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Listen Up: Oysters May Use Sound to Select a Home

Oysters begin their lives as tiny drifters, but when they mature they settle on reefs. New research from North Carolina State University shows that the sounds of the reef may attract the young oysters, helping them locate their permanent home.

Larval oysters are planktonic, meaning that they cannot swim against or across currents. However, they do have the ability to move up and down within the column of water that they’re in. As they mature, they develop a muscular “foot” that they can use to sense the terrain along the ocean floor. When they find the right spot, they attach themselves and remain there throughout their lives.

Ashlee Lillis, an NC State Ph.D. candidate in marine sciences, wondered how the tiny oysters knew when to drop down and start looking for a home. Scientists know that larval oysters and other bivalves, like clams, respond to some chemical and physical signals in seawater, but Lillis wondered if the sound of the reef played a role.

“When you’re as small as these larvae, even if you’re only 10 or 15 feet up in a water column you wouldn’t have any real sense of where you were in terms of the seafloor beneath you,” Lillis says. “But an ocean reef has very loud, distinct sounds associated with it. They’re noisy enough to be heard by scuba divers and snorkelers. Even though oysters don’t have ears and hear like we do, they might be able to sense the vibration from the sounds of the reef.”

Lillis and her adviser David Eggleston, professor of marine sciences, decided to test the hypothesis. With help from NC State geophysicist Del Bohnenstiehl, the team first made underwater sound recordings of oyster reefs and the open seafloor. Then they tested larval oysters in the wild and in the lab to determine if the settlement rates increased when they were exposed to reef sounds versus those from further out.

The team found an increased settlement rate in both the lab and the wild when the larvae were exposed to reef sounds. Their results appear in PLOS ONE.

“The ocean has different soundscapes, just like on land,” Lillis says. “Living in a reef is like living in a busy urban area: there are a lot of residents, a lot of activity and a lot of noise. By comparison, the seafloor is more like living in the quiet countryside.

“This research is the first step in establishing what normal, healthy reef environments sound like,” Lillis adds. “If we can figure out how the noise impacts oysters it may give us strategies for establishing new oyster beds. It might also give us a noninvasive method for keeping tabs on the health of our undersea reefs.”

Lillis’ soundscape recordings are available online at: www.soundscapes.cmast.ncsu.edu. The research was funded by the National Science Foundation (OCE-1234688).

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Note to editors: Abstract follows.

“Oyster larvae settle in response to habitat-associated underwater sounds”

Authors: Ashlee Lillis, David B. Eggleston, and DelWayne R. Bohnenstiehl, Department of Marine, Earth and Atmospheric Sciences, North Carolina State University
Published: Oct. 30, 2013 in PLOS ONE

Abstract:
Following a planktonic dispersal period of days to months, the larvae of benthic marine organisms must locate suitable seafloor habitat in which to settle and metamorphose. For animals that are sessile or sedentary as adults, settlement onto substrates that are adequate for survival and reproduction is particularly critical, yet represents a challenge since patchily distributed settlement sites may be difficult to find along a coast or within an estuary. Recent studies have demonstrated that the underwater soundscape, the distinct sounds that emanate from habitats and contain information about their biological and physical characteristics, may serve as broad-scale environmental cue for marine larvae to find satisfactory settlement sites. Here, we contrast the acoustic characteristics of oyster reef and off-reef soft bottoms, and investigate the effect of habitat-associated estuarine sound on the settlement patterns of an economically and ecologically important reef-building bivalve, the Eastern oyster (Crassostrea virginica). Subtidal oyster reefs in co astal North Carolina, USA show distinct acoustic signatures compared to adjacent off-reef soft bottom habitats, characterized by consistently higher levels of sound in the 1.5-20 kHz range. Manipulative laboratory playback experiments found increased settlement in larval oyster cultures exposed to oyster reef sound compared to unstructured soft bottom sound or no sound treatments. In field experiments, ambient reef sound produced higher levels of oyster settlement in larval cultures than did off-reef sound treatments. The results suggest that oyster larvae have the ability to respond to sounds indicative of optimal settlement sites, and this is the first evidence that habitat-related differences in estuarine sounds influence the settlement of a mollusk. Habitat-specific sound characteristics may represent an important settlement and habitat selection cue for estuarine invertebrates and could play a role in driving settlement and recruitment patterns in marine communities.