; off-road agile | Inland scouting post-insertion |
| MH-60S | Hover/fast-rope capable | Over-water team insertion |