Ocean noise broadly refers to the noise made by human activity that can obstruct the ability of marine animals to hear natural sounds in the ocean. Anthropogenic noise has been increasing over the years, even doubling each decade in some areas of the world. This noise can mask communication between aquatic animals and decrease their ability to find prey or be aware of predators, among other problems. This type of noise pollution can impact individual species from disturbance to mortality if not controlled.
Many species of marine life use noise as a means of survival. Some marine animals use calls during procreation or spawning, fish larvae follow sound to find a place to settle, and certain whales use echolocation to orient themselves or find food. Following are just some cases of animals that have been directly affected by ocean noise.
Whales
Researchers studying humpback whales in Glacier Bay National Park, United States, documented the effects of high noise exposure from tourism vessels. In competition with these vessels, the whales increased the amplitude of their voice by 0.8 decibels with every 1.0 decibel increase in ambient noise. However, they also vocalized less frequently.
Meanwhile, a 2028 study looking at humpback whales in Japan’s Ogasawara Islands observed that the whales stopped vocalizing altogether when a cargo vessel passed within 1,400 meters, ununderscoring yet again how noise pollution can negatively impact these marine life.
Fish
Sound can be detected in two sensory systems in fish, with one system based on water motion and low frequency and the other being a frequency-dependent hearing system. Fish can, in general, hear best between frequencies of 30 to 1000 Hertz. When observing settling patterns in fish, many species use sound to orient themselves. One study found that damselfish that were conditioned to artificial noise actually became attracted to the noise, while those that were conditioned to noise from coral reefs avoided artificial noise. The authors concluded that artificial noise can cause confusion in animal species and disrupt orientation, and in doing so, could weaken the population.
Zooplankton
Microscopic zooplankton can be killed by the noise from a single seismic airgun. Zooplankton provides a source of food for the whole ocean ecosystem, but researchers have observed that airgun activity can reduce the number of zooplankton by half, which causes a lack of source of food for marine life. In the study, all immature krill were killed, and some zooplankton species decreased in number above 95%. This impact was observed up to 1.5 hours after the airgun had passed—note that most seismic surveys employ 18 to 48 airguns.
What Can Be Done?
The only certain way to lower the risk of impact is noise abatement—as in, reducing the amount of noise pollution entering the marine environment in the first place. This can be achieved by reducing noise emitted at the source, and by reducing the amount of noise-generating activity.
A study looking at noise abatement set out to determine the best twat o design noise abatement measures, concluding that, “broadly speaking, policy measures to manage environmental pollution can be categorised as command-and-control (CAC) approaches or incentive-based measures (IBMs), also known as market-based measures.” CAC approaches would come in the form of mandatory measures. IBMs include cap-and-trade scenarios, “where transferable pollution permits are traded among polluters (affording control over cumulative pollution levels via the total number of permits), or through economic incentives, which encourage pollution reduction through subsidies or taxes linked to emissions.”
The authors conclude: “As climate change and increasing human use of the oceans put growing strain on marine ecosystems, noise abatement presents a relatively tractable policy option to help reduce the cumulative burden of anthropogenic pressure on Earth’s marine habitats.”