Here is my view on this often debated subject. It is always dangerous to make absolute statements, especially on Scubaboard, but I am in my flack jacket so fire away. :nailbiter:
A diver's submerged weight should be no less than neutrally buoyant
Here comes the disclaimer
You may never plan on sucking your tanks down to 200 PSI/14 Bar, but completing decompression or safety stops matters more than getting back on deck with a lot more air. Besides, rules of thumb like not running your tank below 500 PSI are not motivated by somebody hanging 10' below the boat on a rope. I am not suggesting anyone plan on breathing cylinders below your comfort level, just that your stops are more important. Miscalculates happen — so this value represents the minimum weight contributed by the gas in your tanks.
Here's the Logic
Being too buoyant at a decompression or safety stop is really annoying, especially if you don’t have the luxury of a weighted line to hang on off — like drifting on a sausage buoy. A nearly empty tank is your most buoyant condition, unless you have picked up some treasure or maybe scallops.
Most divers find that neutrally buoyancy is the most comfortable and requires the least amount of effort. Too negative on the bottom has drawbacks. First, it is harder to swim. Those ecologically minded divers will find it more damaging to marine life and habitat because you are crawling across the bottom. Photographers, wreck, and cave divers react with varying degrees of hostility to buddies who stir up the bottom. Spear-fishermen are less agile and attract more attention from their prey. Bottom-line: Shoot for neutral unless you plan on running a jack hammer.
Depth Matters: Materials, like foam Neoprene used on wetsuits, padding, and some accessories are buoyant, but compresses as depth increases. There may also be some trapped air in your BC or in a rolled up safety sausage.
You can carry significantly more weigh than minimum by adjusting your BC. Aside from lugging more lead around, above and below the water, you also have to fuss with adjusting your BC more. This is because the gas compresses and expands as you change depth — especially in shallow water. More weight = more air in BC = more change with depth, = more annoying.
OK, so how do I figure it out
Here is the best method I have seen thus far: make up a rope about 15'/5 M longer than your shallowest decompression or safety stop. Tie a Bowline at one end, measure up about 3'/1M and make a mark for the diver's stop. Measure up the length of your minimum stop and make a mark representing the surface.
Tie 20-30 Lbs/10-15 Kg of lead, an extra anchor, or chain to the Bowline and lower it over the side of a boat, dock, pier or in a deep swimming pool — you need calm conditions. Tie the surface-end to a fish scale with the "surface mark" just at the air-water interface. Ideally the fish scale is digital because they tend to be more accurate, water resistant for obvious reasons, and can handle the weight you tie off.
Record the weight hanging on the scale. A single diver then hangs off at the "stop mark" empties their BC, drysuit, and is low on air. Record the weight again. If the weight is less than before, it indicates how much more weight they need. If the recorded weight is more, then that is the amount of lead the diver can shed. Add 2½% if the test is in fresh water and you plan to dive in sea water.
A diver's submerged weight should be no less than neutrally buoyant
- At the shallowest decompression or safety stop
- With a fully deflated BC (if you use one)
- With drysuit deflated to minimum without discomfort (if you use one)
- With nearly empty Tank(s), like 200-300 Lbs or 14-20 Bar
- With lungs comfortably inflated to your normal respiratory inhalation peak
Here comes the disclaimer
You may never plan on sucking your tanks down to 200 PSI/14 Bar, but completing decompression or safety stops matters more than getting back on deck with a lot more air. Besides, rules of thumb like not running your tank below 500 PSI are not motivated by somebody hanging 10' below the boat on a rope. I am not suggesting anyone plan on breathing cylinders below your comfort level, just that your stops are more important. Miscalculates happen — so this value represents the minimum weight contributed by the gas in your tanks.
Here's the Logic
Being too buoyant at a decompression or safety stop is really annoying, especially if you don’t have the luxury of a weighted line to hang on off — like drifting on a sausage buoy. A nearly empty tank is your most buoyant condition, unless you have picked up some treasure or maybe scallops.
Most divers find that neutrally buoyancy is the most comfortable and requires the least amount of effort. Too negative on the bottom has drawbacks. First, it is harder to swim. Those ecologically minded divers will find it more damaging to marine life and habitat because you are crawling across the bottom. Photographers, wreck, and cave divers react with varying degrees of hostility to buddies who stir up the bottom. Spear-fishermen are less agile and attract more attention from their prey. Bottom-line: Shoot for neutral unless you plan on running a jack hammer.
Depth Matters: Materials, like foam Neoprene used on wetsuits, padding, and some accessories are buoyant, but compresses as depth increases. There may also be some trapped air in your BC or in a rolled up safety sausage.
You can carry significantly more weigh than minimum by adjusting your BC. Aside from lugging more lead around, above and below the water, you also have to fuss with adjusting your BC more. This is because the gas compresses and expands as you change depth — especially in shallow water. More weight = more air in BC = more change with depth, = more annoying.
OK, so how do I figure it out
Here is the best method I have seen thus far: make up a rope about 15'/5 M longer than your shallowest decompression or safety stop. Tie a Bowline at one end, measure up about 3'/1M and make a mark for the diver's stop. Measure up the length of your minimum stop and make a mark representing the surface.
Tie 20-30 Lbs/10-15 Kg of lead, an extra anchor, or chain to the Bowline and lower it over the side of a boat, dock, pier or in a deep swimming pool — you need calm conditions. Tie the surface-end to a fish scale with the "surface mark" just at the air-water interface. Ideally the fish scale is digital because they tend to be more accurate, water resistant for obvious reasons, and can handle the weight you tie off.
Record the weight hanging on the scale. A single diver then hangs off at the "stop mark" empties their BC, drysuit, and is low on air. Record the weight again. If the weight is less than before, it indicates how much more weight they need. If the recorded weight is more, then that is the amount of lead the diver can shed. Add 2½% if the test is in fresh water and you plan to dive in sea water.
Last edited:
