Nearly 30 years ago, we first raised the question, what do you do if you're 100 feet down with two buddies,
and both come to you out of air? One solution would be to pass your primary second stage to one
buddy, give your octopus to the other, and then begin a slow ascent while valving fresh air into your buoyancy
compensator and breathing through your BCD's oral inflator mouthpiece. It's tricky and takes practice,
but it works.
Yet none of the commercial training agencies teaches BCD breathing at any level. In fact, after we reported
again on this technique in 1999, the industry seems to have closed ranks against it, even though it's been
successfully tested in a variety of predicaments.
We don't advocate breathing BCD air as a standard practice, only as a last resort in an emergency when
you're deep and have no other source or air. If you add air with your power inflator, it will be pure and
contain 21 percent oxygen (even more if you're using Nitrox). If you orally inflate your BCD, it will still contain
16 percent oxygen. Even if you suck your tank dry, you can get some air through your regulator as you
ascend, and the pressure in your tank becomes greater than the ambient pressure. However, once your tank
is bone dry, you'll still have residual air in your BCD, or at least in your inflator hose.
Bear in mind that air in your BCD will also become more available as you rise. If you put your BCD
mouthpiece into your mouth and keep trying to inhale and exhale while you rise, you should be able to do
so for at least 20 seconds while the ambient pressure decreases enough to provide a breath of air. Then you can continue the process as you ascend. Tests conducted by the late Al Pierce of the YMCA concluded that
you can exhale back into your BCD and keep rebreathing the same air as many as 13 times without becoming
overly hungry for fresh air. (After all, exhaled air is good enough for artificial respiration.) Using this
technique, instead of free-ascending with no air, you'll have some air as you rise, which will allow you to
make a slower and safer ascent.
Is the proabability of a fatal infection from
bacteria and other contamination in a
BCD bladder as high as PADI claims?" |
Even so, agencies refuse to teach this technique,
although some individual instructors may
introduce it on their own. The key objection
voiced by PADI is the possibility of respiratory
infection from bacteria inside the BCD. LeRoy
Wickham, educational consultant to PADI, says,
"Due to the very high probability of bacteria,
viruses and other contamination in a BCD bladder, we do not advocate breathing from a BCD. That skill is
not included as a performance requirement or training option in any PADI courses."
A Rare Case of Lung Infection
In fact, a British diver developed a deadly fungal infection in his lungs in 2009 that was caused by a
contaminated BCD. "The culprit," according to the British magazine DIVER, "was Aspergillus fumigatus, a
micro-organism that exists within all our bodies and in the air, but usually safely contained by our immune
systems."
Michael Firth, an active 58-year-old technical diver, became seriously ill after taking two deep breaths
from his wing BCD's manual inflator to be sure it was working. He had noted a moldy taste at the time, and
tests after he fell ill established that the fungus had taken hold in the wing bladder. His condition steadily
deteriorated, and he passed away in December 2009 while awaiting a lung transplant.
But is the probability of such a fatal infection as high as PADI claims? David Denning, a professor of
mycology at the University of Manchester in the U.K. and director of the National Aspergillosis Centre,
told DIVER that Firth's is the only diving-related case he has come across, and that more research is needed
into why his body reacted as it did. "His lung reaction was clearly very unusual, and you wouldn't normally
expect such a very extreme clinical reaction in someone who's fit enough to dive."
Dive medicine doctor Ian Sibley-Calder added: "Invasive pulmonary aspergillosis is extremely unusual in
people with no other history of lung problems or altered immune system - - diabetes, steroids, chemotherapy,
HIV etc. Consider the number of divers over the world and the fact that inhaling from a buoyancy device is
relatively common - - to extract air to collapse a wing, for instance, which I've done many times.
"While this case is tragic, and it's a fair point that we should all take care of our kit, I don't think we
should be overly alarmist. If you need to breathe out of a buoyancy device because you've run out of air, do
it. Be careful, but don't panic."
BCDs can be disinfected with solutions readily available in dive shops (see the sidebar "Disinfecting Your
BCD"). Or you can use benzalkonium chloride, which is available at drug stores under the brand name
Zephiran chloride. Besides, why should you be concerned about a lung infection in an out-of-air emergency?
With the exception of Mike Firth's case, there are a lot more cures for respiratory infections than there are
for drowning.
The second biggest objection made by training agencies is that divers will need to master new skills and
perhaps to overlearn some old ones. For instance, you must be able to clear the ounce or so of water from
your inflator hose mouthpiece without choking. Other skills required vary depending on whether your first
stage is still supplying air. Additional objections include difficulties with buoyancy control, such as ascending
too fast or the possibility of arriving on the surface with no lift in the BCD.
The consensus seems to be that keeping things simple reduces the chance of panic. Retired UCLA professor
Glenn Egstrom cited a phenomenon called "peripheral narrowing," which is the tendency to lose track of
one's options under stress, thereby subverting the reflexive nature of trained responses. While that may be a
valid consideration, does it make sense for those charged with the safety of others (e.g., Rescue, Divemaster,
or Instructor levels) to not even be exposed to this proven technique for handling out-of-air situations or
equipment malfunctions?
Training Agency Options
A few years ago, PADI spelled out the recommended options for low/out of air situations, in order of priority:
- Make a normal ascent, if your tank isn't completely empty.
- Ascend using an alternate air source (redundant supply or buddy's octopus).
- Execute a controlled emergency swimming ascent.
- Buddy-breathe with a single regulator supplied by another diver.
- Make a buoyant emergency ascent.
Steve Lewis, director of marketing and corporate communications and an instructor at TDI/SDI, told
Undercurrent he knows of nobody in either agency teaching BCD breathing. At TDI, which offers technical
diving certifications, emphasis is on the rule of thirds, with students trained to manage their dives so that
one third of their breathing supply is always held in reserve. While acknowledging that BCD breathing
might be used by an experienced sport diver to avoid an emergency ascent, he said, "It'll be a cold day on
the equator before I'd teach it."
Insisting that BCD breathing was "not a viable option," NAUI Training Manager Randy Shaw confirmed
that his agency does not teach it at any level of certification. Watson DeVore, director of education for Scuba
Schools International agrees with Shaw, adding, "That skill isn't taught because we teach students not to
run out of air."
Of course, that turns a blind eye to the great number of divers who do run out of air - - SSI divers
included - - and run into serious consequences. However, frequent Undercurrent contributor Bret Gilliam says
the technique may not be viable for the average diver due to the danger of inhaling water on the first breath
from a BCD inflator hose. That could cause a laryngeal spasm, which could lead to diver panic. He urges
that experience and practice are crucial to master this technique (see our sidebar "How to Breathe from a
BCD").
When faced with a life or death situation, should one give second thought to the small chance of a lung
infection? Isn't being able to state a controlled emergency ascent or a buoyant emergency ascent safer if you
have a few breaths of air from your BCD? Knowing you've got at least one more ace up your sleeve might
help keep you cool as you weigh your options. Hopefully, you'll get things under control before you ever
need to use your BCD as an alternate air source. But it's there if you need it.
- - Larry Clinton