Fact-checked by Grok 2 weeks ago

Helitack

Helitack is a wildfire suppression tactic that employs helicopters to transport specialized crews of firefighters, along with equipment and supplies, to remote or rugged fire locations for rapid initial attack and containment.^[1] These crews, typically consisting of 8 to 12 members trained in helicopter operations, may land directly at the site or rappel from hovering aircraft to construct firelines using hand tools and chainsaws, often carrying up to 120 pounds of gear per person over challenging terrain.^[2]^[1] The concept of helitack emerged in the mid-20th century as part of broader advancements in aerial firefighting within U.S. federal land management agencies. The first documented use of a helicopter for wildfire suppression in the United States occurred on July 12, 1946, near Fairbanks, Alaska, where a Sikorsky R-5A was employed for reconnaissance, crew transport, and cargo on a wildfire.^[3] By 1947, helicopters saw extended application on the Bryant Fire in California's Angeles National Forest, supporting transport of firefighters, cargo, and scouting efforts.^[3] The U.S. Forest Service established its first fully operational helitack crew in 1957, marking the transition from experimental to routine use of helicopters for crew deployment.^[3] Over subsequent decades, helitack operations evolved with technological and procedural innovations to enhance efficiency and safety. In 1964, the introduction of the larger Bell 204-B helicopter allowed for increased crew and cargo capacity, as demonstrated during the Coyote Fire where 19 helicopters were deployed.^[3] Rappelling techniques, first operationally used by the Forest Service in 1973 on the Garrison Butte Fire, enabled deployment in areas without suitable landing zones, though the program faced suspensions in later years due to safety concerns, such as after a 2009 accident that resulted in a fatality during training. Operations were reinstated in 2011 after implementing improved safety measures.^[3]^[4]^[5] Today, helitack crews operate under interagency standards set by the National Wildfire Coordinating Group (NWCG), supporting not only suppression but also prescribed burns, medical extractions via short-haul, and resource assessments across agencies like the U.S. Forest Service, Bureau of Land Management, and National Park Service.^[6]^[1] Helicopters involved range from Type 1 (heavy) models capable of carrying 700 gallons of water to Type 3 (light) variants suited for quick insertions, emphasizing helitack's role in containing over 95% of wildfires at small sizes through swift response.^[7]^[8]

Definition and Terminology

Core Concept of Helitack

Helitack refers to a specialized wildfire suppression strategy that employs helicopters to deliver initial attack crews directly to remote or inaccessible fire locations for rapid on-the-ground suppression. These crews, typically comprising 8 to 16 highly trained firefighters, are transported via helicopter to assess the fire, construct containment lines using hand tools and chainsaws, and directly engage the flames to achieve quick control.^[2]^[9]^[10] The primary objectives of helitack operations center on the swift containment of small wildfires—generally those under 300 acres—to prevent escalation into larger incidents that could threaten lives, property, and ecosystems. By enabling firefighters to reach fires within minutes rather than hours, helitack facilitates early intervention, often integrating with ground crews for line construction and aerial resources like water drops for enhanced suppression. This approach prioritizes direct attack tactics to limit fire spread during the critical initial phase, where most wildfires can be fully contained with minimal resources.^[1]^[11] Unlike other forms of aerial firefighting, such as airtankers that focus on large-scale drops of water or chemical retardants from fixed-wing aircraft without personnel deployment, helitack emphasizes the transportation and insertion of human firefighters for hands-on suppression and tactical decision-making on site. While airtankers provide indirect support by cooling fire perimeters, helitack crews enable precise, adaptive responses in rugged terrain where ground access is delayed.^[12]^[7] Helitack is predominantly utilized in wildfire-prone forested regions, with extensive application in North America through agencies like the U.S. Forest Service and Bureau of Land Management, where standardized crews and protocols ensure efficient deployment. In Australia, helitack supports initial attack via state-based fire services, often incorporating specialized equipment like onboard water tanks for combined crew and suppression roles. European countries, including Greece's Hellenic Fire Service, have adopted helitack for rapid response in Mediterranean landscapes, though crew sizes and tactics vary to suit local geography and resource availability.^[13]^[14]^[15]

Key Operational Terms

In helitack operations, several specialized terms describe the infrastructure and methods used for rapid aerial deployment to wildland fires. A helibase is the main location within the general incident area for parking, fueling, maintenance, and loading of helicopters; it is usually located at or near the incident base and serves as a permanent or semi-permanent facility with landing pads and support structures for refueling and crew staging.^[16]^[17] A helispot, in contrast, is a temporary landing zone established near the fireline, consisting of a natural or improved takeoff and landing area intended for occasional helicopter use and selected based on safety and accessibility criteria.^[18]^[17] The drop point refers to a designated location for deploying crews via rappelling or landing, or for aerial delivery of supplies and equipment, often in areas where terrain prevents direct helicopter landing.^[17] Other essential terms include initial attack, which denotes the first response phase involving immediate actions by arriving resources to suppress a wildfire, protect lives and property, and limit its spread.^[16]^[19] Rappel is the technique used to descend from a hovering helicopter to the ground, employing ropes and friction devices to insert trained firefighters at remote or rugged sites.^[17] Finally, a sling load involves transporting external cargo suspended beneath a helicopter via a lead line attached to the cargo hook and swivel, enabling delivery of equipment such as water buckets or supplies without landing.^[16]^[17]

Historical Development

Origins and Early Use

The inception of helitack can be traced to the post-World War II era, when the U.S. Forest Service drew inspiration from military helicopter applications observed during the conflict. In 1945, the Forest Service collaborated with the U.S. Army on joint experiments using Sikorsky R-5A helicopters for reconnaissance and initial firefighting trials on the Angeles and San Bernardino National Forests in California.^[3] These efforts built on wartime innovations in vertical flight technology, transitioning helicopters from military logistics to civilian wildfire management. By 1947, the first practical application occurred on the Bryant Fire, where two Bell 47-B helicopters were deployed for cargo transport and suppression support, demonstrating the potential for rapid aerial insertion in remote areas.^[3]^[20] A pivotal milestone came in 1956, when the term "helitack"—short for helicopter attack—was coined during a series of tests in California by the U.S. Forest Service, formalizing the concept of dedicated crews transported by helicopter for initial wildfire response. That same year, the Angeles National Forest pioneered the first "Helishot" crew, consisting of four firefighters contracted with a Bell 47-D helicopter for rapid deployment and line construction. The following year, 1957, marked the establishment of the first fully operational helitack crew at Chilao Camp on the Angeles National Forest, equipped with a Bell 47G-2 model, which became the standard for early crew transport due to its lightweight design and ability to operate in rugged terrain. These initiatives, stemming from Operation FIRESTOP demonstrations in 1954, emphasized the Bell 47 series' versatility for transporting small crews and equipment to fires detected via aerial patrols.^[21]^[3] Early helitack faced substantial hurdles that tempered its adoption. Technological constraints of the era, including piston-engine limitations on payload (often under 500 pounds) and short range (typically 100-200 miles), restricted operations to light-duty tasks. High costs posed another barrier, with 1956 standby contracts reaching $4,000 per month and hourly rates far exceeding ground-based alternatives. Skepticism among traditional ground firefighters was widespread, as many viewed helicopters as unreliable and dangerous, particularly given frequent mechanical issues and the novelty of aerial tactics. As a result, 1950s helitack primarily served reconnaissance roles—scouting fire locations and mapping perimeters—rather than direct suppression, allowing time for ground crews to mobilize while proving the method's value in inaccessible wilderness.^[3] Internationally, parallel advancements emerged to address remote fire challenges. In Canada, the Department of Lands and Forests inquired about helicopters as early as 1943 and achieved the first firefighting reconnaissance flight in June 1946 using a Bell 47, initiating similar 1950s experiments in forestry protection. Australia followed in the late 1940s, incorporating helicopters for bushfire response in remote areas, inspired by North American models to enhance access to vast, rugged landscapes.^[20]^[22]^[23]

Evolution and Modern Practices

The 1970s represented a pivotal era of expansion for helitack operations, driven by the adoption of larger, more capable helicopters that enabled rapid crew insertions and enhanced suppression efforts. The U.S. Forest Service acquired its first owned helicopter in the early 1970s, with the Bell UH-1 "Huey" (also known as the Iroquois) becoming a cornerstone for transporting crews of up to nine firefighters, facilitating rappelling from remote sites, and supporting initial attack missions.^[3] This shift was bolstered by the 1972 National Fire Plan, which increased aviation funding and contributed to deployments including over 50 helicopters on national forests like the Okanogan and Wenatchee.^[3] By 1973, helitack rappelling operations commenced in Washington and Oregon using the Bell UH-1, allowing crews to access steep terrain inaccessible by ground, and annual helicopter flight hours reached 32,197 as part of broader aviation efforts totaling 114,113 hours.^[3] In the 1980s, helitack evolved further through technological integrations that improved fire detection and operational efficiency, particularly with infrared (IR) systems mounted on helicopters for mapping and hotspot identification. Aerial IR mapping programs expanded nationally, incorporating tools like the Fire Logistics Airborne Mapping Equipment (FLAME) developed in collaboration with NASA's Jet Propulsion Laboratory, which enabled real-time heat detection through smoke.^[3] The Fire Mouse Trap system, operational by 1985 and equipped with early GPS by the late 1980s, allowed helicopters to produce precise fire perimeter maps, enhancing helitack coordination during suppression.^[3] These advancements coincided with fleet growth, including Type 3 helicopters like the Bell Long Ranger, and the reintroduction of rappelling in regions such as the Southwest in 1986, where 38 missions were completed from the Gila base.^[3] Post-2000 developments emphasized interagency coordination and advanced technologies, solidifying helitack's role in large-scale wildfire response amid intensifying fire seasons. The U.S. National Interagency Fire Center (NIFC), through initiatives like the 2009 National Interagency Aviation Strategy and the updated Interagency Helicopter Operations Guide (IHOG) in 2003, streamlined resource sharing across agencies such as the Forest Service, Bureau of Land Management, and state partners, enabling more efficient deployments.^[3] GPS became integral for navigation and mapping by the 2010s, supporting night operations formalized in the 2017 National Night Air Operations Plan, which incorporated night vision goggles for helitack crews and extended mission windows in regions like California via the 2013 NightWatch program.^[3] These enhancements contributed to annual U.S. helitack responses supporting thousands of wildfire incidents, with Forest Service aviation logging approximately 40,000 flight hours in 2020 alone, many dedicated to initial attack and support.^[24] Globally, helitack has expanded in response to climate-driven fire risks, with Europe and Asia adopting similar helicopter-based tactics integrated into regional fleets. In Europe, the EU Civil Protection Mechanism coordinates firefighting helicopters for rapid helitack deployments, as seen in Spain's INFOCA program where aircraft transport specialized crews to remote fire zones, and Union Civil Protection Mechanism teams assisted Canadian wildfires in 2023 using helicopter insertions for assessment.^[25] In Asia-Pacific regions, nations like Indonesia and those in Southeast Asia employed helicopters for transport and suppression support during the 1997-1998 fires.^[26] Recent innovations include drone (UAS) integration to augment helitack, with U.S. approvals in 2021 for infrared scouting to map fire perimeters and in 2022 for aerial ignition, allowing unmanned systems to relay real-time data to helicopter crews and reduce manned exposure risks.^[3] In Alaska, drones scouted fire lines in 2019 to identify hazards for helitack insertions, while experimental unmanned cargo delivery via UAS supports supply drops in rugged areas. From 2023 to 2025, UAS use has expanded further in prescribed burns and wildfire response, enhancing helitack efficiency during severe seasons.^[27]

Operational Procedures

Deployment and Initial Attack

Helitack crews respond to fire detections reported through dispatch centers, where initial reports from spotters, pilots, or ground observers trigger mobilization orders under the 2025 National Interagency Standards for Resource Mobilization.^[28] Upon receiving the alert, the helicopter manager or spotter coordinates with incident management, completes a Go/No-Go risk assessment to evaluate mission feasibility, and briefs the crew on objectives, hazards, weather conditions, and emergency procedures. Crew members assemble at the helibase, where they conduct personal equipment checks—including helmets, harnesses, and firefighting tools—and perform buddy inspections to ensure readiness. This mobilization process emphasizes rapid assembly to facilitate prompt departure, enabling helitack as a key initial attack resource.^[29] The transport phase begins with helicopter takeoff following confirmation of load calculations, secure cargo, and rigged equipment such as ropes for rappelling if required. En route, the pilot navigates using latitude and longitude coordinates provided by dispatch, while conducting high-level reconnaissance to locate the fire and identify potential landing or deployment sites. The spotter assists in hazard detection—such as power lines, terrain slopes, dust conditions, or turbulence—and maintains flight following with dispatch via radio check-ins. Approach to the helispot or drop point involves the pilot hovering at a safe altitude, with the spotter selecting an optimal site, preferably on a ridge top, and verifying helicopter performance capabilities like hover out-of-ground effect (HOGE) before final positioning.^[29]^[30] Upon arrival, the crew deploys via landing on a suitable helispot or rappelling from the hovering helicopter, using descenders and hand signals from the spotter to ensure orderly descent and movement to a safety zone. The initial setup includes establishing a temporary command post, where the incident commander or rappel insertion crew boss (RIC) assumes leadership and conducts a rapid fire behavior assessment, evaluating factors such as fire size, fuel types, wind direction, and potential for spread. This size-up informs immediate tactical decisions and is reported back to dispatch for resource allocation.^[29] Coordination integrates helitack operations with the Incident Command System (ICS), standard in U.S. wildland fire management, through direct liaison between the spotter, crew boss, and incident command personnel. The crew maintains communication with dispatch and ground resources via radio, providing updates on arrival, fire conditions, and needs for additional support. If the fire exceeds the scope of initial attack—such as rapid growth beyond containment within the first operational period—the helitack team hands over control to arriving ground crews or escalated resources while transitioning to support roles.^[29]^[30]

Suppression and Support Tactics

Helitack crews engage in direct suppression tactics immediately upon arrival at a wildfire, utilizing hand tools such as Pulaskis and McLeods to construct firelines by clearing vegetation and creating mineral soil barriers around the fire's perimeter. These crews often focus on initial attack by digging or scraping lines to contain small spot fires, particularly in light to moderate fuel types where they can stay "one foot in the black" to minimize exposure while building containment. Chainsaws are employed to fell hazardous trees and create access in denser fuels, allowing for rapid line construction that integrates with helicopter-delivered water or retardant drops to cool hotspots and support wetline creation using portable pumps.^[31]^[1] Indirect tactics employed by helitack crews include backburning, where controlled ignition from existing lines consumes unburned fuel ahead of the main fire front, often supported by helitorches loaded with jelled gasoline for daylight operations. In wildland-urban interfaces, crews prioritize structure protection by applying foam or water from ground pumps to defend buildings, coordinating with aerial drops to reduce fire intensity on savable assets while backfiring from control lines to create defensible space. These methods are particularly effective in high-intensity scenarios, such as during Santa Ana winds, where crews flank the fire rather than directly confronting the head.^[31]^[32] Support roles extend beyond suppression to include reconnaissance flights, where crews assess fire behavior, size, and resource needs from the air to guide ground operations and identify safe helispots for resupply. Sling loads from helicopters deliver additional personnel, tools, and supplies to remote sites, enabling sustained operations without road access, while demobilization involves coordinated extractions once containment is achieved, often after overnight spikes if fires escape initial efforts. These roles ensure logistical efficiency, with crews carrying up to 120 pounds of gear over rugged terrain to maintain momentum.^[1]^[31] Adaptations in tactics account for varied terrains and fire types; on steep slopes, crews rappel from helicopters to access inaccessible areas, constructing lines perpendicular to the slope to leverage gravity in containment. For crown fires in coniferous stands, emphasis shifts to aerial retardant drops on flanks to prevent spotting, whereas ground fires in grasslands or chaparral receive direct tool work with immediate mopup using wet sacks or foam. In swampy or tundra environments, like Alaska's tussock, crews adapt by minimizing digging and relying on water drops for cooling, ensuring tactics align with local fuel models and weather conditions.^[31]^[1]

Crew Structure and Training

Roles and Composition

Helitack crews are typically composed of 8 to 16 members, including a helitack manager, pilots, firefighters, rappelers, and support personnel such as loadmasters or medics, with variations depending on the helicopter type and mission requirements.^[33]^[9] In U.S. agencies like the U.S. Forest Service (USFS) and the California Department of Forestry and Fire Protection (CAL FIRE), crews often range from 7 to 24 individuals to support rapid initial attack, while Canadian crews tend to be smaller, usually 4 to 8 members, tailored to regional initial attack needs.^[33]^[34]^[35] The helitack manager (HMGB) oversees all crew operations, ensures safety compliance, and coordinates with incident command, serving as the primary supervisor for tactical and logistical helicopter use.^[36] Pilots are responsible for safe aircraft transport, load calculations, and external operations like water drops, while firefighters (HECM) focus on ground suppression tasks such as building firelines with hand tools and chainsaws upon deployment.^[36]^[1] Specialized rappelers descend from hovering helicopters to access remote sites, often carrying up to 120 pounds of equipment and preparing helispots for further operations.^[1]^[36] Additional roles include lead firefighters who direct small squads on fireline construction and support staff like parking tenders or deck coordinators who manage helibase logistics and aircraft movement.^[36]^[37] Crew dynamics emphasize physical fitness, with members required to hike rugged terrain while packing heavy loads, and strong teamwork to execute high-risk aerial insertions efficiently.^[1] Modern helitack crews promote diversity and inclusion, featuring increasing numbers of women who contribute as firefighters and managers, as well as Indigenous firefighters bringing traditional knowledge to operations through federal-tribal partnerships.^[38]^[39] These teams are organized within larger wildland fire agencies such as the USFS or CAL FIRE, integrating into the Incident Command System (ICS) under the Air Operations Branch for coordinated response.^[36]^[8]

Training and Qualifications

Helitack personnel must first complete foundational wildland firefighting training, including the NWCG S-130 Firefighter Training and S-190 Introduction to Wildland Fire Behavior courses, which cover basic fire behavior, suppression tactics, and safety protocols essential for all entry-level firefighters.^[40] These are supplemented by rigorous physical fitness assessments, such as the arduous-level Work Capacity Test, requiring completion of a 3-mile hike carrying a 45-pound pack within 45 minutes to ensure endurance for demanding field conditions.^[41] Specialized training for aerial operations builds on this base, emphasizing skills unique to helicopter deployment. Rappelling certification involves initial proficiency demonstrations, annual recertification through error-free exercises, and currency maintenance with at least one rappel every 14 days, including emergency procedure simulations and helicopter mockup drills.^[29] Helicopter safety training covers external load rigging via courses like A-219, focusing on load weighing, packaging, and emergency considerations during long-line and hover operations.^[42] Survival training for remote insertions includes A-312 Water Ditching and Survival, along with overland kits and cold-weather protocols to prepare crews for extended isolation in adverse environments.^[36] Ongoing requirements ensure sustained proficiency under NWCG interagency standards, with annual refreshers in aviation safety (e.g., A-100 Basic Aviation Safety every three years) and position-specific evaluations via the Helicopter Crewmember Position Task Book.^[43] Personnel must log incident experience to advance qualifications, maintaining currency through operational participation and pre-season readiness reviews.^[36] The demands of helitack roles contribute to high attrition rates among wildland firefighters, driven by intense physical and mental strains, low pay, and work-life imbalances, though permanent pay increases of up to 50% were implemented in 2025 via the Full-Year Continuing Appropriations and Extensions Act to address compensation issues.^[44]^[45] Despite these reforms, retention challenges persist, with the U.S. Forest Service aiming for 11,300 firefighters (GS-9 and below) by mid-July 2025 amid ongoing shortages and mental health concerns.^[46]^[47] Training programs are adapting to climate change impacts, incorporating heat stress modules that address acclimatization, hydration, and recovery to mitigate risks from prolonged exposure in hotter, longer fire seasons.^[48]

Equipment and Resources

Helicopters and Classifications

In the United States, helitack helicopters are classified into three primary types under the National Wildfire Coordinating Group (NWCG) Standards for Helicopter Operations, based on factors such as maximum gross weight, useful load, passenger capacity, and payload capabilities for wildland fire suppression. Type 1 helicopters represent the heaviest category, designed for large-scale operations with a maximum gross weight exceeding 12,500 pounds, at least 15 passenger seats, and a useful load of approximately 5,000 pounds at standard sea-level conditions; they can carry 700 to over 2,000 gallons of water or retardant, often using large buckets or fixed tanks, and examples include the Sikorsky S-64 Skycrane, which is capable of handling external loads up to 20,000 pounds in specialized configurations for heavy-lift tasks. Type 2 helicopters fall into the medium category, with a gross weight between 6,000 and 12,500 pounds, 9 to 14 passenger seats, and a useful load of about 2,500 pounds; they typically manage 300 to 1,000 gallons of water or retardant and are exemplified by models like the Bell 212 and Bell 412, suitable for versatile crew transport and suppression support. Type 3 helicopters are the lightest, limited to a gross weight under 6,000 pounds, 4 to 8 passenger seats, and a useful load of 1,000 to 1,200 pounds; they handle 100 to 300 gallons of water or retardant primarily for initial attack and scouting, with common examples including the Bell 206 and Bell 407, which emphasize rapid crew deployment over heavy payloads.^[49] In Canada, helitack helicopters are categorized by the Canadian Interagency Forest Fire Centre (CIFFC) into light, intermediate, medium, and heavy classes, focusing on passenger seats, external payload capacity, and operational roles in wildfire management. Light-lift helicopters accommodate 1 to 4 passengers and support external payloads up to approximately 1,500 pounds, primarily for scouting, rappelling, and small crew transport; the Bell 206 is a representative model used for these agile, short-range missions with internal capacities for 4-5 personnel and limited external loads like buckets. Intermediate-lift helicopters accommodate 5 to 8 passengers and support external payloads up to approximately 2,500 pounds, for light to medium tasks; examples include the Bell 407. Medium-lift helicopters provide 9 to 14 passenger seats and external payloads up to approximately 6,000 pounds, enabling transport of firefighters along with gear, and examples include the Bell 212. Heavy-lift models exceed 15 passengers and 25,000 pounds external payload, such as the Sikorsky S-64, but are less common in routine helitack due to their scale. Internal capacities typically prioritize personnel and light tools, while external systems like cargo hooks allow for higher payloads in suppression roles.^[50] Helicopter selection for helitack operations emphasizes performance metrics tailored to wildfire response demands, including lift capacity, range, speed, and endurance, as outlined in the Interagency Helicopter Operations Guide (IHOG). Lift capacity is prioritized to match mission needs, with Type 1 models offering up to 5,000 pounds useful load for heavy external or internal payloads, Type 2 around 2,500 pounds for balanced transport, and Type 3 limited to 1,200 pounds for quick insertions, calculated daily using hover in-ground effect (HIGE) and out-of-ground effect (HOGE) charts adjusted for density altitude and temperature. Range typically spans 100 to 200 miles, influenced by fuel capacity (e.g., 6-7 pounds per gallon for avgas or jet fuel) and mission planning to ensure efficient access to remote fires without excessive refueling. Speed requirements support cruise rates of 100 to 150 knots, often capped at 80 knots indicated airspeed (KIAS) for bucket operations on non-tandem rotors, enabling rapid deployment while adhering to 80% of maximum velocity never exceed (VNE) at operational altitudes. Endurance is generally 2 to 4 hours per sortie, based on fuel burn rates and duty limits, with standard calculations assuming 2 hours for payload assessments to maintain operational tempo during extended incidents.^[51] Maintenance and upgrades for helitack helicopters focus on enhancing safety and effectiveness in low-visibility and suppression environments, including night vision compatibility and foam systems for retardant mixing. Night vision goggle (NVG) compatibility is achieved through cockpit modifications such as filtered lighting and instrument panel upgrades to reduce glare, allowing Type 1 and 2 helicopters to conduct approved night operations for water drops and helitack crew transport under the National Night Air Operations Plan, with pilots qualified for NVG use in dual-pilot configurations. Foam systems, like injection units or onboard tanks such as the Helitak Fire Tank, enable in-flight mixing of foam concentrates with water for retardant delivery, supporting up to 95 liters of foam capacity in lighter models and improving fire suppression efficacy by creating stable foam blankets; these systems require regular power assurance checks every 10 flight hours to ensure reliability.^[52]^[53]^[54]

Tools and Personal Gear

Helitack crews rely on a compact array of specialized tools and personal gear to perform rapid initial attack on wildfires, ensuring mobility and effectiveness in remote terrains. This equipment is designed for quick deployment via helicopter, emphasizing lightweight, durable items that support fireline construction, suppression, and crew survival while adhering to strict weight constraints for safe transport. All gear must comply with interagency standards to mitigate risks from flames, heat, and rugged environments.^[36] Hand tools form the core of helitack firefighting capabilities, enabling crews to construct firelines by cutting, scraping, and clearing vegetation. The Pulaski, a versatile axe-adze combination, is used for chopping through heavy fuels and digging mineral soil barriers, while the McLeod tool, featuring a rake and hoe blade, excels at scraping duff and raking loose debris to widen lines. Fusion tools, such as shovels and modified picks, assist in blending these efforts for efficient line building. Chainsaws are essential for felling standing timber and bucking logs, typically powered by a 50:1 gasoline-oil fuel mix to maintain performance in dusty conditions; these are transported with protected chains and secured fuel to prevent hazards during flight.^[1]^[36] Personal protective equipment (PPE) prioritizes thermal resistance and mobility, meeting NFPA 1977 standards for wildland firefighting. Crews wear Nomex shirts, pants, or one-piece flight suits made from flame-resistant aramid fabric to shield against radiant heat and brief flame exposure, paired with leather gloves for hand protection during tool use and all-leather boots reaching over the ankle for traction and debris resistance. Helmets, either hardhats with chinstraps or aviator-style models, provide head coverage and often integrate communication systems. Fire shelters, lightweight aluminized tents, serve as a last-resort barrier against direct flames, deployable in entrapment scenarios. Hydration packs with 2-3 liter capacities ensure water access without hindering movement. For rappel operations, crews equip harnesses, carabiners, and descent devices certified under Interagency Standards to facilitate safe drops into inaccessible areas.^[55]^[29]^[36] Support items enhance suppression and coordination efforts. Portable pumps and lightweight hoses deliver water or foam to hotspots, while drip torches—handheld devices fueled by diesel and gasoline—ignite controlled backburns to consume unburned fuels ahead of the fire's advance. Communication radios operating on VHF-AM/FM frequencies, often with P-25 digital capability, enable real-time coordination with aerial and ground units, supplemented by GPS units for navigation in smoke-obscured or unfamiliar terrain.^[36] Logistical considerations govern gear selection due to helicopter payload limits, with gear weights calculated to ensure total loads do not exceed helicopter useful loads, such as approximately 5,000 pounds for Type 1 operations, using interagency load calculation forms. Sling-loadable supplies like Meals Ready-to-Eat (MREs) for multi-day assignments and compact medical kits with trauma supplies are transported externally when needed, allowing crews to carry only essentials internally while maintaining operational autonomy. Helicopter transport of this gear via internal cargo or slings supports rapid positioning without compromising safety.^[36]

Safety and Incidents

Risk Management Protocols

Risk management in helitack operations begins with rigorous pre-flight checks to ensure safe deployment conditions. Pilots and crew conduct comprehensive aircraft inspections using approved checklists, including verification of pilot qualifications via the Interagency Helicopter Pilot Qualification Card and load calculations accounting for temperature, altitude, fuel, crew, and cargo weights.^[49] Weather assessments are mandatory, evaluating factors such as wind speed and direction; for instance, Type 3 helicopters commonly used in helitack limit operations to winds of 30 knots or less, with a maximum gust spread of 15 knots to avoid turbulence.^[49] Site surveys, performed through aerial and ground reconnaissance, identify helispot hazards like power lines, terrain obstacles, and obstructions, ensuring clear safety circles—such as 90 feet for Type 2 helicopters—and marking risks on aviation location summaries.^[49] Buddy checks of personal equipment, including harnesses and PPE, are completed by rappellers and spotters before boarding.^[29] During operations, protocols emphasize dynamic decision-making to mitigate ongoing hazards. Go/no-go assessments employ the General Assessment of Risk (GAR) model, categorizing risks as green (low), amber (moderate), or red (high) based on supervision, planning, team selection, environment, and incident complexity; red-level risks require approval from line officers or incident commanders.^[29] Pilots hold final authority to decline missions if conditions, such as insufficient hover power or unmitigated hazards, compromise safety, supported by tools like the Hover Out of Ground Effect (HOGE) check for positive climb capability.^[49] Emergency procedures include immediate responses to in-flight issues, such as engine failure, where pilots initiate autorotation—a non-powered descent maintaining rotor RPM via airflow—to achieve a safe landing; this technique is integral to pilot training under Interagency Helicopter Pilot Practical Test Standards.^[56] Fatigue management adheres to interagency guidelines limiting assignments to 14 days, regardless of pay status, to prevent impairment, with time in staging or prepositioning counting toward this cap. Regulatory frameworks governing helitack integrate FAA aviation rules with agency-specific standards from the U.S. Forest Service (USFS) and other federal entities, such as Forest Service Manual (FSM) 5700 for aviation policy and risk oversight.^[57] The National Wildfire Coordinating Group (NWCG) Standards for Helicopter Operations (PMS 510) establish interagency protocols for exclusive-use helitack crews, including minimum staffing and equipment requirements.^[57] Central to these is the LCES system—Lookouts, Communications, Escape Routes, and Safety Zones—which ensures situational awareness and rapid egress during deployments; lookouts monitor fire behavior and aviation hazards, communications maintain crew coordination, escape routes are pre-identified to safety zones, and zones are sized to protect against radiant heat and convective threats.^[57] A five-step risk management process—identify hazards, assess risks, develop controls, implement controls, and supervise/evaluate—underpins all activities, with pilots and managers required to apply Safety Management Systems (SMS) pillars of policy, risk management, assurance, and promotion.^[57] Environmental factors pose unique challenges, addressed through proactive mitigation. Smoke inversions, which trap particulates and reduce visibility, are evaluated during weather briefings, with operations adjusted or suspended if inversions limit safe navigation below 1,000 feet ceiling and visibility (CAV).^[49] Terrain avoidance involves selecting sites with stable slopes, avoiding downdrafts on ridge lee sides, and maintaining at least 50-foot clearance above obstacles during approaches, informed by topographic maps and pilot reconnaissance.^[29] During the COVID-19 pandemic (circa 2020-2023), temporary hygiene protocols included daily symptom screening (e.g., fever over 100.4°F or cough), frequent handwashing for 20 seconds, provision of sanitizers at helibases, and aircraft decontamination between missions per CDC and FAA guidelines, limiting access to essential flight crews only.^[58] These protocols, briefly reinforced through crew training, prioritized containment of infectious risks alongside fire hazards. By 2025, such measures have been integrated into broader infectious disease management under NWCG guidelines.^[59]

Notable Accidents and Lessons

One of the most tragic incidents involving helitack crews occurred during the South Canyon Fire on July 6, 1994, in western Colorado's Storm King Mountain. A helitack crew from the Grand Junction Helitack Base was deployed for initial attack, but a combination of dry fuels, upslope winds, and a spot fire led to a catastrophic blowup that entrapped 14 firefighters total. Specifically, two helitack crewmembers, Robert Browning Jr. and Richard Tyler, perished while attempting to outrun the flames upslope along the ridge after their helicopter was grounded due to mechanical issues. The accident investigation highlighted failures in risk assessment, inadequate communication between aviation and ground resources, and underestimation of fire behavior potential in steep, exposed terrain.^[60] Aviation-specific risks were starkly demonstrated in the Guide Fire accident on July 12, 1994, in New Mexico's Gila National Forest. The Gila Helitack crew, consisting of four firefighters and a pilot aboard a Bell 206L-3 LongRanger, departed for initial attack but crashed into trees during approach to a helispot at approximately 1,500 feet above ground level. The helicopter was substantially overweight—exceeding its maximum gross weight by about 300 pounds due to unaccounted fuel and passenger loads—coupled with high density altitude conditions that reduced lift capability. The pilot, Robert Boomer, and two helitack firefighters, Sean Gutierrez and Sam M. Smith, were killed, while the other two crewmembers sustained serious injuries.^[61] The National Transportation Safety Board (NTSB) determined the probable cause as the pilot's improper in-flight decision to continue the approach despite performance limitations. The Iron 44 crash on August 5, 2008, during the Iron Complex Fire in California's Shasta-Trinity National Forest underscored systemic issues in heavy-lift helitack operations. A Sikorsky S-61N helicopter, contracted by the U.S. Forest Service and carrying 11 firefighters—including two helitack crewmembers—for relocation from a remote helispot, lifted off slowly before losing altitude, striking trees, and bursting into flames. The aircraft was overloaded by approximately 2,500 pounds beyond its calculated performance envelope, resulting from understated empty weights, overestimated engine performance data provided by the operator, Carson Helicopters, and inadequate pre-flight load calculations. Nine individuals perished, including seven firefighters from the Grayback Forestry crew, the pilot-in-command, and a U.S. Forest Service inspector pilot; four others survived with injuries. The NTSB report emphasized operator negligence in weight-and-balance procedures as the primary cause.^[62]^[63] These and other helitack incidents, such as the 2004 Tuolumne Fire burnover in California's Stanislaus National Forest where a California Department of Forestry and Fire Protection (CAL FIRE) helitack crew was overrun, killing firefighter Eva Schicke due to an unanticipated wind shift and insufficient escape routes, have profoundly shaped safety protocols.^[64] Key lessons include the critical need for rigorous adherence to the Lookouts, Communications, Escape Routes, and Safety Zones (LCES) system during initial ground attacks, as emphasized post-South Canyon to mitigate entrapment risks in dynamic fire environments. In aviation contexts, incidents like Guide Fire and Iron 44 reinforced mandatory pre-flight weight verifications, standardized performance planning tools, and enhanced oversight of contract operators, leading to updated U.S. Forest Service Interagency Standards for Helicopters and the development of improved load manifests. Additionally, broader reforms focused on integrated risk management training, real-time weather monitoring, and cross-agency communication to prevent resource mismatches, ultimately reducing helitack fatality rates through policy changes like the 1995 Federal Wildland Fire Management Policy. Since 2008, no major helitack crew fatalities have been recorded, attributable to advancements such as the 2024 Phase 2 Interim Flight and Duty Limits for managing aviation fatigue.^[65]

References

[1]
Helitack | US Forest Service
Helitack crews are teams of firefighters who are transported by helicopter to wildfires. Helicopters provide rapid transport, enabling helitack crews to ...
[2]
Wildland Fire: Types of Jobs (U.S. National Park Service)
Feb 16, 2024 · Helitack crews are wildland fire suppression firefighters specializing in helicopter operations. These firefighters are delivered to fires via ...
[3]
[PDF] A History of the USDA Forest Service Aviation Program
Aircraft contribute to the mission of fire suppression and do not, by themselves, suppress fires. Aircraft are a valuable tool for inserting and extracting ...
[4]
https://wildfiretoday.com/report-released-on-usfs-rappelling-fatality/
[5]
Helicopters | National Interagency Fire Center
Helicopters are used for firefighter transport, water application, and fire reconnaissance. Type 1 carry 700 gallons, Type 2 carry 300, and Type 3 carry 180.
[6]
Aviation Program - CAL FIRE - CA.gov
Aircraft can reach the most remote State Responsibility Area (SRA) fires in approximately 20 minutes, with the goal of keeping 95% of fires at 10 acres or less.
[7]
BLM Helitack Crews - National Interagency Fire Center
Helitack crews are made up of seven or more aerially-delivered firefighters whose primary mission is responding to new fires quickly, suppressing fires, ...Missing: definition | Show results with:definition
[8]
https://www.fire.ca.gov/what-we-do/fire-protection/aviation-program
[9]
Crews - National Interagency Fire Center
Engine crews of up to 10 people are used for initial attack, suppression of large fires, support of management-ignited fires, patrolling, and working with the ...
[10]
Helicopters | US Forest Service
When the helicopter is in position, the crew releases the water to extinguish hot spots. Helicopters also deliver firefighting crews called helitack crews to ...
[11]
#Helitack | US Forest Service - USDA
Helitack crews are teams of firefighters who are transported by helicopter to wildfires. Helicopters provide rapid transport, enabling helitack crews to ...
[12]
Factors influencing travel time and getaway time of helitack crews on ...
Of all the fire suppression phases, the initial attack (IA) is the most critical for limiting the final size of a fire (Ntaimo et al. 2013; Reimer et al. 2019).
[13]
Wildfire risk management in the era of climate change | PNAS Nexus
May 7, 2024 · In 2022, the Hellenic Fire Service also instituted helitack crews ... In 2023, Greece activated the EU Civil Protection Mechanism (the European ...
[14]
Fire Terminology - USDA Forest Service
Helitack: The use of helicopters to transport crews, equipment, and fire retardants or suppressants to the fire line during the initial stages of a fire.
[15]
[PDF] Glossary of Wildland Fire Terminology - Regulations.gov
Oct 21, 2014 · This document contains terms commonly used by NWCG in the areas of wildland fire and incident management and is not intended to list all terms ...
[16]
helispot - NWCG
Aug 17, 2025 · A natural or improved takeoff and landing area intended for temporary or occasional helicopter use. Steward.
[17]
NWCG Glossary of Wildland Fire, PMS 205 | NWCG
### Summary of Key Announcements from NWCG PMS 205
[18]
First Use of a Helicopter for Firefighting – June 26th, 1946
### Early Helicopter Use in Firefighting (1940s-1950s)
[19]
[PDF] Forest Fire Laboratory at Riverside and Fire Research in California
2). The term helitack was coined in 1956, and the helitack crew program was implemented Statewide by the early. 1960's. During the 1960's ...
[20]
How Firefighters Rappel From Helicopters To Battle Wildfires
“helicopter initial attack of wildfires” — crews came during the 1957 fire season and have been integral in ...
[21]
[PDF] Aviation Annual Report - USDA Forest Service
This report summarizes US Forest Service aviation business data to characterize annual aviation use and costs for contract and Agency-owned aircraft. Data.Missing: statistics | Show results with:statistics
[22]
[PDF] Exchange of Experts in Civil Protection INFOCA - Forest fire ...
Nov 1, 2024 · Vehicle Fleet and Fire Trucks. INFOCA's fleet of firefighting trucks is a cornerstone of its wildfire management operations, designed to.
[23]
[PDF] FAO Public Policies Fire
The large fires of 1997-1998 served to focus public and international attention on the need to address not only the emergency response but also those policies ...
[24]
None
Below is a merged summary of the Helitack Deployment Process based on the provided segments from the National Rappel Operations Guide (NROG, 2019). To retain all information in a dense and comprehensive format, I’ve organized the key stages and details into a table in CSV format, followed by a concise narrative summary. This ensures all specifics (e.g., equipment checks, hand signals, risk assessments) are captured while maintaining clarity and completeness.
[25]
https://civil-protection-knowledge-network.europa.eu/system/files/2024-11/eoe-infoca_field_report-1.1.pdf
[26]
[PDF] Wildland Fire Suppression Tactics Reference Guide
The objective is to rapidly and completely extinguish the fire with little, if any, other help. This method is usually associated with small fires, since the.
[27]
Wildland Firefighting Tactics - Fire (U.S. National Park Service)
Jan 27, 2025 · Wildfire response tactics range from aggressive suppression to actively monitoring fire behavior. Fire managers change tactics to meet the incident management ...
[28]
Types of Crews | DOI FIRES - Wildland Fire Jobs
Jun 1, 2022 · The crew can range in size from an 7 to 24 persons. Helitack crews may also be used to support prescribed fire operations or special projects ...
[29]
Initial attack crews - Province of British Columbia - Gov.bc.ca
Dec 6, 2024 · There are approximately 400 initial attack firefighters stationed throughout the province who may be relocated based on provincial needs.
[30]
Wildland Firefighter: Occupations in Alberta - ALIS
There are several different types of wildland firefighting crews in Alberta: Helitack Crew (HAC) - These are first responders to the wildfire. They are ...
[31]
[PDF] NWCG Standards for Helicopter Operations, PMS 510
The NWCG Standards for Helicopter Operations (NSHO) establishes the standards by which helicopter operations are to be conducted under the exclusive ...
[32]
Lead Forestry Technician (Helitack) (Wildland Firefighter)
Lead a highly mobile aerial delivered firefighting squad that utilizes agency contracted helicopters to rapidly attack wildfires in varied terrain and fuels.
[33]
https://www.firejobs.doi.gov/crews
[34]
[PDF] Indigenous Fire Stewardship: Federal/Tribal Partnerships for ...
This article introduces philosophical, conceptual, and operational approaches to working with American Indians through research and management partnerships in ...
[35]
https://alis.alberta.ca/occinfo/occupations-in-alberta/occupation-profiles/wildland-firefighter/
[36]
[PDF] Work Capacity Test - USDA Forest Service
A score of 45 minutes correlates with a step test score of 45 or a 1.5 mile-run time of 11 minutes 40 seconds, the previous standard for wildland firefighters.
[37]
[PDF] Standards for Rappel Operations - 2024 - USDA Forest Service
Apr 2, 2024 · The two ring and stud fittings shall be installed by the helicopter operator on the outside edge of the transmission housing, one on each one of ...
[38]
[PDF] A-219 Helicopter Transport of External Loads
Feb 5, 2014 · The sling load should be placed on the ground in the center of the loading area. 2. On approach, the signal person should advise the Pilot ...Missing: definition | Show results with:definition
[39]
Helicopter Crewmember | NWCG
### Helicopter Crewmember (HECM) Qualification Requirements Summary
[40]
Barriers to Recruitment and Retention of Federal Wildland Firefighters
Nov 17, 2022 · Recruiting and retaining federal wildland firefighters has been difficult due to factors like low pay, poor work-life balance, limited workforce diversity, and ...
[41]
[PDF] Wildland Firefighter Heat Stress - USDA Forest Service
Our data indicate that the highest metabolic demand occurred while WLFFs performed ingress hikes. On average, the estimated metabolic demand during the ingress ...
[42]
[PDF] NWCG Standards for Helicopter Operations, PMS 510 - dnr.wa.gov
The NWCG Standards for Helicopter Operations (NSHO) establishes the standards by which helicopter operations are to be conducted under the exclusive ...
[43]
[PDF] Canadian Wildland Fire Glossary - CIFFC
Apr 24, 2023 · Helicopter Classification Helicopters are divided into four categories: Light: 1 to 4 passenger seats, up to approximately 1,500 lbs.
[44]
[PDF] Interagency Helicopter Operations Guide
Feb 1, 2013 · The National Wildfire Coordinating Group (NWCG) has approved this information for the guidance of its member agencies and is not responsible for ...
[45]
[PDF] National Night Air Operations Plan 2017 - USDA Forest Service
Helitack personnel and Pilots shall participate with cooperators during night flying incident simulation drills. • Chief Officers and Forest Aviation Officers ...
[46]
Helitak Fire Tank - Helicopter Fire Fighting Equipment
Helitak manufactures custom carbon fiber helicopter firefighting tanks for effective fire suppression. Contact us for solutions today!Missing: wildfire | Show results with:wildfire
[47]
[PDF] Field Survey of Helicopter - Forest Service
HELICOPTER FOAM INJECTION SYSTEMS. The three units most widely used by survey respondents were the various systems from Chemonics Industries and the California ...
[48]
NFPA 1977, Standard on Protective Clothing and Equipment for ...
Personal protective equipment (PPE) is essential for wildland firefighters' safety and well-being as they face fire emergencies. PPE improves their safety and ...
[49]
[PDF] Interagency Helicopter Pilot Practical Test Standards 2015
The tasks in the IPTS require knowledge and skills beyond FAA certification. It is expected that applicants procure training for any desired pilot authorization ...
[50]
[PDF] Interagency Standards for Fire and Fire Aviation Operations
The Interagency Standards for Fire and Fire Aviation Operations provides fire and fire aviation program management direction for BLM, USFS, FWS, NPS, and BIA ...
[51]
[PDF] Wildland Fire Response Plan COVID-19 Pandemic
Mar 26, 2025 · Updated: 04/16/2020. • Educate and enforce cleaning and hygiene standards per CDC and local health agency guidelines. • Prepare and brief ...
[52]
South Canyon Fire Entrapment Fatalities 1994 | Wildland Fire Lessons Learned Center
No readable text found in the HTML.<|control11|><|separator|>
[53]
[PDF] Aircraft Accident Report Crash During Takeoff of Carson Helicopters ...
Aug 5, 2008 · Impact forces and a postcrash fire destroyed the helicopter, which was being operated by the U.S. Forest Service (USFS) as a public flight to ...
[54]
https://www.fs.usda.gov/eng/pubs/pdfimage/92571201.pdf
[55]
[PDF] Accident Investigation Report - CAL FIRE Butte Unit
On September 12, 2004 at approximately 1345 hours seven members of California. Department of Forestry and Fire Protection (CDF) Columbia Helitack (Copter 404).