Understanding Underwater Hearing Capabilities

Millions of years ago, all mammals lived on land, but at some point, several species left land and evolved to a life in the sea: think of seals and whales, which today are adapted to life underwater.

The rest who remained on land have similarly adapted to a life on land, and it can hardly come as a surprise that we humans today hear better on land than underwater — which is the conclusion from a group of scientists in a new study. But the study also reveals surprising news about human hearing..

Jakob Christensen-Dalsgaard is an expert in animal hearing and in his laboratory at University of Southern Denmark, he tirelessly throws himself into hearing studies of animals such as cormorants, geckos, frogs, crocodiles — and now also humans. This time, together with Ph.D. student Kenneth Sørensen and biologist Magnus Wahlberg, also from University of Southern Denmark, and an expert in animal underwater hearing.

Decades of hearing tests

Since the 1950s, several different attempts have been made to measure human hearing underwater. The US military, for example, has had an interest in understanding how divers are affected by underwater explosions, and in general, the hearing tests have been very different.

Some subjects have been tested with diving equipment on, others with neoprene caps and still others with air-filled diving masks — all of which can affect the test subjects’ hearing.

“But common to all these scientific studies is that they all find hearing thresholds that are higher than the thresholds we have found in our new study, he says.

We hear as well as seals underwater

In the new study, in which 7 people participated, the average hearing threshold of 71 dB (3.5 mPa) is at 500 Hz. Hearing threshold is a measurement of which volumes you can only just hear.

“It is 26 dB lower than hypothesized in previous studies, so we must conclude that humans hear significantly better underwater than previously reported by science. In fact, the threshold at 500 Hz is in line with how well animals such as cormorants and seals hear underwater,” says Jakob Christensen-Dalsgaard.

Worth noting in this context is, that e.g., seals and dolphins — unlike us — can hear very loud sounds underwater — also sounds that humans cannot hear.

The previous studies hypothesized that the human ear underwater works by so-called bone conduction; that is, that the sound waves vibrate the skull. That hypothesis would fit the high hearing thresholds found in previous studies.

“But we believe that resonance in the enclosed air in the middle ear amplifies the sound and makes the ear more sensitive. We have also shown this in previous studies of cormorants, turtles, and frogs,” explains Jakob Christensen-Dalsgaard

You should not expect to be able to jump into the sea and orient yourself perfectly using only your sense of hearing, says Jakob Christensen-Dalsgaard: sense of hearing is not just about being able to pick up a sound. It is also about determining the direction of the sound — and this is very difficult for a person underwater.

“In air we can determine the sound direction within a few degrees, but in water there is an up to 90 degrees error margin. This is not so strange, because we are trained to react to the small time differences between the ears, which are due to the speed of sound in air. In water, the speed of sound is four times greater, and the time differences are much smaller,” Jakob Christensen-Dalsgaard explains, concluding: “The results tell us that humans have a reduced ability to determine the direction of sounds underwater, thus confirming that human hearing is not adapted to work well underwater.”

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