Portal:Underwater diving
Portal maintenance status: (June 2018)
automated editing software, and seek consensus before making major changes. Learn how to update the maintenance information here . |
Underwater diving
The scope of this portal includes the technology supporting diving activities, the physiological and medical aspects of diving, the skills and procedures of diving and the training and registration of divers, underwater activities which are to some degree dependent on diving, economical, commercial, safety, and legal aspects of diving, biographical information on notable divers, inventors and manufacturers of diving related equipment and researchers into aspects of diving.
Underwater diving, as a human activity, is the practice of descending below the water's surface to interact with the environment. It is also often referred to as diving, an ambiguous term with several possible meanings, depending on context. Immersion in water and exposure to high ambient pressure have physiological effects that limit the depths and duration possible in ambient pressure diving. Humans are not physiologically and anatomically well-adapted to the environmental conditions of diving, and various equipment has been developed to extend the depth and duration of human dives, and allow different types of work to be done.
In ambient pressure diving, the diver is directly exposed to the pressure of the surrounding water. The ambient pressure diver may dive on breath-hold (
The environment exposes the diver to a wide range of hazards, and though the risks are largely controlled by appropriate diving skills, training, types of equipment and breathing gases used depending on the mode, depth and purpose of diving, it remains a relatively dangerous activity. Professional diving is usually regulated by occupational health and safety legislation, while recreational diving may be entirely unregulated. Diving activities are restricted to maximum depths of about 40 metres (130 ft) for recreational scuba diving, 530 metres (1,740 ft) for commercial saturation diving, and 610 metres (2,000 ft) wearing atmospheric suits. Diving is also restricted to conditions which are not excessively hazardous, though the level of risk acceptable can vary, and fatal incidents may occur.
- There are several ways to find content on Wikipedia.
If you have a useful search string, a Google Search is quite effective.
Wikipedia search will take you directly to the article if you know the exact name or if Wikipedia has a redirect to the article. It will also suggest other articles in Wikipedia which may be relevant to your search criteria.
The
navigation boxat the bottom of pages which are relevant to the project provides links to the articles listed. (Not currently available on mobile).If you want a list of articles in the project that you can browse through, looking for inspiration or a recognisable article title, then there are several other routes:
- Outline of underwater diving is a hierarchical list of all the articles, but may not always be up to date.
- Index of underwater diving is an alphabetical list of the articles, (also not always up to date). It has sub-indexes for some of the associated groups of articles, such as:
- The Glossary of underwater diving terminology is an alphabetical list of terms commonly used in diving and their meanings in this context. A useful quick reference. A definition will often contain a link to a detailed main article, or a section of an article on the term. If you can't find a term and are reasonably sure it is a diving term in general use in English, leave a note on the talk page.
Category:Underwater diving and the associated subcategories should also list all the articles, probably in a different hierarchical structure to that used for the navbox and outline list. Sometimes the category system can be more appropriate for finding information. It is also helpful for maintenance of Wikipedia and keeping track of the connectedness of articles.
If you have unlimited time and no special target, you can go down the rabbit-hole – Read the topic root article Underwater diving, and click on any link that looks interesting. Read until you find another interesting link and click on that, otherwise click your browser arrow to go back, and carry on. Stop when reality intrudes or you get bored, tired, thirsty or a fire breaks out.
None of these systems is perfect or complete. If you find an error or omission let us know, or fix it if you know how. This is a crowdsourced project – you can be one of the crowd.
Diving modes
-
Image 1
-
Image 2
-
Image 3
-
Image 4
-
Image 5
-
Image 6
-
Image 7
-
Image 8
-
Image 9
-
Image 10
-
Image 11
-
Image 12
-
Image 13
Diving and support equipment
-
Image 1Image 2Image 3
In cave (and occasionally wreck) diving, line markers are used for orientation as a visual and tactile reference on a permanent guideline. Directional markers (commonly a notched acute isosceles triangle in basic outline), are also known as line arrows or Dorff arrows, and point the way to an exit. Line arrows may mark the location of a "jump" location in a cave when two are placed adjacent to each other. Two adjacent arrows facing away from each other, mark a point in the cave where the diver is equidistant from two exits. Arrow direction can be identified by feel in low visibility.
Non-directional markers ("cookies") are purely personal markers that mark specific spots, or the direction of one's chosen exit at line intersections where there are options. Their shape does not provide a tactile indication of direction as this could cause confusion in low visibility. One important reason to be adequately trained before cave diving is that incorrect marking can confuse and fatally endanger not only oneself, but also other divers. (Full article...)Image 4Image 5Image 6Image 7
Trimix is a breathing gas consisting of oxygen, helium and nitrogen and is used in deep commercial diving, during the deep phase of dives carried out using technical diving techniques, and in advanced recreational diving.
The helium is included as a substitute for some of the nitrogen, to reduce the narcotic effect of the breathing gas at depth. With a mixture of three gases it is possible to create mixes suitable for different depths or purposes by adjusting the proportions of each gas. Oxygen content can be optimised for the depth to limit the risk of toxicity, and the inert component balanced between nitrogen (which is cheap but narcotic) and helium (which is not narcotic and reduces work of breathing, but is more expensive and increases heat loss).
The mixture of helium and oxygen with a 0% nitrogen content is generally known as heliox. This is frequently used as a breathing gas in deep commercial diving operations, where it is often recycled to save the expensive helium component. Analysis of two-component gases is much simpler than three-component gases. (Full article...)Image 8Image 9Image 10Image 11
A diving suit is a garment or device designed to protect a diver from the underwater environment. A diving suit may also incorporate a breathing gas supply (such as for a standard diving dress or atmospheric diving suit), but in most cases the term applies only to the environmental protective covering worn by the diver. The breathing gas supply is usually referred to separately. There is no generic term for the combination of suit and breathing apparatus alone. It is generally referred to as diving equipment or dive gear along with any other equipment necessary for the dive.
Diving suits can be divided into two classes: "soft" or ambient pressure diving suits – examples are wetsuits, dry suits, semi-dry suits and dive skins – and "hard" or atmospheric pressure diving suits, armored suits that keep the diver at atmospheric pressure at any depth within the operating range of the suit. (Full article...)Image 12
Diving equipment, or underwater diving equipment, is equipment used by underwater divers to make diving activities possible, easier, safer and/or more comfortable. This may be equipment primarily intended for this purpose, or equipment intended for other purposes which is found to be suitable for diving use.
The fundamental item of diving equipment used by divers other than freedivers, is underwater breathing apparatus, such as scuba equipment, and surface-supplied diving equipment, but there are other important items of equipment that make diving safer, more convenient or more efficient. Diving equipment used by recreational scuba divers, also known as scuba gear, is mostly personal equipment carried by the diver, but professional divers, particularly when operating in the surface supplied or saturation mode, use a large amount of support equipment not carried by the diver.
Equipment which is used for underwater work or other activities which is not directly related to the activity of diving, or which has not been designed or modified specifically for underwater use by divers is not considered to be diving equipment. (Full article...)Image 13Image 14Image 15Diving procedures
-
Image 1
-
Image 2
-
Image 3
-
Image 4
-
Image 5
Ice diving is a type of penetration diving where the dive takes place under ice. Because diving under ice places the diver in an overhead environment typically with only a single entry/exit point, it requires special procedures and equipment. Ice diving is done for purposes of recreation, scientific research, public safety (usually search and rescue/recovery) and other professional or commercial reasons.
The most obvious hazards of ice diving are getting lost under the ice, hypothermia, and regulator failure due to freezing. Scuba divers are generally tethered for safety. This means that the diver wears a harness to which a line is secured, and the other end of the line is secured above the surface and monitored by an attendant. Surface supplied equipment inherently provides a tether, and reduces the risks of regulator first stage freezing as the first stage can be managed by the surface team, and the breathing gas supply is less limited. For the surface support team, the hazards include freezing temperatures and falling through thin ice. (Full article...) -
Image 6
-
Image 7
-
Image 8
Dive planning is the process of planning an underwater diving operation. The purpose of dive planning is to increase the probability that a dive will be completed safely and the goals achieved. Some form of planning is done for most underwater dives, but the complexity and detail considered may vary enormously.
Professional diving operations are usually formally planned and the plan documented as a legal record that due diligence has been done for health and safety purposes. Recreational dive planning may be less formal, but for complex technical dives, can be as formal, detailed and extensive as most professional dive plans. A professional diving contractor will be constrained by the code of practice, standing orders or regulatory legislation covering a project or specific operations within a project, and is responsible for ensuring that the scope of work to be done is within the scope of the rules relevant to that work. A recreational (including technical) diver or dive group is generally less constrained, but nevertheless is almost always restricted by some legislation, and often also the rules of the organisations to which the divers are affiliated.
The planning of a diving operation may be simple or complex. In some cases the processes may have to be repeated several times before a satisfactory plan is achieved, and even then the plan may have to be modified on site to suit changed circumstances. The final product of the planning process may be formally documented or, in the case of recreational divers, an agreement on how the dive will be conducted. A diving project may consist of a number of related diving operations.
A documented dive plan may contain elements from the following list:- Overview of Diving Activities
- Schedule of Diving Operations
- Specific Dive Plan Information
- Budget
-
Image 9
-
Image 10
Diver communications are the methods used by divers to communicate with each other or with surface members of the dive team. In professional diving, diver communication is usually between a single working diver and the diving supervisor at the surface control point. This is considered important both for managing the diving work, and as a safety measure for monitoring the condition of the diver. The traditional method of communication was by line signals, but this has been superseded by voice communication, and line signals are now used in emergencies when voice communications have failed. Surface supplied divers often carry a closed circuit video camera on the helmet which allows the surface team to see what the diver is doing and to be involved in inspection tasks. This can also be used to transmit hand signals to the surface if voice communications fails. Underwater slates may be used to write text messages which can be shown to other divers, and there are some dive computers which allow a limited number of pre-programmed text messages to be sent through-water to other divers or surface personnel with compatible equipment.
Communication between divers and between surface personnel and divers is imperfect at best, and non-existent at worst, as a consequence of the physical characteristics of water. This prevents divers from performing at their full potential. Voice communication is the most generally useful format underwater, as visual forms are more affected by visibility, and written communication and signing are relatively slow and restricted by diving equipment.
Recreational divers do not usually have access to voice communication equipment, and it does not generally work with a standard scuba demand valve mouthpiece, so they use other signals. Hand signals are generally used when visibility allows, and there are a range of commonly used signals, with some variations. These signals are often also used by professional divers to communicate with other divers. There is also a range of other special purpose non-verbal signals, mostly used for safety and emergency communications. (Full article...) -
Image 11
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. 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.
The control point is the place where the supervisor can best monitor the status of the diver and progress of the dive. For scuba dives this is commonly on deck of the dive boat where there is a good view of the surface above the operational area, or on the shore at a nearby point where the divers can be seen when surfaced. For surface supplied diving, the view of the water is usually still necessary, and a view of the line tenders handling the umbilicals is also required, unless there is live video feed from the divers and two-way audio communications with the tenders. The control position also includes the gas panel and communications panel, so the supervisor can remain as fully informed as practicable of the status of the divers and their life support systems during the dive. For bell diving and saturation diving the situation is more complex and the control position may well be inside a compartment where the communications, control and monitoring equipment for the bell and life-support systems are set up.
In recreational diving the term is used to refer to persons managing a recreational dive, with certification such as Divemaster,
Dive Control Specialist, Dive Coordinator, etc. (Full article...) -
Image 12
-
Image 13paralysed, unconscious, or stop breathing while underwater. Any one of these events is likely to result in the diver drowning or asphyxiating or suffering further injury during a subsequent rescue to the surface. This risk can be reduced by improving airway security by using surface supplied gas and a helmet or full-face mask. Risk of injury during emergency surfacing is minimised by treatment on 100% oxygen, which is also the only gas with a reliable record of positive outcomes. Early recompression on oxygen has a high rate of complete resolution of symptoms, even for shallower and shorter treatment than the highly successful US Navy Treatment Table 6.)
Several schedules have been published for in-water recompression treatment, but little data on their efficacy is available. The Australian Navy tables and US Navy Tables may have the largest amount of empirical evidence supporting their efficacy. (Full article... -
Image 14hose in the regulator or, in cold conditions, a freezing of water in the regulator resulting in a free flow from the demand valve. (Full article...)
-
Image 15
Scuba gas planning is the aspect of dive planning and of gas management which deals with the calculation or estimation of the amounts and mixtures of gases to be used for a planned dive. It may assume that the dive profile, including decompression, is known, but the process may be iterative, involving changes to the dive profile as a consequence of the gas requirement calculation, or changes to the gas mixtures chosen. Use of calculated reserves based on planned dive profile and estimated gas consumption rates rather than an arbitrary pressure is sometimes referred to as rock bottom gas management. The purpose of gas planning is to ensure that for all reasonably foreseeable contingencies, the divers of a team have sufficient breathing gas to safely return to a place where more breathing gas is available. In almost all cases this will be the surface.
Gas planning includes the following aspects:- Choice of breathing gases
- Choice of scuba configuration
- Estimation of gas required for the planned dive, including bottom gas, travel gas, and decompression gases, as appropriate to the profile.
- Estimation of gas quantities for reasonably foreseeable contingencies. Under stress it is likely that a diver will increase breathing rate and decrease swimming speed. Both of these lead to a higher gas consumption during an emergency exit or ascent.
- Choice of cylinders to carry the required gases. Each cylinder volume and working pressure must be sufficient to contain the required quantity of gas.
- Calculation of the pressures for each of the gases in each of the cylinders to provide the required quantities.
- Specifying the critical pressures of relevant gas mixtures for appropriate stages (waypoints) of the planned dive profile (gas matching).
Gas planning is one of the stages of scuba gas management. The other stages include:- Knowledge of personal and team members' gas consumption rates under varying conditions
- basic consumption at the surface for variations in workload
- variation in consumption due to depth variation
- variation in consumption due to dive conditions and personal physical and mental condition
- Monitoring the contents of the cylinders during a dive
- Awareness of the critical pressures and using them to manage the dive
- Efficient use of the available gas during the planned dive and during an emergency
- Limiting the risk of equipment malfunctions that could cause a loss of breathing gas
The term "rock bottom gas planning" is used for the method of gas planning based on a planned dive profile where a reasonably accurate estimate of the depths, times, and level of activity is available, so the calculations for gas mixtures and the appropriate quantities of each mixture are known well enough to make fairly rigorous calculations useful. Simpler, easier, and fairly arbitrary rules of thumb are commonly used for dives which do not require long decompression stops. These methods are often adequate for low risk dives, but relying on them for more complex dive plans can put divers at significantly greater risk if they are unaware of the limitations of each method and apply them inappropriately. (Full article...)
Science of diving
-
Image 1breath is available for the exchange of oxygen and carbon dioxide. Mammals breathe in and out of their lungs, wasting that part of the inhalation which remains in the conducting airways where no gas exchange can occur. (Full article...)
-
Image 2
-
Image 3
The diving reflex, also known as the diving response and mammalian diving reflex, is a set of physiological responses to immersion that overrides the basic homeostatic reflexes, and is found in all air-breathing vertebrates studied to date. It optimizes respiration by preferentially distributing oxygen stores to the heart and brain, enabling submersion for an extended time.
The diving reflex is exhibited strongly in aquatic mammals, such as seals, otters, dolphins, and muskrats, and exists as a lesser response in other animals, including human babies up to 6 months old (see infant swimming), and diving birds, such as ducks and penguins. Adult humans generally exhibit a mild response, the dive-hunting Sama-Bajau people being a notable outlier.
The diving reflex is triggered specifically by chilling and wetting the nostrils and face while breath-holding, and is sustained via neural processing originating in the carotid chemoreceptors. The most noticeable effects are on the cardiovascular system, which displays peripheral vasoconstriction, slowed heart rate, redirection of blood to the vital organs to conserve oxygen, release of red blood cells stored in the spleen, and, in humans, heart rhythm irregularities. Although aquatic animals have evolved profound physiological adaptations to conserve oxygen during submersion, the apnea and its duration, bradycardia, vasoconstriction, and redistribution of cardiac output occur also in terrestrial animals as a neural response, but the effects are more profound in natural divers. (Full article...) -
Image 4
-
Image 5
-
Image 6TheFull article...)
-
Image 7
Decompression theory is the study and modelling of the transfer of the inert gas component of breathing gases from the gas in the lungs to the tissues and back during exposure to variations in ambient pressure. In the case of underwater diving and compressed air work, this mostly involves ambient pressures greater than the local surface pressure, but astronauts, high altitude mountaineers, and travellers in aircraft which are not pressurised to sea level pressure, are generally exposed to ambient pressures less than standard sea level atmospheric pressure. In all cases, the symptoms caused by decompression occur during or within a relatively short period of hours, or occasionally days, after a significant pressure reduction.
The term "decompression" derives from the reduction in ambient pressure experienced by the organism and refers to both the reduction in pressure and the process of allowing dissolved inert gases to be eliminated from the tissues during and after this reduction in pressure. The uptake of gas by the tissues is in the dissolved state, and elimination also requires the gas to be dissolved, however a sufficient reduction in ambient pressure may cause bubble formation in the tissues, which can lead to tissue damage and the symptoms known as decompression sickness, and also delays the elimination of the gas.
Decompression modeling attempts to explain and predict the mechanism of gas elimination and bubble formation within the organism during and after changes in ambient pressure, and provides mathematical models which attempt to predict acceptably low risk and reasonably practicable procedures for decompression in the field. Both deterministic and probabilistic models have been used, and are still in use.
Efficient decompression requires the diver to ascend fast enough to establish as high a decompression gradient, in as many tissues, as safely possible, without provoking the development of symptomatic bubbles. This is facilitated by the highest acceptably safe oxygen partial pressure in the breathing gas, and avoiding gas changes that could cause counterdiffusion bubble formation or growth. The development of schedules that are both safe and efficient has been complicated by the large number of variables and uncertainties, including personal variation in response under varying environmental conditions and workload. (Full article...) -
Image 8Image 9Inmetastable state; it may return to equilibrium by separation of the excess of solute from the solution, by dilution of the solution by adding solvent, or by increasing the solubility of the solute in the solvent. (Full article...)Image 10Image 11Image 12Image 13InFull article...)Image 14exhale a breathing gas. It is usually expressed as work per unit volume, for example, joules/litre, or as a work rate (power), such as joules/min or equivalent units, as it is not particularly useful without a reference to volume or time. It can be calculated in terms of the pulmonary pressure multiplied by the change in pulmonary volume, or in terms of the oxygen consumption attributable to breathing.)
In a normal resting state the work of breathing constitutes about 5% of the total body oxygen consumption. It can increase considerably due to illness or constraints on gas flow imposed by breathing apparatus, ambient pressure, or breathing gas composition. (Full article...Image 15Occupational diving
-
Image 1
-
Image 2
-
Image 3
-
Image 4
-
Image 5
-
Image 6
-
Image 7
-
Image 8Underwater demolition is the deliberate destruction or neutralization of man-made or natural underwater obstacles, both for military and civilian purposes. (Full article...)
-
Image 9
-
Image 10ADive Leader.)
The BSAC recognizes several agencies' divemaster certificates as equivalent to BSAC Dive Leader, but not to BSAC Advanced Diver. The converse may not be true.
The certification is a prerequisite for training as an instructor in recreational diving with the professional agencies except NAUI, where it is an optional step, because of the different position of the NAUI Divemaster in the NAUI hierarchy. (Full article... -
Image 11
-
Image 12
-
Image 13
-
Image 14
-
Image 15
Recreational diving
-
Image 1wetsuits and use the underside of the frozen surface as the playing area or rink for a floating puck. Competitors do not use any breathing apparatus but instead surface for air every 30 seconds or so.)
It is not to be confused with underwater hockey, in which the floor of a swimming pool and a sinking puck are used. (Full article... -
Image 2Below is the list of current Commonwealth Records forhome nations); Australia, Canada, Cyprus, England, New Zealand, Scotland, Singapore, South Africa and Wales (). (Full article...)
-
Image 3
Wreck diving is recreational diving where the wreckage of ships, aircraft and other artificial structures are explored. The term is used mainly by recreational and technical divers. Professional divers, when diving on a shipwreck, generally refer to the specific task, such as salvage work, accident investigation or archaeological survey. Although most wreck dive sites are at shipwrecks, there is an increasing trend to scuttle retired ships to create artificial reef sites. Diving to crashed aircraft can also be considered wreck diving. The recreation of wreck diving makes no distinction as to how the vessel ended up on the bottom.
Some wreck diving involves penetration of the wreckage, making a direct ascent to the surface impossible for a part of the dive. (Full article...) -
Image 4fins. These sports are conducted in the natural environment at sites such as open water and sheltered or confined water such as lakes and in artificial aquatic environments such as swimming pools. Underwater sports include the following - aquathlon (i.e. underwater wrestling), finswimming, freediving, spearfishing, sport diving, underwater football, underwater hockey, underwater ice hockey, underwater orienteering, underwater photography, underwater rugby, underwater target shooting and underwater video. (Full article...)
-
Image 5
Underwater rugby (UWR) is an underwater team sport. During a match two teams try to score a negatively buoyant ball (filled with saltwater) into the opponents’ goal at the bottom of a swimming pool. It originated from within the physical fitness training regime existing in German diving clubs during the early 1960s and has little in common with rugby football except for the name. It was recognised by the Confédération Mondiale des Activités Subaquatiques (CMAS) in 1978 and was first played as a world championship in 1980. (Full article...) -
Image 6
-
Image 7Below is the list of current European finswimming records. The records are ratified by the CMAS Confédération Mondiale des Activités Subaquatiques (World Underwater Federation). (Full article...)
-
Image 8
-
Image 9Image 10Rubicon Research Repository.)
This list includes publications where one or more authors are staff or members of one of the DAN affiliates, where a large part of the data is from one of the DAN Databases, or where the research was funded by DAN. (Full article...Image 11
Doing It Right (DIR) is a holistic approach to scuba diving that encompasses several essential elements, including fundamental diving skills, teamwork, physical fitness, and streamlined and minimalistic equipment configurations. DIR proponents maintain that through these elements, safety is improved by standardizing equipment configuration and dive-team procedures for preventing and dealing with emergencies.
DIR evolved out of the efforts of divers involved in the Woodville Karst Plain Project (WKPP) during the 1990s, who were seeking ways of reducing the fatality rate in those cave systems. The DIR philosophy is now used as a basis for teaching scuba diving from entry-level to technical and cave qualifications by several organizations, such as Global Underwater Explorers (GUE), Unified Team Diving (UTD) and InnerSpace Explorers (ISE). (Full article...)Image 12shooting sport that tests a competitors’ ability to accurately use a speargun via a set of individual and team events conducted in a swimming pool using freediving or Apnoea technique. The sport was developed in France during the early 1980s and is currently practiced mainly in Europe. It is known as Tir sur cible subaquatique in French and as Tiro al Blanco Subacuático in Spanish. (Full article...)Image 13Image 14Image 15Below is the list of current British records in finswimming. The records are ratified by the British Finswimming Association.
This list echoes that found on the Monofin website. These records are correct as of 1 April 2018.
In December 2017 British Finswimming Association made a decision to maintain the National records separately for adults and juniors in line with CMAS regulations. (Full article...)Diving hazards, incidents, safety and law
-
Image 1
In tort law, a duty of care is a legal obligation that is imposed on an individual, requiring adherence to a standard of reasonable care to avoid careless acts that could foreseeably harm others, and lead to claim in negligence. It is the first element that must be established to proceed with an action in negligence. The claimant must be able to show a duty of care imposed by law that the defendant has breached. In turn, breaching a duty may subject an individual to liability. The duty of care may be imposed by operation of law between individuals who have no current direct relationship (familial or contractual or otherwise) but eventually become related in some manner, as defined by common law (meaning case law).
Duty of care may be considered a formalisation of the social contract, the established and implicit responsibilities held by individuals/entities towards others within society. It is not a requirement that a duty of care be defined by law, though it will often develop through the jurisprudence of common law. (Full article...) -
Image 2dive buddy. (Full article...)
-
Image 3Arterial gas embolism is also frequently cited as a cause of death, and it, too, is the consequence of other factors leading to an uncontrolled and badly managed ascent, possibly aggravated by medical conditions. About a quarter of diving fatalities are associated with cardiac events, mostly in older divers. There is a fairly large body of data on diving fatalities, but in many cases, the data is poor due to the standard of investigation and reporting. This hinders research that could improve diver safety.)
For diving facilities, scuba diving fatalities have a major financial impact by way of lost income, lost business, insurance premium increases and high litigation costs. (Full article... -
Image 4recreational scuba divers in America, of which 2.351 million dive 1 to 7 times per year and 823,000 dive 8 or more times per year. It is reasonable to say that the average would be in the neighbourhood of 5 dives per year. (Full article...)
-
Image 5A code of practice can be a document that complements occupational health and safety laws and regulations to provide detailed practical guidance on how to comply with legal obligations, and should be followed unless another solution with the same or better health and safety standard is in place, or may be a document for the same purpose published by a self-regulating body to be followed by member organisations.
Codes of practice published by governments do not replace the occupational health and safety laws and regulations, and are generally issued in terms of those laws and regulations. They are intended to help understand how to comply with the requirements of regulations. A workplace inspector can refer to a code of practice when issuing an improvement or prohibition notice, and they may be admissible in court proceedings. A court may use a code of practice to establish what is reasonably practicable action to manage a specific risk. Equivalent or better ways of achieving the required work health and safety may be possible, so compliance with codes of practice is not usually mandatory, providing that any alternative systems used provide a standard of health and safety equal to or better than those recommended by the code of practice.
Organisational codes of practice do not have the same authority under law, but serve a similar purpose. Member organisations generally undertake to comply with the codes of practice as a condition of membership and may lose membership if found to be in violation of the code. (Full article...) -
Image 6Investigation of diving accidents includes investigations into the causes of reportable incidents in professional diving and recreational diving accidents, usually when there is a fatality or litigation for gross negligence.
An investigation of some kind usually follows a fatal diving accident, or one in which litigation is expected. There may be several investigations with different agendas. If police are involved, they generally look for evidence of a crime. In the U.S., the United States Coast Guard will usually investigate if there is a death when diving from a vessel in coastal waters. Health and safety administration officials may investigate when the diver was injured or killed at work. When a death occurs during an organised recreational activity, the certification agency's insurers will usually send an investigator to look into possible liability issues. The investigation may occur almost immediately to some considerable time after the event. In most cases the body will have been recovered and resuscitation attempted, and in this process equipment is usually removed and may be damaged or lost, or the evidence compromised by handling. Witnesses may have dispersed, and equipment is often mishandled by the investigating authorities if they are unfamiliar with the equipment and store it improperly, which can destroy evidence and compromise findings.
Recreational diving accidents are usually relatively uncomplicated, but accidents involving an extended range environment or specialised equipment may require expertise beyond the experience of any one investigator. This is a particular issue when rebreather equipment is involved. Investigators who are not familiar with complex equipment may not know enough about the equipment to understand that they do not know enough.
For every incident in which someone is injured of killed, it has been estimated that a relatively large number of "near miss" incidents occur, which the diver manages well enough to avoid harm. Ideally these will be recorded, analysed for cause, reported, and the results made public, so that similar incidents can be avoided in the future. (Full article...) -
Image 7
-
Image 8recreational diving fatalities in a 1997 study were attributable to a single contributory cause. The remaining fatalities probably arose as a result of a progressive sequence of events involving two or more procedural errors or equipment failures, and since procedural errors are generally avoidable by a well-trained, intelligent and alert diver, working in an organised structure, and not under excessive stress, it was concluded that the low accident rate in commercial Scuba diving is due to this factor. The study also concluded that it would be impossible to eliminate absolutely all minor contraindications of Scuba diving, as this would result in overwhelming bureaucracy and would bring all diving to a halt. (Full article...)
-
Image 9
-
Image 10
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. 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.
The control point is the place where the supervisor can best monitor the status of the diver and progress of the dive. For scuba dives this is commonly on deck of the dive boat where there is a good view of the surface above the operational area, or on the shore at a nearby point where the divers can be seen when surfaced. For surface supplied diving, the view of the water is usually still necessary, and a view of the line tenders handling the umbilicals is also required, unless there is live video feed from the divers and two-way audio communications with the tenders. The control position also includes the gas panel and communications panel, so the supervisor can remain as fully informed as practicable of the status of the divers and their life support systems during the dive. For bell diving and saturation diving the situation is more complex and the control position may well be inside a compartment where the communications, control and monitoring equipment for the bell and life-support systems are set up.
In recreational diving the term is used to refer to persons managing a recreational dive, with certification such as Divemaster,
Dive Control Specialist, Dive Coordinator, etc. (Full article...) -
Image 11recreational scuba divers in America, of which 2.351 million dive 1 to 7 times per year and 823,000 dive 8 or more times per year. It is reasonable to say that the average would be in the neighbourhood of 5 dives per year. (Full article...)
-
Image 12
-
Image 13qualitative fashion. Risk assessment is an inherent part of a broader risk management strategy to help reduce any potential risk-related consequences.)
More precisely, risk assessment identifies and analyses potential (future) events that may negatively impact individuals, assets, and/or the environment (i.e. hazard analysis). It also makes judgments "on the tolerability of the risk on the basis of a risk analysis" while considering influencing factors (i.e. risk evaluation). (Full article... -
Image 14This list identifies the legislation governing underwater diving activities listed by region. Some legislation affects only professional diving, other may affect only recreational diving, or all diving activities. The list includes primary and delegated legislation, and international standards for the conduct of diving adopted by national states, but does not include legislation or standards relating to manufacture or testing of diving equipment. (Full article...)
-
Image 15A job safety analysis (JSA) is a procedure that helps integrate accepted safety and health principles and practices into a particular task or job operation. The goal of a JSA is to identify potential hazards of a specific role and recommend procedures to control or prevent these hazards.
Other terms often used to describe this procedure are job hazard analysis (JHA), hazardous task analysis (HTA) and job hazard breakdown.
The terms "job" and "task" are commonly used interchangeably to mean a specific work assignment. Examples of work assignments include "operating a grinder," "using a pressurized water extinguisher" or "changing a flat tire." Each of these tasks have different safety hazards that can be highlighted and fixed by using the job safety analysis. (Full article...)
Diving medicine, disorders and treatment
-
Image 1
-
Image 2chamber dive in Marseille. (Full article...)
-
Image 3paralysed, unconscious, or stop breathing while underwater. Any one of these events is likely to result in the diver drowning or asphyxiating or suffering further injury during a subsequent rescue to the surface. This risk can be reduced by improving airway security by using surface supplied gas and a helmet or full-face mask. Risk of injury during emergency surfacing is minimised by treatment on 100% oxygen, which is also the only gas with a reliable record of positive outcomes. Early recompression on oxygen has a high rate of complete resolution of symptoms, even for shallower and shorter treatment than the highly successful US Navy Treatment Table 6.)
Several schedules have been published for in-water recompression treatment, but little data on their efficacy is available. The Australian Navy tables and US Navy Tables may have the largest amount of empirical evidence supporting their efficacy. (Full article... -
Image 4Image 5Image 6Image 7Image 8msw (meters of sea water), and symptoms are variable depending on depth, compression rate and personal susceptibility. Intensity increases with depth and may be aggravated by exercise. Compression arthralgia is generally a problem of deep diving, particularly deep saturation diving, where at sufficient depth even slow compression may produce symptoms. Peter B. Bennett et al. (1974) found that the use of trimix could reduce the symptoms.)
Fast compression (descent) may produce symptoms as shallow as 30 msw. Saturation divers generally compress much more slowly, and symptoms are unlikely at less than around 90 msw. At depths beyond 180m even very slow compression may produce symptoms. Spontaneous improvement may occur over time at depth, but this is unpredictable, and pain may persist into decompression. Symptoms may be distinguished from decompression sickness as they are present before starting decompression, and resolve with decreasing pressure, the opposite of decompression sickness. The pain may be sufficiently severe to limit the diver's capacity for work, and may also limit travel rate and depth of downward excursions. (Full article...Image 9
Fitness to dive, specifically the medical fitness to dive, is the medical and physical suitability of a diver to function safely in the underwater environment using underwater diving equipment and procedures. Depending on the circumstances, it may be established with a signed statement by the diver that they do not have any of the listed disqualifying conditions. The diver must be able to fulfill the ordinary physical requirements of diving as per the detailed medical examination by a physician registered as a medical examiner of divers following a procedural checklist. A legal document of fitness to dive issued by the medical examiner is also necessary.
The most important medical is the one before starting diving, as the diver can be screened to prevent exposure in the event of an imminent danger. The other important medicals are after some significant illness, where medical intervention is needed and has to be done by a doctor proficient in diving medicine, and can not be done by prescriptive rules.
Psychological factors can affect fitness to dive, particularly where they affect response to emergencies, or risk-taking behavior. The use of medical and recreational drugs can also influence fitness to dive, both for physiological and behavioral reasons. In some cases, prescription drug use might have a net positive effect when viably treating an underlying condition. However, the side effects of viable medication frequently have undesirable influences on the fitness of a diver. Most cases of recreational drug use result in an impaired fitness to dive, and a significantly increased risk of sub-optimal response to emergencies. (Full article...)Image 10Decompression Illness (DCI) comprises two different conditions caused by rapid decompression of the body. These conditions present similar symptoms and require the same initial first aid. Scuba divers are trained to ascend slowly from depth to avoid DCI. Although the incidence is relatively rare, the consequences can be serious and potentially fatal, especially if untreated. (Full article...)Image 11Dysbarism refers to medical conditions resulting from changes in ambient pressure. Various activities are associated with pressure changes. Underwater diving is the most frequently cited example, but pressure changes also affect people who work in other pressurized environments (for example, caisson workers), and people who move between different altitudes. (Full article...)Image 12In physiology, isobaric counterdiffusion (ICD) is the diffusion of different gases into and out of tissues while under a constant ambient pressure, after a change of gas composition, and the physiological effects of this phenomenon. The term inert gas counterdiffusion is sometimes used as a synonym, but can also be applied to situations where the ambient pressure changes. It has relevance in mixed gas diving and anesthesiology. (Full article...)Image 13grey out underwater during a dive will usually drown unless rescued and resuscitated within a short time. Freediving blackout has a high fatality rate, and mostly involves males younger than 40 years, but is generally avoidable. Risk cannot be quantified, but is clearly increased by any level of hyperventilation.)
Freediving blackout can occur on any dive profile: at constant depth, on an ascent from depth, or at the surface following ascent from depth and may be described by a number of terms depending on the dive profile and depth at which consciousness is lost. Blackout during a shallow dive differs from blackout during ascent from a deep dive in that blackout during ascent is precipitated by depressurisation on ascent from depth while blackout in consistently shallow water is a consequence of hypocapnia following hyperventilation. (Full article...Image 14Underwater tools and weapons
-
Image 1
The SPP-1 underwater pistol was made in the Soviet Union for use by Soviet frogmen as an underwater firearm. It was developed in the late 1960s and accepted for use in 1975. Under water, ordinary-shaped bullets are inaccurate and very short-range. As a result, this pistol fires a round-based 4.5 millimetres (0.18 in) caliber steel dart about 115 millimetres (4.5 in) long, weighing 12.8 grams (0.45 oz), which has longer range and more penetrating power than speargun spears. The complete cartridge is 145 millimetres (5.7 in) long and weighs 17.5 grams (0.62 oz). (Full article...) -
Image 2
The ASM-DT is a Russian prototype folding-stock underwater firearm. It emerged in the 1990s. (Full article...) -
Image 3
A remotely operated underwater vehicle (ROUV) or remotely operated vehicle (ROV) is a free-swimming submersible craft used to perform underwater observation, inspection and physical tasks such as valve operations, hydraulic functions and other general tasks within the subsea oil and gas industry, military, scientific and other applications. ROVs can also carry tooling packages for undertaking specific tasks such as pull-in and connection of flexible flowlines and umbilicals, and component replacement. (Full article...) -
Image 4
-
Image 5Image 6Image 7Image 8Image 9
The Heckler & Koch P11 is an underwater firearm developed in 1976 by Heckler & Koch. It is loaded using a pepper-box-like assembly, containing five sealed barrels each containing an electrically-fired projectile. Two styles of barrel assembly can be used: one containing five 7.62×36mm flechette darts for use underwater, or five 133-grain bullets for use above water. (Full article...)Image 10Image 11Image 12Powerhead (aquarium), a submersible aquarium pump)- Powerhead (rocket engine), the preburners and turbopumps of a pump-fed rocket engine (excludes the engine combustion chamber and nozzle)
- Powerhead (pump), the mechanical drive of any one of several non-aquarium pump types; marine propeller powerhead, fountain powerhead, etc.
(Full article...Image 13Therubber tubing rather than a wooden or fiberglass bow. (Full article...)Image 14A limpet mine is a type of naval mine attached to a target by magnets. It is so named because of its superficial similarity to the shape of the limpet, a type of sea snail that clings tightly to rocks or other hard surfaces.
A swimmer or diver may attach the mine, which is usually designed with hollow compartments to give the mine just slight negative buoyancy, making it easier to handle underwater. (Full article...)Image 15History of underwater diving
-
Image 1The timeline of underwater diving technology is a chronological list of notable events in the history of the development of underwater diving equipment. With the partial exception of breath-hold diving, the development of underwater diving capacity, scope, and popularity, has been closely linked to available technology, and the physiological constraints of the underwater environment.
Primary constraints are- the provision of breathing gas to allow endurance beyond the limits of a single breath,
- safely decompressing from high underwater pressure to surface pressure,
- the ability to see clearly enough to effectively perform the task,
- and sufficient mobility to get to and from the workplace.
-
Image 2
-
Image 3
Vintage scuba is scuba equipment dating from 1975 and earlier, and the practice of diving using such equipment. (Full article...) -
Image 4Image 5Image 6bubble nucleation, inert gas uptake and washout, acclimatisation to decompression sickness, and isobaric counterdiffusion. (Full article...)Image 7Image 8Full article...)Image 9Underwater Demolition Team 11 (UDT-11) in 1972. The mission was conducted off the coast of North Vietnam during the Vietnam War to rescue two U.S. airmen said to be escaping from a prisoner of war prison in Hanoi. The prisoners, including Air Force Colonel John A. Dramesi were planning to steal a boat and travel down the Red River to the Gulf of Tonkin.)
Lieutenant Melvin Spence Dry was killed on the mission. He was the last SEAL lost during the Vietnam War. His father, retired Navy Captain Melvin H. Dry, spent the rest of his life trying to learn the circumstances surrounding his son's death. The details, however, were long shrouded in secrecy. (Full article...Image 10Image 11This is a listing of researchers who have made discoveries or inventions relating to the science and technology ofList of underwater divers. (Full article...)Image 12Image 13The timeline of underwater diving technology is a chronological list of notable events in the history of the development of underwater diving equipment. With the partial exception of breath-hold diving, the development of underwater diving capacity, scope, and popularity, has been closely linked to available technology, and the physiological constraints of the underwater environment.
Primary constraints are- the provision of breathing gas to allow endurance beyond the limits of a single breath,
- safely decompressing from high underwater pressure to surface pressure,
- the ability to see clearly enough to effectively perform the task,
- and sufficient mobility to get to and from the workplace.
Image 14Diver training, registration and certification
-
Image 1Technical Diving International (TDI) claims to be the largest technical diving certification agency in the world, and one of the first agencies to offer mixed gas and rebreather training. TDI specializes in more advanced Scuba diving techniques, particularly diving with rebreathers and use of breathing gases such as trimix and heliox.
TDI provides courses and certification for divers and for instructors. (Full article...) -
Image 2The World Recreational Scuba Training Council (WRSTC) was founded in 1999 and is dedicated to creating minimum recreational diving training standards for the various scuba diving certification agencies across the world. The WRSTC restricts its membership to national or regional councils. These councils consist of individual training organizations who collectively represent at least 50% of the annual diver certifications in the member council's country or region. A national council is referred to as a RSTC (Recreational Scuba Training Council).
Significant training organisations which are not associated with WRSTC via membership of its regional RSTCs include Confédération Mondiale des Activités Subaquatiques (CMAS). (Full article...) -
Image 3This article lists notable underwater diver certification agencies. These include certification in cave diving, commercial diving, recreational diving, technical diving and freediving. Diver certification agencies are organisations which issue certification of competence in diving skills under their own name, and which train, assess, certify and register the instructors licensed to present courses following the standards for the certification they issue. (Full article...)
-
Image 4ADive Leader.)
The BSAC recognizes several agencies' divemaster certificates as equivalent to BSAC Dive Leader, but not to BSAC Advanced Diver. The converse may not be true.
The certification is a prerequisite for training as an instructor in recreational diving with the professional agencies except NAUI, where it is an optional step, because of the different position of the NAUI Divemaster in the NAUI hierarchy. (Full article... -
Image 5Dive RAID International (formerly RAID) is a dive training organization which was founded in 2007 to support diver training for the Poseidon Mk VI Discovery Rebreather. It has since extended its scope to include open circuit scuba training and training for both recreational and technical diving sectors as well as snorkeling and freediving. (Full article...)
-
Image 6
The United Diving Instructors (UDI) is the diver training organization founded in 1983 by Z. Fisher and H. G. Golzing in California, United States. (Full article...) -
Image 7The Trimix Scuba Association (TSA) is a diver training organization specializing in training and certification in technical diving and the safe use of nitrox and trimix.
TSA was founded in Switzerland and has been active in Italy since 1997, offering courses specific to the use of both binary gas mixtures, such as Nitrox and Heliox, and ternary, such as Trimix.
Since January 2006 recreational diving has been included in its educational programs, with the aim of improving safety in this type of simple and enjoyable diving in both freediving and scuba diving.
There are also specific courses for semi-closed circuit rebreathers (SCR). (Full article...) -
Image 8American Nitrox Divers International (or ANDI) was founded by Ed Betts and Dick Rutkowski in 1988.
ANDI has since expanded to include offices in The United Kingdom, Israel, Australia, Sweden, Italy, Germany, The Netherlands, Greece, Japan, Taiwan, Republic of Korea, Republic of Maldives, Republic of Philippines, Latin America, Middle East, with its home office in the United States of America.
"SafeAir" is ANDI's term of art for breathing mixtures with extra oxygen added that are commonly known as nitrox or Enriched Air Nitrox (EAN). (Full article...) -
Image 9ThePADI. (Full article...)
-
Image 10The Israeli Diving Federation (Hebrew: ההתאחדות הישראלית לצלילה, Hitahdut Haisraelit Letslila) (TIDF) is a non-governmental SCUBA diving training organization based in Israel.
The Israeli Diving Federation is active in varied fields. To date it has scuttled 10 vessels to serve as dive sites, and has contributed to the creation of various other dive sites such as submerged underwater archaeological theme parks, the Sculpture Garden in Eilat, and more. TIDF is active in various “green” bodies dedicated to conservation of the underwater environment, the Coral Reef, and natural as well as man-made dive sites along the coasts of Israel.
The Israeli Diving Federation certifications are respected and recognized worldwide - TIDF obtained CEN certification from the EUF certification body. (Full article...) -
Image 11Dynamically Positioned Vessel Owners Association (DPVOA) in 1995. (Full article...)
-
Image 12Woodville Karst Plain Project (WKPP), which now has the status of a nonprofit affiliate of GUE. Jablonski, the president of GUE, promoted the ideas of "Hogarthian" gear configuration attributed to William Hogarth Main, and the "Doing It Right" (DIR) system of diving, to a global audience. Following the WKPP's introduction in 1995 of a standardized approach to gear configuration and diving procedures, there was a significant reduction in diving incidents within the Woodville Karst Plain cave system.)
The standardized approach is the basis of the diver training program of GUE, marking an important difference from the programs of other recreational diver training organizations. GUE also focuses on protecting the maritime environment. The most popular GUE course is GUE Fundamentals, which is designed to introduce the GUE system to non-GUE divers and is the pathway to technical courses. Further courses are offered in recreational, technical, and cave diving, as well as instructor courses. (Full article... -
Image 13
Underwater diving organisations
-
Image 1TheMinistry of Sports to organize and develop scuba diving and related activities nationwide. (Full article...)
-
Image 2The Diving Medical Advisory Council (DMAC) is an independent organisation of diving medical specialists, mostly from across Northern Europe which exists to provide expert advice about medical and some safety aspects of commercial diving. The advice is published in the form of guidance documents, which are made available for download.
The committee has also issued position statements on the following subjects:- Commercial Diving and Health (October 2006)
- Health Surveillance of Commercial Divers (April 2008)
- Exercise Testing in Medical Assessment of Commercial Divers (October 2009)
- Requirement for Air Diving to 50 msw in Commercial Diver Training (March 2013)
- Deep Saturation Diving (April 2013)
- Education and Training in Diving Medicine (November 2014)
-
Image 3AIDA World Championships are periodically held. (Full article...)
-
Image 4Thearchaeological sub-discipline more generally known as maritime archaeology. It encompasses the archaeology of shipwrecks, underwater archaeology in seas and elsewhere and the archaeology of related features.)
The society's logo is derived from the image of a merchant sailing ship on a Bichrome Ware Cypro-Archaic pottery jug 750-600BC, thought to be from the Karpas Peninsula in North Cyprus. The ancient vessel is part of the British Museum's collection (GR 1926.6-28.9). An analysis of how the iconography on this pot has been misinterpreted in recent history and how the image has been adapted for the society's logo, can be read in the editorial of the society's publication the International Journal of Nautical Archaeology (2000) 29.1: 1–2. (Full article... -
Image 5The Undersea and Hyperbaric Medical Society (UHMS) is an organization based in the US which supports research on matters of hyperbaric medicine and physiology, and provides a certificate of added qualification for physicians with an unrestricted license to practice medicine and for limited licensed practitioners, at the completion of the Program for Advanced Training in Hyperbaric Medicine. They support an extensive library and are a primary source of information for diving and hyperbaric medicine physiology worldwide. (Full article...)
-
Image 6
The National Oceanic and Atmospheric Administration (abbreviated as NOAA /ˈnoʊ.ə/ NOH-ə) is a scientific and regulatory agency within the Washington, D.C.–based United States Department of Commerce, headquartered in Silver Spring, Maryland.
The agency is charged with forecasting weather, monitoring oceanic and atmospheric conditions, charting the seas, conducting deep sea exploration, and managing fishing and protection of marine mammals and endangered species in the U.S. exclusive economic zone. (Full article...) -
Image 7
Green Fins is an approach to sustainable marine tourism activities operating in Southeast Asia, Caribbean and the Indian Ocean that works with business operators, communities and governments. It helps to implement environmental standards for the diving and snorkelling industry through a code of conduct. The overall aim of the initiative is to mitigate damaging impacts to the marine environment from the marine tourism sector and improve sustainability. The code of conduct is a set of 15 points designed to tackle the most common and detrimental effects of scuba diving and snorkelling activities on the habitat in which they operate. (Full article...) -
Image 8Divers Alert Network (DAN) is a group of not-for-profit organizations dedicated to improving diving safety for all divers. It was founded in Durham, North Carolina, United States, in 1980 at Duke University providing 24/7 telephonic hot-line diving medical assistance. Since then the organization has expanded globally and now has independent regional organizations in North America, Europe, Japan, Asia-Pacific and Southern Africa.
The DAN group of organizations provide similar services, some only to members, and others to any person on request. Member services usually include a diving accident hot-line, and diving accident and travel insurance. Services to the general public usually include diving medical advice and training in first aid for diving accidents. DAN America and DAN Europe maintain databases on diving accidents, treatment and fatalities, and crowd-sourced databases on dive profiles uploaded by volunteers which are used for ongoing research programmes. They publish research results and collaborate with other organizations on projects of common interest. (Full article...) -
Image 9snorkel and scuba diver training and recognition. It is also known by its English name, the World Underwater Federation, and its Spanish name, Confederación Mundial De Actividades Subacuáticas. Its foundation in Monaco during January 1959 makes it one of the world's oldest underwater diving organisations. (Full article...)
-
Image 10The Spanish Federation of Underwater Activities (Spanish: Federación Española de Actividades Subacuáticas, FEDAS) is the governing body in the field of Spanish aquatic sports. As of 2022, the federation has 895 registered clubs and 32,289 federated athlets.
It is a voting member of the Confédération Mondiale des Activités Subaquatiques (CMAS) . (Full article...) -
Image 11TheLTER) in South Africa and its surrounding oceans. The SAEON is of global importance as an innovative approach in ecology to understand environmental change and to determine the impact of anthropogenic forces at multiple scales but it is a remarkably complex challenge to statistically discern between ubiquitous natural variability and exogenous forcing. The SAEON constitutes a national government response to the World Summit on Sustainable Development (Earth Summit 2002) and is a component of the GEO (Group on Earth Observations). The SAEON has become the leader in environmental science and observation in South Africa, but has been criticised for taking a long time to establish, a situation which was inevitable in view of SAEON's multiple stakeholder corps. It has also been raised that the cost of replicated experimental treatments across SAEON sites will be high. (Full article...)
-
Image 12Image 13Thehyperbaric chamber operators; diving instructors; dive operators, and any other person with a special interest underwater or hyperbaric medicine. (Full article...)Image 14The British Freediving Association (BFA, also known as AIDA-UK) is an organisation established in the United Kingdom during 1999 to promote the safe practice of both competition and recreational freediving. It is the British affiliate of AIDA International. The BFA is the sole body that selects teams for international competitions conducted by AIDA International and ratifies any UK record attempts. It has an inland training centre at Vobster Quay in Somerset.
The British Freediving Association organises UK Freediving pool and depth competitions every year. The Great Northern pool competition was hosted by ApneistsUK who have hosted the Pool Championships in 2010, 2011, 2012, 2013 and 2014. The last depth competition was 2012.
The organisation has a small membership, with 132 members recorded in October 2009. (Full article...)Image 15Thewater management district operations, DOT road-building, and development planning. WKPP data has been the basis for multi-million dollar land purchase decisions to protect critical "below the surface" resources requiring protection. (Full article...)Underwater diving publications
-
Image 1captain's log book from the so-called U-Who to "fulfill their dream of diving into fameendingname="charge"></ref>The U boat was subsequently identified as U-869: https://en.wikipedia.org/wiki/German_submarine_U-869.)
Chowdhury is a technical diver who, according to writer Neal Matthews' review of Robert Kurson's book Shadow Divers (2004), "was among the first to adapt cave-diving principles to deep-water wrecks". Also according to Matthews, "His book documents how the clashes of equipment philosophy between cave divers and wreck divers mirrored the clash of diving subcultures." (Full article... -
Image 2)
-
Image 3U-869 lost on 11 February 1945. (Full article...)
-
Image 4gold bullion (431 bars) from the wreck out of 465 over several days making him the greatest underwater treasurer in history.)
Jessop died on 22 May 2010. (Full article... -
Image 5ISBN 0-939748-32-0) is a book about the history of UK cave diving by Martyn Farr. It is considered the definitive work on the subject. Farr was a major figure in UK diving at a time when many of the original participants were still alive and available for interview. The first edition of the book was published in 1980. A second edition was published in 1991, followed by a substantially rewritten third edition on 3 July 2017. (Full article...)
-
Image 6The NOAA Diving Manual: Diving for Science and Technology is a book originally published by the US Department of Commerce for use as training and operational guidance for National Oceanographic and Atmospheric Administration divers. NOAA also publish a Diving Standards and Safety Manual (NDSSM), which describes the minimum safety standards for their diving operations. Several editions of the diving manual have been published, and several editors and authors have contributed over the years. The book is widely used as a reference work by professional and recreational divers. (Full article...)
Recognised content
This is a list of recognized content, updated weekly by WP:RECOGfor configuration options.Featured articles
Main page featured articles
Featured lists
Good articles
- 115 (barge)
- USS Arkansas (BB-33)
- David Attenborough
- William Beebe
- HMSAS Bloemfontein
- HMS Boadicea (H65)
- Bowie Seamount
- Hugh Bradner
- Carbon monoxide poisoning
- Scott Carpenter
- SS Cayuga
- SS Chester A. Congdon
- Decompression sickness
- Decompression (diving)
- Decompression equipment
- Decompression practice
- Dive profile
- Diver communications
- Diving cylinder
- SS Emperor
- Force
- SMS Geier
- SAS Good Hope
- History of decompression research and development
- SS Ironsides
- SS John V. Moran
- Scott Kelly (astronaut)
- PS Keystone State
- SS Manasoo
- USS Monitor
- Nitrogen narcosis
- Pearl and Hermes Atoll
- HMS Pelorus (J291)
- HMS Prince of Wales (53)
- Leni Riefenstahl
- HMS Safari
- Japanese cruiser Sakawa
- Scuba diving
- Solo diving
- Special Air Service Regiment
- Special Air Service
- Special Boat Service
- HMS Thames (1885)
- SAS Transvaal
- German submarine U-40 (1938)
- SS Vernon
- USS Yancey
Former good articles
In the News articles
-
Image 1
-
Image 2Image 3
Diver communications are the methods used by divers to communicate with each other or with surface members of the dive team. In professional diving, diver communication is usually between a single working diver and the diving supervisor at the surface control point. This is considered important both for managing the diving work, and as a safety measure for monitoring the condition of the diver. The traditional method of communication was by line signals, but this has been superseded by voice communication, and line signals are now used in emergencies when voice communications have failed. Surface supplied divers often carry a closed circuit video camera on the helmet which allows the surface team to see what the diver is doing and to be involved in inspection tasks. This can also be used to transmit hand signals to the surface if voice communications fails. Underwater slates may be used to write text messages which can be shown to other divers, and there are some dive computers which allow a limited number of pre-programmed text messages to be sent through-water to other divers or surface personnel with compatible equipment.
Communication between divers and between surface personnel and divers is imperfect at best, and non-existent at worst, as a consequence of the physical characteristics of water. This prevents divers from performing at their full potential. Voice communication is the most generally useful format underwater, as visual forms are more affected by visibility, and written communication and signing are relatively slow and restricted by diving equipment.
Recreational divers do not usually have access to voice communication equipment, and it does not generally work with a standard scuba demand valve mouthpiece, so they use other signals. Hand signals are generally used when visibility allows, and there are a range of commonly used signals, with some variations. These signals are often also used by professional divers to communicate with other divers. There is also a range of other special purpose non-verbal signals, mostly used for safety and emergency communications. (Full article...)Image 4Image 5Image 6Image 7Image 8Image 9Image 10Image 11Image 12Slideshow of selected imagesGallery of selected images
-
Image 1A range of 1970s snorkels made to British Standard BS 4532:1969 (from Outline of underwater diving)
-
Image 2Swim fin sole showing compliance with German standard DIN 7876:1980 (from Outline of underwater diving)
-
Image 3Surface-supplied divers riding a stage to the underwater workplace
-
Image 4GOST 20568:1975 compliant Russian and Ukrainian diving masks (from Outline of underwater diving)
Randomly selected quote
What really got me into diving was that the standards for women were the same [as for men]. Women had to do the same number of sit-ups and push-ups. They had to climb up and down the dive ladders wearing the same 200-pound Mark V dive system.
— Karen Kohanowich
"Women Divers: Part of the Navy Team". Naval Undersea Museum, Naval History & Heritage Command, United States Navy. Retrieved February 21, 2012.Categories
Select [►] to view subcategories
Select [►] to view parent categories
Topic areas
General Algorithms Diving Equipment - Decompression buoy
- Decompression tables
- Decompression trapeze
- Dive computer
- Diving chamber
- Diving shot
- Hyperbaric stretcher
- Jonline
- Recreational Dive Planner
Gases - Breathing air
- Breathing gas
- Gas blending for scuba diving
- Heliox
- Nitrox
- Oxygen
- Trimix
Injury and treatment Procedures - Categories: Underwater diving decompression
- Commons: Category:Decompression
Freediver Federations Recreational and technical
scuba- British Sub-Aqua Club (BSAC)
- Cave Divers Association of Australia (CDAA)
- Cave Diving Group (CDG)
- Comhairle Fo-Thuinn (CFT)
- Confédération Mondiale des Activités Subaquatiques (CMAS)
- Federación Española de Actividades Subacuáticas (FEDAS)
- Fédération Française d'Études et de Sports Sous-Marins (FFESSM)
- International Association for Handicapped Divers (IAHD)
- Woodville Karst Plain Project (WKPP)
Scientific, archaeological
and historicalSports federations - Australian Underwater Federation (AUF)
- British Octopush Association (BOA)
- British Underwater Sports Association (BUSA)
- Federación Española de Actividades Subacuáticas (FEDAS)
- Fédération Française d'Études et de Sports Sous-Marins (FFESSM)
- South African Underwater Sports Federation (SAUSF)
- Türkiye Sualtı Sporları Federasyonu (TSSF)
- Underwater Society of America (USOA)
Related and uncategorised Related portals
Wikimedia
The following Wikimedia Foundation sister projects provide more on this subject:
-
Commons
Free media repository -
Wikibooks
Free textbooks and manuals -
Wikidata
Free knowledge base -
Wikinews
Free-content news -
Wikiquote
Collection of quotations -
Wikisource
Free-content library -
Wikiversity
Free learning tools -
Wikivoyage
Free travel guide -
Wiktionary
Dictionary and thesaurus
- What are List of portals
- Sub-pages of Portal:Underwater diving
-