To be or not to be…Buoyant that is. With all due respect to the Bard, in reality, neither is appropriate- when we dive, adhering to the Third Rule of Scuba, “Maintain Neutral Buoyancy at Depth”, is clearly important and possibly, no more so than when we think about taking photographs underwater.
In our Open Water Diver training we learned the critical Three Rules of Scuba. Continuous breathing is absolutely a requirement for our safety, as is a slow, controlled ascent and a safety stop. So, how does Neutral Buoyancy really figure into this? Aside from issues related to a saw-tooth dive profile, maintaining proper (that is, neutral) buoyancy is important for other reasons.
On a typical open water dive, we drop in and descend to a depth, a feature or some other pre-determined point, and as we recall from the dive briefing, we have a dive profile that we intend to follow, which is to say that we have a maximum depth and time for this specific dive. The depth is important for nitrogen loading in our tissues, as is time at depth, and we figure a profile to ensure that we are diving safely and within recreational limits. So, maintaining the depth as per the plan has some obvious logic.
Aside from adhering to the depth limits we resolved in our dive plan, we also want to think about what we’re going to see on our underwater tour. Again, in the dive briefing there was discussion about what we might expect to see on this dive, so there is a need to be aware of the depth at certain points during the dive, such that we can see the features. Having neutral buoyancy is important here, as if we are drifting up or down, we are less likely to see the feature. Further, if we are struggling with buoyancy, we are much more likely to make contact with the reef or other underwater structure, possibly causing damage to that or injury to ourselves.
Photography is not much different from seeing with our own eyes. The camera, whether digital or optical, records the light reflected from the subject, and captured on the film (or CCD), just as it was captured by our own eyes. The camera allows for a myriad of possible adjustments to compensate for spectrum absorption and in fact, our eyes make the same sort of adjustments, though we are less aware of them at the time. But, when we are looking at an object our eyes need time to sort out the contrast, look for the details of the object, adjust to the lighting, etc. In an underwater environment, our mind is less familiar with the situation and thus slower to resolve the details- seeing that shrimp can be a challenge at first. Experience helps, of course, as the mind becomes trained and better able to process the information.
Nonetheless, even with our own eyes, we need a few seconds to process the information and to actually “see” the object. That demands our ability to focus on the area of interest, differentiate the background from the subject, resolve the textural differences, and finally, see the subject. This requires some stability to our point of view- if the area of interest has shifting features (light, distance, contrast) it will be very difficult for our eyes and mind to process the dynamic data and capture the image. Shifting features certainly can be caused by mneung to and fro, as well as up and down. Now, I think you can see where buoyancy has an impact…
Just as our eyes require some time to adjust to the environment, and our mind requires some time to process the information presented to it, a camera will require some time to adjust for the lighting and resolve the focus before the shutter trips. In some systems, this could truly be a few seconds. OK, so now imagine that you are drifting up and down with your breathing…how will you capture that award winning image? Keep in mind, too, that in most underwater photography situations, just as our eyes require time to resolve the light, texture and contrast, a camera needs time to do the same, and usually this only happens once the shutter release is pressed. If the camera moves relative to the subject after the shutter release is pressed the focus and lighting might not be correct. Further, the shutter speed is likely to be quite slow so camera movement will result in a blurred image.
Let’s go back to a few basics here, keeping in mind that photography is not that much separated from seeing with our eyes. Humans are in reality poor multi-taskers, and especially if something has captured our attention. In a diving situation, our attention can be easily diverted by something we see, causing our focus to shift from something important, like which lane we are in. In a diving situation, if we are focused on an object we are likely to stop paying attention to other matters. We know that if we stop to communicate with our buddy underwater, we are going to forget direction, buoyancy or something else. So, when we stop to look at an object we are likely to forget about our buddy, direction, buoyancy, etc. We need to start reducing variables very early, to prevent our dropping onto the reef, or ascending, or losing our buddy. What variable can we easily reduce? Buoyancy!
If we return to the “3 Rs” of scuba, the first thing we want to do is to regain control, so when we stop to look at that object, we are in control of our buoyancy. If we control buoyancy as an autonomic response, our mind can pay attention to the object and, if we are taking a photograph, we can maintain our focus on the object and capture a good or even great image.
Poor buoyancy control presents a number of problems:
- Potential unintended contact with and damage to the reef
- Potential unintended contact with a wreck or other structure, with risk of injury
- Spooking or injuring marine life
- Being unable to clearly see the feature
- Being unable to capture a good photograph of the feature
Good buoyancy control allows us a number of benefits:
- No risk of unintended reef contact and damage
- No risk of unintended structure contact or injury
- Marine life is at ease and can be readily observed
- We can actually see the feature
- We can capture an good photograph of the feature
Good buoyancy control means that we are neither rising nor falling in relation to the feature, and that we are standing off the reef or other structure. Further, it means that our eyes and our mind can pay attention to the feature and truly see it. Finally, if our eyes and mind can resolve the feature, we have the time needed to properly compose a photograph, be sure that our camera is set correctly, approach the marine life cautiously, allow the camera to adjust to the specific situation, allow the focus to be set and the shutter to trip.
Good buoyancy control means stability underwater. It promotes good diving posture, better gas management, less exertion and more opportunity to do what we set out to do in the first place- see things in an underwater environment, undisturbed.
Good buoyancy control takes time and practice. Great buoyancy control takes a lot of time and a lot of practice. It’s a combination of breathing control, body positioning, weighting, equipment configuration and concentration. If you want to get some great underwater shots, think about first working on your buoyancy control before you pick up that camera. If you need to work on buoyancy control, consider a Scuba Skills Update, some local diving, or a specialty course. At OVI we are always ready to do help you improve your skills and enhance your diving experience. Let us know how we can help you.
b. Smith says
good site thanks for sharing