Project: Can you hear me now? Estuarine soundscapes and their role in larval settlement

Acronym/Short Name:Larval settlement soundscapes
Project Duration:2012-09 -2016-08
Geolocation:Pamlico Sound, North Carolina

Description

The overall goal of this study is to advance our general understanding of the role of underwater sound in biological oceanography by characterizing spatiotemporal variation in an estuarine soundscape, and determine if this variation affects the settlement of larval invertebrates. The investigators will use larval bivalves and subtidal oyster reefs in Pamlico Sound, North Carolina as a study system. A combination of field and laboratory experiments will be used to test the effects of sound on larval behaviors and settlement. The underwater sonic environment has the potential to provide meaningful sensory information to all aquatic animals. Acoustic signals are transmitted relatively large distances, are present at all depths, and reflect biological and physical characteristics of the environment, while other cues (e.g. light, chemicals) are rapidly attenuated from the source. Sound is well established as an orientation and habitat selection cue for marine mammals and fishes, and has recently emerged as a potentially important contributor to larval settlement. Building capacity (knowledge, expertise, equipment) for integrating geophysical aspects of underwater sound propagation with ecological and oceanographic processes is central to bio-physical studies of larval connectivity and recruitment in marine systems. It also informs our understanding of the potential adverse effects of noise pollution in the ocean and may elucidate untested benefits of marine reserves - ultimately leading to healthier and better managed oceans and estuaries. The project supports graduate, postdoctoral and undergraduate student training, as well as educational outreach programs that span local, regional and national levels



People

Principal Investigator: David B. Eggleston
North Carolina State University - Center for Marine Science and Technology (NCSU CMAST)

Co-Principal Investigator: DelWayne Bohnenstiehl
North Carolina State University - Marine, Earth and Atmospheric Sciences (NCSU MEAS)

Contact: DelWayne Bohnenstiehl
North Carolina State University - Marine, Earth and Atmospheric Sciences (NCSU MEAS)