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| Main Authors: | , , , , , , , |
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| Format: | Artículo científico |
| Language: | en |
| Published: |
The Journal of the Acoustical Society of America
2025
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| Subjects: | |
| Online Access: | https://pubmed.ncbi.nlm.nih.gov/41363886/ |
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| _version_ | 1868266114441543680 |
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| author | Mooney, T Aran Weiss, Benjamin S Aoki, Nadège Formel, Nathan Jarriel, Sierra Jézéquel, Youenn Zhang, Weifeng Gordon Apprill, Amy |
| author_facet | Mooney, T Aran Weiss, Benjamin S Aoki, Nadège Formel, Nathan Jarriel, Sierra Jézéquel, Youenn Zhang, Weifeng Gordon Apprill, Amy Mooney, T Aran Weiss, Benjamin S Aoki, Nadège Formel, Nathan Jarriel, Sierra Jézéquel, Youenn Zhang, Weifeng Gordon Apprill, Amy |
| collection | PubMed - marine biology |
| contents | RAPS: A self-contained reef acoustic playback system for underwater soundscape enrichment, larval settlement, and eco-acoustic studiesa). Mooney, T Aran Weiss, Benjamin S Aoki, Nadège Formel, Nathan Jarriel, Sierra Jézéquel, Youenn Zhang, Weifeng Gordon Apprill, Amy Animals Acoustics Coral Reefs Larva Sound Noise Anthozoa Equipment Design Time Factors Cues Amidst rapidly changing ocean soundscapes, research is still unraveling how marine animals use sound to communicate, detect predators, seek prey, and find suitable habitat. These vital behaviors may also be impacted by anthropogenic noise. Here, we describe a new tool, a Reef Acoustic Playback System, or RAPS, designed to be a cost-effective, extended-duration device that allows researchers to remotely and replay sound cues, manipulate soundscapes, and introduce "noise" into field-based experiments to address key questions regarding sound use or noise impacts within ocean ecology and conservation. The RAPS, outlined herein, has been deployed in the field for days to weeks, powered by renewable solar energy. The tool has been proven to be flexible in applications and robust to a range of ocean conditions. We outline the tool and describe several use cases, including use of the RAPS to replay healthy soundscapes to enhance the settlement of coral larvae, a fundamental ecological process sustaining coral reefs. Fundamentally, the RAPS is a new, potentially scalable means of supporting both healthy and imperiled reefs undergoing restoration, enhancing settlement of reef larvae, and broadening our ability to conduct a range of acoustic behavior studies. |
| format | Artículo científico |
| id | pubmed_41363886 |
| institution | PubMed |
| language | en |
| publishDate | 2025 |
| publisher | The Journal of the Acoustical Society of America |
| record_format | pubmed |
| spellingShingle | RAPS: A self-contained reef acoustic playback system for underwater soundscape enrichment, larval settlement, and eco-acoustic studiesa). Mooney, T Aran Weiss, Benjamin S Aoki, Nadège Formel, Nathan Jarriel, Sierra Jézéquel, Youenn Zhang, Weifeng Gordon Apprill, Amy Animals Acoustics Coral Reefs Larva Sound Noise Anthozoa Equipment Design Time Factors Cues RAPS: A self-contained reef acoustic playback system for underwater soundscape enrichment, larval settlement, and eco-acoustic studiesa). Mooney, T Aran Weiss, Benjamin S Aoki, Nadège Formel, Nathan Jarriel, Sierra Jézéquel, Youenn Zhang, Weifeng Gordon Apprill, Amy Animals Acoustics Coral Reefs Larva Sound Noise Anthozoa Equipment Design Time Factors Cues Amidst rapidly changing ocean soundscapes, research is still unraveling how marine animals use sound to communicate, detect predators, seek prey, and find suitable habitat. These vital behaviors may also be impacted by anthropogenic noise. Here, we describe a new tool, a Reef Acoustic Playback System, or RAPS, designed to be a cost-effective, extended-duration device that allows researchers to remotely and replay sound cues, manipulate soundscapes, and introduce "noise" into field-based experiments to address key questions regarding sound use or noise impacts within ocean ecology and conservation. The RAPS, outlined herein, has been deployed in the field for days to weeks, powered by renewable solar energy. The tool has been proven to be flexible in applications and robust to a range of ocean conditions. We outline the tool and describe several use cases, including use of the RAPS to replay healthy soundscapes to enhance the settlement of coral larvae, a fundamental ecological process sustaining coral reefs. Fundamentally, the RAPS is a new, potentially scalable means of supporting both healthy and imperiled reefs undergoing restoration, enhancing settlement of reef larvae, and broadening our ability to conduct a range of acoustic behavior studies. |
| title | RAPS: A self-contained reef acoustic playback system for underwater soundscape enrichment, larval settlement, and eco-acoustic studiesa). |
| topic | Animals Acoustics Coral Reefs Larva Sound Noise Anthozoa Equipment Design Time Factors Cues |
| url | https://pubmed.ncbi.nlm.nih.gov/41363886/ |