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A dive team listens to a safety brief from their dive supervisor
Minimal professional diving team, with standby diver, supervisor and working diver entering the water

A diving team is a group of people who work together to conduct a diving operation. A characteristic of professional diving is the specification for minimum personnel for the diving support team. This typically specifies the minimum number of support team members and their appointed responsibilities in the team based on the circumstances and mode of diving, and the minimum qualifications for specified members of the diving support team. The minimum team requirements may be specified by regulation or code of practice. Some specific appointments within a professional dive team have defined competences and registration may be required.[1][2][3][4]

There is considerable difference in the diving procedures of professional divers, where a diving team with formally appointed members in specific roles and with recognised competence is required by law, and recreational diving, where in most jurisdictions the diver is not constrained by specific laws, and in many cases is not required to provide any evidence of competence. In recreational diving there may be no team at all for a solo diver, a dive buddy is the default arrangement, a three diver team is fairly common for technical diving, and a major technical dive or expedition may have a fairly complex team including surface support personnel made up to suit the requirements of the dive plan. Recreational diving instructors often use an assistant to increase the number of learners they can safely manage in the water, and dive guides may use an assistant to help keep the group together and assist the customers in an emergency.

The members of a diving team are part of a larger class of diving support personnel, which includes diving instructors, equipment maintenance technicians, operators of equipment and vessels used in support of a diving operation, and specialised medical staff.

Professional diving

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Professional divers operate as a team. The minimum composition of the team is usually specified by some combination of national, federal or state regulations, standing orders, codes of practice, and operations manual.[3][1][2]

Core diving team

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These are the personnel that are generally required to be present at a professional dive site during the diving operation.

Working diver

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Main article: Professional diving

Also referred to as 'the diver', this is the person who does the underwater work planned for the dive. There may be more than one working diver, and the working diver and bellman may alternate during a dive. Diving skills required depend on the mode of diving and equipment used, and work skills required depend on the job to be done. A working diver is by default necessary for a diving operation. Without the diver there is no diving operation.[1][2][3]

Diving supervisor

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Main article: Diving supervisor

The diving supervisor is the professional diving team member who is directly responsible for the diving operation's safety and the management of any incidents or accidents that may occur during the operation; the supervisor is required to be available at the control point of the diving operation for the diving operation's duration, and to manage the planned dive and any contingencies that may occur.[5][1][2][6]

Details of competence, requirements, qualifications, registration and formal appointment differ depending on jurisdiction and relevant codes of practice. Diving supervisors are used in commercial diving, military diving, public safety diving and scientific diving operations. A diving supervisor is required for every diving operation.[1][2][3] The supervisor must remain in the control area and be in control at all times during the diving operation. This generally implies being able to communicate with the divers and other team members.[1]

Standby diver

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See also: Surface-supplied diving § Standby diver

The diver who is at all times during the dive ready to go to the assistance of the working diver and perform a rescue to recover the diver to the surface if necessary. Diving competence requirements are identical to those of the working diver, but underwater work skills are not relevant while acting as standby diver. In surface oriented diving the standby diver may wait at the diving operation control point, and in saturation diving the bellman is the standby diver, though an additional surface standby diver may be required to assist with technical problems at shallow depths. A standby diver is required for every diving operation, though in some circumstances two working divers may act as standby to each other when working in close proximity, in an arrangement similar to the buddy system.[1][2][3]

Diver's tender

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The diver's tender, or dive attendant, is a person who may or may not be a qualified diver who assists the diver or standby diver to dress in and out, assists them entering and exiting the water, boarding the stage or wet bell, and manages the diver's umbilical at the surface where applicable. The bellman acts as the working diver's umbilical attendant from a wet or closed bell.[1][2][3]

In some circumstances, when untethered scuba is used, there may not be a requirement for a tender, and appropriate assistance may be provided by one of the other team members.[7] In other cases, where the working diver is required to enter a confined space underwater, an additional underwater tender may be needed to handle the diver's umbilical at the entrance or other place where the risk of snagging is high. In some cases the stand-by diver may do this job. In these cases the underwater tender must be a suitably equipped and qualified diver, and will generally also need a surface tender in addition to the working diver's surface tender.

Diving medical practitioner

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See also: Diving medicine § Education and registration of practitioners

A registered diving medical practitioner (DMP) competent to manage diving injuries may be required to be available on standby off-site during diving operations. The DMP should have certified skills and basic practical experience in assessment of medical fitness to dive, management of diving accidents, safety planning for professional diving operations, advanced life support, acute trauma care and general wound care.[8] Depending on jurisdiction, a DMP may be required on telephonic standby for all commercial diving operations. For mixed gas and saturation diving the DMP should be competent to manage treatment for injuries associated with that class of diving.[1]

Additional members depending on circumstances

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The use of more complex equipment or diving modes may necessitate the inclusion of additional members in the diving team. Some of these are required to be registered operators, others are only required to be competent at their allocated tasks.

Compressor operator

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For surface-supplied air diving using a low pressure compressor a competent person is needed to set up, start run and check the compressor and air delivery to the distribution panel. There may also be a high-pressure compressor for filling scuba cylinders and high pressure reserve air cylinders for divers or decompression chambers, and this too should be operated by a competent person.

Bellman

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If an open or closed bell which provides gas to the diver from a bell panel is to be used to convey the divers to the worksite, a bellman is required. The bellman is a diver who acts as standby diver and diver's attendant from the bell during the dive, and may alternate as working diver during the dive if appropriately competent for the diving task. The bellman normally stays in the bell during the dive and operates the bell gas panel, but may be required to leave the bell to go to the assistance of the working diver, recover a disabled diver to the bell and provide first aid in the bell. Diving competence requirements are identical to those of the working diver, but underwater work skills are not relevant while acting as the bellman. Diver competence for bell operations includes competence at all skills required of the bellman.[1][2][3]

Launch and recovery system operator

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A competent person responsible for operating the bell or stage lifting winch and launch and recovery system (LARS) is needed when such equipment is used. This is not a diving post.

Chamber operator

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A chamber operator is needed if there is a decompression chamber on site. The chamber operator is a person competent to operate a hyperbaric chamber with a compressed air atmosphere under the direction of a diving supervisor. This is not a diving post, but the chamber operator may also be a diver, and many surface supplied air divers are also qualified as chamber operators.[1][9] The chamber operator is competent to prepare the chamber for an operation, blow it down to depth, communicate with the occupants and the supervisor, operate the main and medical locks, provide decompression gases on the built-in breathing system, monitor and maintain the chamber atmosphere composition and pressure within the prescribed limits, manage contingencies, decompress to follow a specified surface decompression or recompression treatment schedule, and perform basic maintenance procedures, including cleaning and inspecting the components for correct function.

Gas man

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A gas man, also called gas panel operator, or rack operator, is required when gas mixtures other than air are to be provided to the diver. This person controls the gas supply to the diver and may also handle communications as a direct assistant to the supervisor. The gas man may also be a diver, but the specific activity is not a diving post.

Diving medical technician

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See also: Diving medicine § Diver Medic

A diving medical technician is necessary where the diving operation is remote from hospital facilities, such as in offshore work. A diver medic or diving medical technician (DMT) is a member of a dive team who is trained in advanced first aid.[10] A Diver Medic recognised by IMCA must be capable of administering first aid and emergency treatment, and carrying out the directions of a doctor pending the arrival of more skilled medical aid, and therefore must be able to effectively communicate with a doctor who is not on site, and be familiar with diving procedures and compression chamber operation. The Diver Medic must also be able to assist the diving supervisor with decompression procedures, provide advice as to when more specialised medical help should be requested, and must be fit to provide treatment in a hyperbaric chamber in an emergency, and must therefore hold a valid certificate of medical fitness to dive. The diver medic may also be a diver, but this is not a diving appointment. Training standards for Diver Medic are described in the IMCA Scheme for Recognition of Diver Medic Training.[11]

Systems technician

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A person competent to maintain, repair and test the function of the diving and support systems and components for which they are appointed as systems technician. A systems technician would typically be required for a team operating a saturation system, or a surface supplied diving operation with a significant amount of support equipment, or relatively complex support equipment, or where a large number of dives are planned, and on-site maintenance and repair work is likely to be needed. This is not a diving appointment, though the technician may also be a diver.[1]

Diving superintendent

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The diving superintendent is the management position covering diving operations. The superintendent is usually a qualified supervisor, but depending on the organisation, may not be required to supervise dives. The superintendent may oversee saturation and surface oriented diving operations on air or mixed gases, develop and implement dive plans and diving related company procedures and manage diving related activities to minimise health, safety and environmental risks and impacts. This is not a diving appointment and the superintendent may not be directly involved in the actual diving operations.[12]

Life-support technician

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A life support technician is a person registered as competent to operate the life-support systems of a mixed gas saturation diving system. Divers living in saturation conditions must be continuously monitored and the pressure, oxygen and carbon dioxide content of their breathing gas, and temperature and humidity of the environment must be monitored and controlled. Functions such as feeding and sewage disposal and locking stores and equipment into and out of the chambers are also controlled from outside by life support personnel. Responsibilities include communication with the divers in saturation, supervising transfer of personnel into and out of the accommodation chambers, maintaining the hyperbaric rescue craft and hyperbaric evacuation of the divers in an emergency. This is a non-diving post.[13][14]

Life-support supervisor

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The life support supervisor is a senior life support technician appointed by the diving contractor to supervise operation of the saturation life support systems. This is a non-diving post.[1]

ROV team

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Whenever a remotely operated underwater vehicle is operated at a dive site when a diving operation is taking place, competent personnel are required to run the ROV, and as the safety of the divers is affected, the ROV team is under the authority of the diving supervisor.[1] The ROV can be both a hazard because of its mass, power and moving parts, and a benefit to diver safety, as it can monitor the divers on closed circuit video, and give some kinds of assistance in contingencies. There are a range of tasks where a ROV is more suitable than a diver, and others which a diver can do better. The ROV team are not necessarily divers, though it is possible. ROV operation requires a different set of skills and knowledge to diving.

ROV pilot

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A person trained and competent to operate a remotely controlled underwater vehicle. In diving operations the pilot must be competent to safely operate the ROV with divers in the water.[1] ROV pilots are usually also trained in routine maintenance and minor repair of the ROV.

ROV supervisor

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A senior ROV pilot appointed to supervise the ROV team. The ROV supervisor is under the authority of the diving supervisor when divers are in the water, but may work autonomously when there is no diving taking place.[1]

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See also: Diving regulations, Code of practice, and List of legislation regulating underwater diving

When the minimum personnel in a diving team is regulated in terms of national or state legislation, the legal status and responsibilities of the members is generally defined in the legislation. These responsibilities often relate to occupational safety and health and specify a duty of care for the team members.[1][2]

Recreational and technical diving

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See also: Civil liability in recreational diving

In mainstream recreational diving, team diving is the exception. Support functions are carried out by operators such as dive boat charter operators, dive shops and dive schools, for their customers, on a commercial basis. Duty of care may be specifically limited by terms of use and waivers. Groups of divers may also associate in clubs and informal groups to finance or otherwise provide mutual services such as boats and filling facilities, and may dive together in informal groups. Club members may provide training and dive leadership to other club members, often on a not-for-profit cost sharing basis.

Technical divers may form teams where this is appropriate to support each other for complex or hazardous dives. This can include surface co-coordinators, equipment handlers, gas blenders, support and standby divers, and any other function that may seem useful to them. The team members are not usually contractually bound and have no duty of care beyond what they may have voluntarily assumed and that of ordinary citizens. The divers remain responsible for their own assumption of risk and are not under the direction of anyone other than themselves and the dive plan by group consensus. Technical divers may also refer to team diving where a group of three divers assume the roles of dive buddies to each other.[15]

  • Primary dive team or diver is the diver or group of divers who will take part in the main dive. For example, the diver or divers who intend to explore new territory in a cave, penetrate a wreck, or attempt a depth record.
  • Support divers may place and recover drop cylinders, meet returning divers at per-arranged depths, provide support to decompressing divers by relaying communications with the surface team, or assisting divers in the water.
  • Stand-by divers are support divers at the surface ready to go to the assistance of team members in the water when requested
  • Surface co-ordinators are team members who keep track of team activities and assist in scheduling and recording the dive and support activities.

Team redundancy

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In complex dive operations such as deep cave penetrations, technical divers will often use team redundancy to limit the amount of equipment carried. The concept is that equipment that is important to safety, but has a very low risk of failure does not have to be backed up by every member. Dive computers are team redundant when two divers each have one if they both dive the same profile on the same gases, one spare mask is considered sufficient, as they very seldom break or get lost, fin straps, cutting tools and the like may be also be considered sufficiently backed up if one spare is carried by the team. Backup gas may also be shared, as may a backup scooter. Sometimes the team members will each carry backup. Backup lights and gas are commonly carried by each member, but are available to be shared if necessary. As a general rule, once team redundancy has been exhausted and no spares are left, the dive is turned, so sometimes more spares are carried so that a single item failure does not prevent the operation from being completed. Much of the DIR philosophy is based on facilitating team redundancy. To be effective, the redundant team equipment must be available to any member of the team in time to safely mitigate the loss of function of the original item.[15]

Freediving

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Main article: Freediving

Buddy teams

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The buddy system is recommended by freediver training agencies and schools for risk management by freedivers as they are at risk of hypoxic blackout for various reasons, and a competent buddy following recommended procedures may be able to intervene successfully.[16]

The buddy system is a procedure in which two individuals, the "buddies", operate together as a team so that they are able to monitor and help each other.[17]

Appropriate training is recommended as the most effective way to develop the necessary competence, which includes both knowledge and practical experience, and understanding of personal limitations. Certification is provided as evidence that a diver has been trained and was assessed as competent within the scope of the certification. It is also necessary to be sufficiently fit for the planned dives at the time. Training in first aid with CPR is also recommended.[16]

Three-diver teams can also be effective in freediving.[citation needed]

Competition safety

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Following the deaths of two freedivers in competitions, AIDA has a system set up for monitoring and if necessary, recovering competitors who lose consciousness underwater. As of 2022 the incidence of adverse events in depth competitions varies between 3 and 4%, This rate is considered relatively low and is expected during competitions where divers push their breath-hold limits. Almost all of these divers are successfully assisted and recover completely. There is a much lower incidence of more serious injuries due to the established safety system at the competitions.[18]

Safety divers

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The safety team is usually made up of volunteers, but in major events may be paid staff. The work can be challenging as many dives are done in a day. The safety diver will descend in time to meet the competitor during their ascent, and monitor them for the rest of the ascent. They will intervene if necessary, typically by securing the airway and swimming them up to the surface. There is usually a rotating team of safety divers to ensure that they are not overtasked. Each competitor is monitored by a team of several breath hold safety divers. The first will meet the diver at somewhere around 1/3 to 1/4 of the target depth, usually with a maximum of 30m The second will meet them about 10m shallower, and a third will be on standby in case of an emergency.[18]

In case of a deeper incident, the competitor is clipped to the downline, which can be rapidly raised by the surface support team, which includes a medical support group.[18]

References

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Revisions and contributorsEdit on WikipediaRead on Wikipedia

Diving team

View on Grokipedia
from Grokipedia
A diving team is a group of divers who work together to conduct underwater operations safely, utilizing specialized equipment where applicable and adhering to protocols to mitigate risks in submerged environments. These teams operate in various contexts, from professional to recreational and freediving. In professional settings, diving teams are involved in sectors such as commercial applications like offshore construction and salvage, public safety roles in law enforcement and emergency response, scientific endeavors for marine research, and military operations for tactical underwater missions. Commercial teams often focus on infrastructure support, such as repairing pipelines or ship hulls, while public safety teams prioritize evidence recovery and victim location in incidents like drownings or accidents. The evolution of professional diving teams traces back to the 16th century with early salvage efforts, advancing significantly in the 20th century through technological innovations like scuba gear and regulatory standards established by organizations such as the Association of Diving Contractors International (ADCI). Safety is paramount across all diving teams, with operations governed by international consensus standards (such as ADCI's 6.5 Edition, 2025) that mandate minimum staffing levels, training certifications, and equipment checks to prevent hazards like or entanglement. In recreational and , teams emphasize buddy systems for mutual support, while relies on buddy dynamics for blackout prevention. Public safety teams may expand to include and forensic experts for comprehensive .

General concepts

Definition and roles

A diving team is defined as a structured group of qualified and certified personnel responsible for the planning, execution, and support of underwater operations across various disciplines, including commercial, scientific, , recreational, and , with a primary emphasis on mitigating risks such as (where applicable), entanglement, and equipment malfunctions to ensure operational efficiency and personnel safety. This coordinated effort distinguishes diving teams from solo dives by integrating specialized functions that address the unique hazards of the , where visibility, pressure, and isolation demand collective vigilance. The primary roles within a diving team encompass divers, who perform the core tasks; supervisors (or buddies in recreational contexts), who oversee operations and enforce protocols; and support staff, including tenders and life-support technicians (in professional settings), who manage equipment, monitor , and facilitate emergency responses, creating interdependent functions that prevent incidents like gas or umbilical failures through real-time communication and . For instance, supervisors coordinate with the team to ensure compliance with dive plans, while support roles provide continuous assistance to maintain diver welfare. The use of structured diving teams in commercial operations became prominent in the early with crews using for salvage and bridge construction, building on earlier salvage efforts dating back to the and evolving into modern multidisciplinary units by the mid-20th century with advancements in mixed-gas systems and offshore that necessitated formalized roles and standards. This progression was driven by incidents like the decompression accidents, leading to structured teams that incorporated medical oversight and risk assessments by the 1970s. Key principles guiding diving teams include division of labor aligned with individual expertise—such as assigning certified supervisors to lead and tenders to handle —to optimize ; established communication protocols, like two-way voice systems for constant contact; and integrated emergency response mechanisms, including standby divers and decompression chambers (as needed), to address hazards proactively. These principles, enshrined in industry codes (as of 2025), ensure that teams operate within defined limits, such as maximum work shifts and pre-dive hazard analyses, fostering a culture of across all members.

Team organization principles

Diving teams are organized according to a clear hierarchical that establishes a chain of command to ensure operational and , though the varies by (e.g., hierarchical in versus buddy pairs in recreational). At the core of this is the oversight provided by designated , who maintain authority over all diving activities, including the issuance of safety orders and coordination of personnel. Divers execute underwater tasks under this , adhering to directives and reporting any anomalies, while support personnel handle equipment maintenance, supply management, and logistical support to facilitate seamless operations. This framework, defined by the diving contractor or organizing body, promotes accountability through explicit handovers of responsibility and competency assessments for all team members. The organization of diving teams is influenced by several key factors, including the type of dive, the operational environment, and the scale of the team. For instance, complex operations like require more extensive teams and specialized equipment compared to simpler air dives, due to prolonged exposure and decompression needs, often necessitating additional life-support personnel. Environmental conditions, such as offshore operations versus inland sites, dictate adaptations in , with offshore teams accounting for vessel dynamics and variability, while inland teams focus on terrain accessibility. Team size scales accordingly, starting from minimum configurations for simple dives and expanding based on depth, complexity, and risk levels to maintain redundancy without excess. Effective communication and coordination form the operational backbone of diving teams, relying on integrated systems to enable real-time interaction. In professional surface-supplied systems, umbilicals provide essential gas delivery and serve as conduits for two-way voice communication between divers and surface personnel, with all transmissions recorded for review. Real-time monitoring allows supervisors to track diver status, depth, and environmental data, ensuring prompt responses to issues. Language proficiency and standardized signaling protocols further enhance coordination, minimizing misunderstandings in high-stakes environments. Risk assessment is integrated into the organizational principles through standardized protocols that prioritize hazard identification and . Pre-dive briefings and job safety analyses (JSAs) are conducted to evaluate potential risks, assign measures, and align members on procedures, with supervisors leading these sessions to confirm readiness. Post-dive debriefs follow each operation to review outcomes, identify , and refine future plans, fostering continuous improvement in practices. These elements collectively ensure that organizational decisions are proactive and aligned with operational integrity.

Professional diving

Core team members

In professional diving operations, the core team consists of essential personnel who ensure the safety and execution of underwater tasks. These members are required for standard operations and must adhere to industry standards set by organizations such as the International Marine Contractors Association (IMCA) and the Association of Diving Contractors International (ADCI). The working diver is the primary individual who performs the assigned underwater tasks, such as inspections, welding, or salvage operations. This role involves using equipment like SCUBA for shallow dives or surface-supplied air systems for deeper or extended work, while ensuring personal equipment functionality and reporting any hazards or medical issues to the . Working divers must hold certifications like IMCA-recognized closed bell or surface-supplied qualifications, complete task-specific , and maintain , including 625 hours of formal training, 200 field days, and 50 working dives for ADCI air diver certification. The diving supervisor oversees the entire operation, controlling all aspects from planning to execution and ensuring compliance with dive plans, risk assessments, and emergency procedures. Responsibilities include verifying personnel competence and readiness, conducting briefings, maintaining communication with the , and authorizing or terminating dives based on safety conditions. Supervisors require advanced qualifications, such as IMCA air or bell diving modules and ADCI supervisor certification, including 100 field days, 50 working dives, and experience as an assistant supervisor. The standby diver serves as an immediate backup, ready to provide rescue or assistance to the working diver in emergencies, such as entanglement or . This role demands full readiness with equivalent gear to the working diver, including a for surface-supplied modes, and the ability to enter the water rapidly within the operation's depth range. At least one standby diver is required per two working divers in surface-supplied operations, per IMCA guidelines, with the same standards as the working diver, plus training for quick deployment and umbilical management. The diver's tender provides surface support to the working and standby divers, handling tasks like gas supply management, communication via two-way systems, and umbilical tending to minimize slack and hazards. Tenders assist in emergencies, such as supporting decompression or equipment recovery, and must understand dive techniques and protocols. This position often serves as an entry-level role, requiring ADCI entry-level , CPR/ , and at least 625 hours of instruction, with one tender typically assigned per diver.

Extended team roles

In professional diving operations, particularly those involving or high-risk underwater tasks such as offshore oil and gas work, extended team roles provide essential support for specialized equipment and logistics beyond the core diving personnel. These positions ensure the reliability of life-support systems, safe deployment mechanisms, and emergency response capabilities, often required in multi-team setups for complex projects. The compressor operator maintains the air supply infrastructure by operating and servicing compressors and gas pumps, regulating pressure and flow to deliver uncontaminated to divers, and conducting periodic purity tests to meet standards like ANSI CGA Grade D or E. This role involves ensuring equipment is fueled, lubricated, and protected from , with backups in place for continuous supply during extended operations. In , the bellman supports divers from the by managing umbilicals, assisting with entry and exit procedures, and monitoring internal conditions such as gas levels and emergency equipment readiness. They act as a standby tender, providing immediate assistance in the bell environment and ensuring it serves as a safe refuge with at least 12 hours of independent post-incident. The launch and recovery system operator handles the deployment and retrieval of divers or bells using cranes, winches, or launch and recovery systems (LARS), coordinating safe operations with dual braking mechanisms and to 1.25 times the safe working load. This position maintains wire ropes and fittings to man-riding standards, ensuring secondary recovery options are available for emergencies. Chamber operators control hyperbaric chambers for decompression and treatment, managing pressurization rates (such as initial descent at 18.3 meters per minute), gas mixtures, and environmental parameters like oxygen and CO2 levels within pressure vessels for human occupancy. They perform annual leak tests, maintain cleanliness and functionality to at least 6 atmospheres absolute capacity, and document procedures for simulated or actual treatments. The gas man prepares and manages breathing gas mixtures, such as heliox blends, by overseeing cylinder filling, high-pressure storage, and daily consumption records, ensuring purity and volume compliance with tolerances like ±1% for nitrox or mixed gases. This role includes certifying gases through analysis, labeling, and hydrostatic testing every five years, while addressing contamination risks with backup supplies and changeover systems. Diving medical practitioners (or technicians) monitor the health of the dive team on-site, with expertise in hyperbaric treatment, decompression protocols, and diving-related illnesses like . Duties include conducting fitness assessments, providing immediate medical response such as oxygen administration or neurological exams, and advising on emergency procedures. They assist with on-site health monitoring by tracking diver vitals, administering oxygen, and providing or CPR for conditions like , while coordinating evacuations and maintaining monthly checks on medical kits. Practitioners must complete recognized courses like the of Divers and hold valid CPR/ certifications, remaining available throughout operations; they reference standardized condition charts to assess fitness and respond to dive-related injuries, such as those from venomous . Systems technicians calibrate and maintain , including communications, helmets, umbilicals, and life-support gear, performing annual inspections and to manufacturer specifications for operational readiness. This involves planned logs and ensuring corrosion-resistant components in hyperbaric systems. The diving superintendent provides project-level oversight for multi-team operations, coordinating planning, personnel assignments, and compliance with safety protocols, while maintaining logs and authority to initiate or halt dives in coordination with vessel masters. Life-support technicians and supervisors monitor diver through sensors for gas analysis, oxygen/CO2 levels, and environmental controls in saturation chambers or bells, ensuring physiological suitability and reporting anomalies to the diving team. They manage , backup communications, and responses to hazards like ingress, requiring field experience and for hyperbaric operations. These roles may integrate briefly with remotely operated vehicle (ROV) pilots for hybrid operations, but detailed ROV support is addressed separately.

Remotely operated vehicle support

In operations, remotely operated vehicles (ROVs) are integrated into the structure to perform subsea tasks that augment or substitute for human divers, particularly in high-risk environments. The core ROV consists of specialized personnel trained to operate and maintain these unmanned systems, ensuring seamless coordination with the broader dive . According to IMCA guidelines, this integration enhances operational efficiency while prioritizing through defined roles and communication protocols. The ROV pilot, often referred to as a pilot technician, is responsible for direct control and . This role involves manipulating joysticks and interpreting camera feeds to maneuver the ROV through underwater environments, executing tasks such as structural inspections, valve manipulations, and debris removal. Pilots must maintain equipment functionality, including and acoustic positioning systems, and complete video logs to document operations. In offshore contexts, pilots ensure precise task execution to support diving objectives, drawing on competences outlined in IMCA standards for piloting in varied conditions. Overseeing the ROV unit is the ROV , who handles mission planning, , and coordination with the diving . This position requires developing dive plans, identifying hazards like entanglement or electrical risks, and implementing mitigation measures such as umbilical length restrictions and thruster guards. The acts as a liaison, ensuring real-time communication via dedicated links between ROV personnel and divers, and maintains ultimate oversight of system readiness and compliance with safety procedures. These responsibilities align with IMCA competence frameworks emphasizing and project supervision in offshore settings. Support roles within the ROV team include tether management technicians, power supply specialists, and analysts, who enable sustained operations. Tether technicians handle umbilical deployment and to prevent snags, while power supply technicians monitor and repair electrical systems to deliver consistent to the vehicle. analysts process video feeds and data, producing reports for post-mission review and real-time decision-making. These roles support the pilot and supervisor by addressing logistical and technical needs, as detailed in IMCA guidelines for ROV and administration. ROVs integrate with human dive teams through hybrid operations, where vehicles conduct preliminary surveys or monitoring to assess conditions before divers enter the . For instance, ROVs may perform initial inspections of subsea , reducing the need for diver exposure in preliminary phases. This coordination is critical near divers, with rehearsed and backup communications to avoid hazards, as specified in IMCA protocols for combined operations. A primary advantage of ROV support is the significant reduction in human risk at hazardous depths, where pressures and visibility challenges pose threats to divers. In offshore oil and gas sectors, ROVs have enabled safer interventions, such as concrete mattress handling and pipeline inspections, minimizing diver time in deepwater environments exceeding 300 meters. These benefits are evidenced in IMCA-recommended practices, which highlight ROVs' role in mitigating entanglement and electrical hazards during subsea tasks.

Regulatory and safety aspects

Legal requirements for diving teams encompass a range of international and national regulations that ensure safety, competence, and accountability in operations. The International Marine Contractors Association (IMCA) provides the International for Offshore Diving, which outlines guidelines for offshore teams, including personnel qualifications, standards, and operational procedures, though it holds no direct legal status but is often referenced in courts where local regulations are absent. In the United States, the (OSHA) enforces 29 CFR Part 1910, Subpart T, which sets mandatory standards for across general industry, maritime, and construction sectors, covering pre-dive procedures, use, and decompression limits. Licensing mandates require diving teams to maintain certifications for personnel, with regular equipment inspections to verify compliance with safety standards. Under OSHA regulations, dive team members must undergo medical evaluations and training assessments before operations, while equipment such as breathing apparatus and umbilicals requires pre-dive checks and periodic testing to prevent failures. Incident reporting is compulsory; for instance, OSHA mandates employers to report diving-related fatalities within eight hours and serious injuries within 24 hours to ensure regulatory oversight and prevent recurrence. Liability issues place significant responsibilities on employers to provide safe working conditions and adequate protections for team members. In the US, under the Jones Act and Longshore and Harbor Workers' Compensation Act, employers must furnish a seaworthy environment and cover workers' compensation for injuries, with Maritime Employers Liability insurance often required to address claims exceeding standard coverage. Contractual obligations typically stipulate that diving contractors adhere to industry codes like IMCA's, holding them accountable for team welfare and operational risks. Regional variations highlight differing regulatory approaches, with the relying on harmonized principles rather than a single directive for . The European Diving Technology Committee (EDTC) promotes standards for and operational practices, supported by Directive 2005/36/EC for recognizing professional qualifications across member states, though individual countries enforce additional national laws. In July 2025, the EU published guidelines for to further harmonize practices. In contrast, mandates compliance with AS/NZS 2299.1:2015 for occupational diving operations, which specifies standard practices including risk assessments and emergency procedures. Regarding minimum team sizes for deep dives, US standards under ADCI require at least four personnel for SCUBA operations, while Australian regulations under AS/NZS 2299.1 stipulate standby divers and supervisors for deeper operations to ensure redundancy.

Training and certification

Training for diving team members emphasizes competency in operational safety, emergency response, and specialized equipment handling to mitigate risks in underwater environments. Core programs for commercial divers and supervisors are offered by organizations such as the Association of Diving Contractors International (ADCI) and the International Marine Contractors Association (IMCA). ADCI's Commercial Diver Certification Program requires completion of a formal certificate from an accredited commercial dive school, typically involving at least 625 hours of instruction that includes hands-on field practice in surface-supplied and mixed-gas diving techniques. IMCA provides targeted courses for diving supervisors, such as the Trainee Air Diving Supervisor program, which combines e-learning modules on diving and with simulator-based practice for panel operations and at least 100 offshore dives to build practical experience. Certification bodies vary by diving context, with recreational foundations often provided by the (PADI), which certifies basic open-water skills through structured courses focused on self-reliant diving. For professional and scientific applications, higher-level certifications come from bodies like the (NOAA), whose Diving Program delivers advanced training in working techniques, scientific diving, and hyperbaric , ensuring divers meet standards for and operations. ADCI and IMCA also issue professional certifications for supervisors and technicians, verifying experience through logged dives and examinations. Specialized addresses niche roles within diving teams, particularly in and technological support. for practitioners is governed by the Undersea and Hyperbaric Medical Society (UHMS), offering introductory courses with 40 hours of instruction on decompression sickness treatment, chamber operations, and hands-on simulations, leading to by the National Board of Diving and Hyperbaric Medical Technology (NBDHMT). For remotely operated (ROV) support, IMCA-approved piloting courses include Grade 2 with modules on electronics, , and simulator missions simulating subsea tasks, while the Diver Board of (DCBC) categorizes ROV personnel into levels starting with entry-level pilot/technician roles requiring practical competency assessments. Ongoing requirements ensure sustained proficiency, with recertification typically mandated every 1-2 years depending on the certifying body. ADCI certifications for supervisors require current CPR and credentials, while broader commercial standards stipulate a refresher course if inactive, including care demonstrations. Participation in drills is standard, with annual recertification training incorporating practical simulations for scenarios, and refreshers recommended after 12 months of inactivity to cover procedures and handling.

Recreational and technical diving

Team structure

In recreational diving, teams typically consist of small groups organized around buddy pairs, with a divemaster providing leadership and oversight for open-water dives. The divemaster conducts site briefings, ensures group cohesion, and monitors diver safety, while buddies maintain constant visual contact and mutual assistance throughout the dive. For boat-based operations, a boat captain manages surface logistics, including navigation, equipment handling, and emergency coordination, supporting up to 8-12 divers per trip depending on vessel capacity. Technical diving teams are generally larger to accommodate the complexities of decompression or environments, often comprising 3-6 members who share planning and execution responsibilities. Key roles include gas planners, who calculate oxygen, , and mixtures for optimal decompression profiles, and safety divers, who position themselves in shallower zones to stage emergency gases and assist with ascents if needed. emphasize synchronized movements, such as maintaining formation during penetration or coordinating gas switches, with all members trained in standardized protocols to enhance reliability. Unlike professional diving teams with formal hierarchies like dedicated supervisors, recreational and technical setups prioritize , where divers assume multiple roles and foster peer . Recreational groups may incorporate specialized participants, such as photographers or videographers, to document without disrupting core functions. Equipment management remains a personal responsibility, with divers handling their own gear assembly, maintenance, and backups, contrasting the institutional support typical in commercial operations.

Safety redundancy measures

In recreational and technical diving, safety redundancy measures emphasize multiple layers of backup to mitigate risks in non-professional settings, where immediate professional support may not be available. Key concepts include carrying multiple gas sources, such as pony bottles or stage cylinders in technical dives, to provide an independent emergency air supply independent of the primary tank, allowing divers to reach the surface safely even if the main system fails. Buddy checks, often following the BWRAF acronym (Buoyancy compensator, Weights, Releases, Air, Final okay), ensure equipment functionality and gas levels before entry, reducing the likelihood of overlooked issues like regulator malfunctions. Surface interval monitoring is equally critical, with divers tracking time between dives to offload inert gases like nitrogen, preventing decompression sickness; guidelines recommend at least 10-15 minutes minimum but often longer based on dive profiles to account for repetitive exposure. Within teams, redundancy extends to defined roles that enhance collective safety, particularly in technical wreck dives where penetration increases hazards like entanglement or silting. Support or safety divers, positioned shallower than the primary team, act as backups to assist with gas sharing or line management during emergencies, ensuring no single failure compromises the group. Emergency ascent plans are integral, involving protocols like controlled emergency swimming ascents (CESA) or buddy breathing from redundant regulators, practiced to maintain a safe ascent rate of 9-18 meters per minute while signaling the surface. Incident data underscores redundancy's impact on survival. A 2008 Divers Alert Network (DAN) analysis of 947 recreational scuba fatalities from 1992 to 2003 found that 57% of divers who began with a buddy were separated at the time of death, often due to poor communication or visibility, emphasizing how effective buddy systems and gas redundancy could prevent escalation of out-of-air events, which triggered 41% of cases. The DAN 2020 Annual Diving Report on 2018 diving incidents describes cases involving redundant air or buddy intervention in emergencies, such as shared air in low-visibility conditions, with outcomes varying from survival to fatality. More recent regional data, such as the British Sub-Aqua Club's 2023 report documenting 9 diving fatalities (many involving separation or solo dives), highlights the continued relevance of these measures as of 2024. Best practices reinforce these measures through structured routines tailored to recreational risks like unpredictable currents. Pre-dive checklists, including environmental assessments for current strength and entry/exit points, verify team readiness and backups. Post-dive reviews encourage teams to debrief experiences, discussing factors like current drift that may have affected navigation or gas consumption, allowing adjustments for future dives to build procedural resilience. Recent developments as of 2025 include the increasing use of personal locator beacons and features for real-time buddy tracking to further mitigate separation risks.

Freediving

Buddy team dynamics

In freediving, the is defined as a paired where one individual serves as the surface watch, remaining on the surface to monitor the freediver's descent, ascent, and recovery, while employing —such as "" (circle with and ) or "up" ( pointed upward)—and continuous visual checks to communicate and assess the diver's status. This protocol ensures that the watching buddy maintains a clear , tracks dive timing, and is prepared to intervene without relying on scuba equipment or other apparatus. The system is fundamental to recreational and sessions, promoting mutual in an environment where self-sufficiency is limited by physiological constraints. The dynamics of the buddy team extend beyond mere observation, fostering psychological support through verbal encouragement during breath-hold preparations and post-dive recovery, which helps mitigate anxiety and enhances focus on relaxation techniques essential for deeper dives. Buddies also synchronize breath-hold timing by starting a on the diver's submersion and signaling the end of the dive to prevent overextension, while mastering rescue techniques like the surface drag—where the buddy grasps the unconscious diver under the arms and pulls them horizontally to shore or a boat to maintain an open airway and expedite oxygenation. These interactions build trust and efficiency, allowing each partner to alternate roles equitably during a session. Training programs from organizations like and SSI emphasize buddy protocols as a core component, with courses such as AIDA 2 Open Water Freediver and SSI Freediver instructing participants on surface monitoring, signal interpretation, and responses through practical drills in controlled environments. These curricula stress the importance of matching buddy experience levels to ensure effective support, reinforcing that improper buddying can exacerbate risks rather than alleviate them. The directly addresses key risks in , including shallow-water blackouts—caused by hypoxia where oxygen levels drop critically near the surface—and , such as lung squeeze from unequalized pressure at depths beyond 30 meters. In training incidents, blackouts have occurred when divers inadvertently push personal limits during repeated dives, but vigilant buddies have intervened by closing the airway and performing rapid ascents, preventing as documented in safety reports. Similarly, for like ear or sinus squeezes, the surface watch can abort dives via signals if equalization fails are observed, averting injury progression observed in early training mishaps. This paired monitoring has significantly reduced incident severity in non-competitive settings. This approach parallels recreational scuba buddy systems in its emphasis on mutual oversight but adapts to freediving's breath-hold nature by prioritizing surface-based vigilance over shared descent.

Competition safety protocols

In freediving competitions governed by organizations like , safety protocols are rigorously enforced to mitigate risks such as loss of consciousness (LOC) and pulmonary , with incident rates dropping to 3.43% overall from 2019–2023 compared to higher levels in earlier decades. These measures emphasize multi-layered support, scaling beyond basic buddy systems to include specialized personnel and . Safety divers play a critical role in underwater monitoring, positioned at depth-specific intervals to enable rapid blackout retrieval. In depth disciplines, a minimum of four safety divers per competition line—ideally eight—are deployed, with primary and secondary divers stationed at the athlete's target depth (e.g., 10–15 meters for shallower placements) at 45-degree angles to maintain visual contact and intervene if needed. They verify depth accuracy verbally using gauges, remove lanyards during retrieval, and employ techniques like the "blow, tap, talk" method to restore breathing within 10 seconds, often assisted by a Freediver Retrieval System such as counterbalance lines for ascents at 1.5 m/s. Rotation schedules ensure divers rest between shifts to prevent fatigue. The surface team coordinates oversight from above water, comprising judges for performance validation, timers for tracking dive durations, and spotters who signal potential issues. Rescue boats are positioned nearby, equipped with oxygen kits, first aid supplies, and spine boards for immediate evacuation, while line coordinators adjust ropes and activate retrieval mechanisms if an athlete remains motionless for over 10 seconds. Sonar technicians monitor progress by calling depths every 10 meters from 30 meters downward. Key protocols include supervised warm-up dives, limited to one safety freediver per six competitors to assess readiness without full breath-holds unless assisted. Medical standby is mandatory, featuring at least two certified personnel (one as an EMT or equivalent with CPR and oxygen provider training) for on-site response, alongside pre-event briefings, emergency plans, and notifications to hyperbaric chambers for deep events. Disqualification rules strictly prohibit solo attempts, requiring all dives to occur under designated safety supervision; any unauthorized assistance or lack of team support results in invalidation, as seen in penalties for rope manipulations beyond a single turn hold. These standards were refined post-2010s following fatalities, incorporating standardized training like the AIDA Competition Safety Freediver course introduced in 2023 to unify protocols globally, with expansions in 2024 to multi-tiered training for pool and depth safety up to 30 meters. Subsequent AIDA Rule Updates version 17.7, effective January 2025, introduced further safety refinements, such as mandatory quick-release systems for weights in depth competitions and decimal precision for blackout recovery times. In May 2025, AIDA updated medical clearance protocols for courses and competitions in collaboration with the Undersea and Hyperbaric Medical Society (UHMS). At events like the AIDA World Championships, such as the 2017 edition in Roatan, safety setups featured pre-competition team training for a week, wind-sheltered dive sites, and integrated counterbalance systems to enhance retrieval efficiency. Similar arrangements at the 2022 South African National Championships supported over 100 participants without major incidents, underscoring the protocols' effectiveness through rotating safety teams and on-site medical rehearsals.

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