The generic risks of recreational scuba diving include: • running out of breathing gas • equipment failure and inappropriate response • loss of buoyancy control causing uncontrolled rapid ascent or inability to ascend • unawareness of decompression status, causing missed decompression. • inability to return to the surface – getting lost under an overhead, or physically trapped • overestimating ability to successfully complete a dive – including environmental, physical fitness and medical concerns. • medical emergencies in a hostile environment. These risks can be reduced and the consequences mitigated by correct application of knowledge, skills, fitness and equipment. Where a single point of failure is likely to seriously compromise safety, redundant equipment can be carried, and the skills learned to effectively use the equipment without undue delay. There has been much disagreement over the relative safety and merits of solo diving. Up to 2003, very few statistics existed regarding the impact of solo diving on safety, as the subject had not been specifically studied. A 2006 report from the British Sub-Aqua Club (BSAC) concluded that "BSAC currently takes the view that based on evidence from available statistics and risk assessment, the increased risk attendant to allowing planned solo diving is unacceptable". The data underlying the statistics which are used to point to the dangers of solo diving are questionable: for example, divers who end up dying alone but originally had started out as part of a buddy pair are often considered to be "diving solo" in such statistics, but whether the separation was a consequence of the triggering incident rather than a cause is not analyzed. Studies have shown that with fatal buddy diving incidents, 57% of deaths happened after the buddy pair had separated from one another during the emergency. These cases could be attributed to failure of the buddy system rather than failure of any solo diving or self-sufficient diving system. A further complication in such statistics is that certain more dangerous diving activities such as
cave diving, are frequently carried out solo, and, it is questionable whether a death in these circumstances should be attributed to solo diving, or to cave diving, or to a combination of these factors. Analysis of the figures used by BSAC to categorise solo diving as dangerous shows that during 2001–2008 all but one of these "solo diving deaths" were actually paired buddy divers who became separated during or before the fatal incident (75%), or else were divers diving far outside of the limits set by both SDI and PADI for the practice of solo diving (20%) (i.e. deep dives, rebreather dives, and/or cave dives, as well as being solo dives). Two further "solo-diving deaths" were not scuba divers at all, but
snorkellers. In almost all circumstances, two highly competent, totally self-sufficient divers diving a specific dive profile as a buddy pair are at lower risk than those same two divers diving exactly the same profile separately, but this raises the questions "how often do normal buddy divers both really fit into this particular description", "How much additional risk is incurred", and "Which option gives the diver the most advantage overall, considering both risk and reward"? When considering the risks in solo diving the alternative risks found predominantly in buddy diving should also be considered. The greatest risk factor in recreational diving is inexperience – 60% of all diving fatalities involve divers having less than 20 completed dives. The buddy system itself can be a source of risk – a 2006 survey showed that 52% of buddy divers were at some time actually endangered by a buddy's behavior or actions. As part of mitigating risks in solo diving the following specific practices have been adopted by SDI for solo diving or are key recommendations by Robert von Maier—author of the 1991 book
Solo Diving: The Art of Underwater Self-Sufficiency: • All solo diving is to be done within recreational dive limits (no deep, decompression, penetration, or rebreather dives while solo). • No dives which significantly exceed one's personal experience limits are to be undertaken while solo • No solo dives are to be undertaken in areas where there are known hazards of entanglement/entrapment • Solo dives will only be undertaken to depths at which the bailout system used carries an acceptable level of risk, the appropriate equipment is carried, and where the relevant bailout procedures have been practiced successfully by the diver. • The solo diver's maximum distance to point of exit (shore, boat) will never exceed a distance that can be easily and comfortably swum at the surface in full scuba gear – and the diver will maintain and exercise his/her navigational practices in solo dives to ensure that this is the case. A solo diver needs to be particularly aware of overall personal fitness and health and the limitations it may impose on their ability to manage an emergency. Finally, the solo diver may plan a more conservative dive than they might dive with an equally competent buddy diver.
Equipment While there are hazards specifically associated with solo diving, most of these can be planned for and their consequences mitigated by the use of appropriate equipment. In
technical diving, where redundancy of critical equipment is standard policy, self-sufficiency is emphasised and taught more extensively than in most recreational diving. This philosophy should also be followed by solo divers. Additional equipment carried may include a bailout gas supply, a backup dive computer, a backup dive light and a backup dive mask. The diver must be familiar with the equipment configuration used and be able to access the equipment easily if it is needed. A solo diver operating beyond the range for acceptable risk for a
controlled emergency swimming ascent needs to carry a second, independent source of suitable breathing gas, which includes a
regulator and preferably a submersible pressure gauge. This
emergency gas supply typically takes the form of a
bailout cylinder, or a twin tank set with the capability of independent operation of each tank. Most of the equipment needed for solo diving is the same as that which would be used for buddy diving the same dive profile at the same place. The single most important item of additional equipment required is the redundant breathing gas supply, which must be sufficient to get the diver safely to the surface from any point of the planned dive. There is more than one way to achieve this, and they each have their advantages and disadvantages. •
Isolation-manifolded twin cylinders. The standard technical diving back mount configuration allows access to all the gas through either regulator, but the valves may be difficult to reach for the less supple diver, and it must be possible to reach the isolation valve to shut it off in case of a catastrophic leak. It is heavy and bulky, and requires a suitable harness and BCD. • Back mounted
Independent twin cylinders are also heavy and bulky, and require a suitable harness and BCD. Enough gas to surface safely must be left in each cylinder at all times. •
Sidemount with two cylinders. This arrangement is standard for sidemount diving. It requires a suitable harness and BCD. Enough gas to surface safely must be left in each cylinder at all times. • Single back mounted primary cylinder with a cylinder mounted
pony bailout set. This is convenient when in the water and keeps the bailout set out of the way, but makes the scuba set heavier than a single when out of the water, and may need trim weights for lateral balance. Accessibility of the pony cylinder valve must be appropriate. Enough gas to surface safely must be left in each cylinder until the ascent is started. • Single back mounted primary cylinder with
side-slung bailout set. Reasonably convenient, easily accessible demand valve, pressure gauge and valve knob, but the bailout can get in the way a bit and mounting the cylinder takes a bit of practice. The arrangement is very portable between dives, as the same bailout set can be used for a large number of dives without any modification, adjustment, or need to refill. Trim weight may be needed for lateral balance. Size can be whatever is available - as long as it is sufficient and is not too heavy. Even an aluminium 80 can be comfortably carried this way by a moderately large diver. An aluminium 40 is enough for almost any recreational dive, and is one of the more popular options for acceptable bulk and buoyancy, and remains useful for most recreational dive profiles even when partly used. • Harness mounted "
spare air" type miniature bailout set. These are light and compact but carry a very limited gas supply and are only suitable for fairly shallow dives. An advantage is that they can easily be refilled from a primary gas cylinder on site. Other more complex arrangements of three or more cylinders are possible, but not usually of any advantage for recreational solo diving. Arrangements using H- and Y-valved back gas cylinders with two first stages may be useful if there is a significant risk of regulator freezing, but do not provide full redundancy. For solo diving an octopus regulator is not needed, as it is intended for supplying gas to another diver, though some consider a secondary regulator on the primary gas supply valuable as a backup in case of primary regulator malfunction. An
alternative ascent system may be required (as in Queensland, Australia), and is a useful safety adjunct in many situations both in solo and buddy diving, where better control of ascent rate is desirable. In Queensland law it is defined as "A highly visible buoyancy device such as a
delayed surface marker buoy that provides a submerged diver with an ascent line that the diver may follow to the surface and use to complete any decompression requirements." ==Training==