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March 13, 2024

Creating soundscapes increases coral larval settlement, study finds

Overview of experimental set-up and study species. Credit: Royal Society Open Science (2024). DOI: 10.1098/rsos.231514
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Overview of experimental set-up and study species. Credit: Royal Society Open Science (2024). DOI: 10.1098/rsos.231514

A team of marine biologists and oceanographers at the Woods Hole Oceanographic Institution in Falmouth, Massachusetts, has found that creating soundscapes for coral larvae encourages them to settle on desired coral reefs.

In their , reported in the journal Royal Society Open Science, the group set up speakers along dead coral reefs to coax into settling into desired environments.

Prior research has shown that warming , increased ocean acidity, pollution, overfishing and over the past several decades have led to coral reefs dying. Some estimates suggest as much as half of all reefs have died since the 1950s.

For this new study, the team built on prior research that has shown coral larvae drop out of when they hear healthy reef sounds, such as splashing fish, when deciding where to settle and eventually metamorphosize.

Due to undersea , coral larvae have found it more difficult to figure out where to settle, and as a result, many of them die. As the environment has changed, fewer fish and other creatures inhabit coral areas, resulting in fewer cues for coral larvae. To overcome this problem, the researchers made sound recordings of healthy and then played the recordings for coral larvae. They determined the larvae were convinced to stop and settle near the speakers.

Overview of experimental coral reef sites. (a) Map of St John, USVI with experimental sites within the Virgin Islands National Park (Cocoloba, Tektite and Salt Pond) marked. White circles denote control sites and black circle denotes experimental playback site. (b鈥揹) Images and percent coverage of major benthic substrate categories observed at each site: algae, hard coral and other (e.g. sand, rock and soft coral). Credit: Royal Society Open Science (2024). DOI: 10.1098/rsos.231514
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Overview of experimental coral reef sites. (a) Map of St John, USVI with experimental sites within the Virgin Islands National Park (Cocoloba, Tektite and Salt Pond) marked. White circles denote control sites and black circle denotes experimental playback site. (b鈥揹) Images and percent coverage of major benthic substrate categories observed at each site: algae, hard coral and other (e.g. sand, rock and soft coral). Credit: Royal Society Open Science (2024). DOI: 10.1098/rsos.231514

The work by the team involved setting up speakers at three separate sites near St. John, Virgin Islands. They placed containers holding coral larvae in the vicinity, along with pieces of ceramic to stand in for dead coral. They then played the recordings they had made near just one of the containers for three days in a row.

In studying the ceramic pieces, they found 1.7 times more larvae had settled on the ones that had been placed near the speakers. They also found settlement rates dropped as the containers were placed farther and farther away from the speakers.

The researchers acknowledge that more work needs to be done before speaker systems are installed at sites where coral has died; mostly to find out if the colonies that are begun by using the speaker technique are able to survive afterward.

More information: Nad猫ge Aoki et al, Soundscape enrichment increases larval settlement rates for the brooding coral Porites astreoides, Royal Society Open Science (2024).

Journal information: Royal Society Open Science

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