Underwater noise is considered an emergent pollutant negatively affecting marine fauna; however, its effects on marine invertebrates are almost unknown. In the frame of the project DeuteroNoise, financed by JPI Oceans, we tested the effects of anthropogenic underwater noise on the behavioral performances and physiology of Deuterostome species. Experimental designs for noise exposure in the laboratory were performed inside tanks and directed toward each species studied. For all species, the playback experiments were performed inside water tanks using an underwater speaker connected to an amplifier and a computer. The animals were exposed to pink noise (higher intensities at 63-125 Hz) at different intensities. Behavioral and physiological responses varied among species depending on the anatomy of their sensitive system and the studied response (e.g. movement, development, heartbeat).
Zambon, G., Sabbadin, G., Manni, L., Benocci, R., Candiani, S., Bozzo, M., et al. (2024). The European DeuteroNoise project: impact of anthropogenic noise on marine invertebrate deuterostomes. In 53rd International Congress and Exposition on Noise Control Engineering, Internoise 2024 - 25 August 2024 - 29 August 2024 (pp.9972-9976). Societe Francaise d'Acoustique [10.3397/in_2024_4332].
The European DeuteroNoise project: impact of anthropogenic noise on marine invertebrate deuterostomes
Zambon G.;Benocci R.;Zaffaroni-Caorsi V.
2024
Abstract
Underwater noise is considered an emergent pollutant negatively affecting marine fauna; however, its effects on marine invertebrates are almost unknown. In the frame of the project DeuteroNoise, financed by JPI Oceans, we tested the effects of anthropogenic underwater noise on the behavioral performances and physiology of Deuterostome species. Experimental designs for noise exposure in the laboratory were performed inside tanks and directed toward each species studied. For all species, the playback experiments were performed inside water tanks using an underwater speaker connected to an amplifier and a computer. The animals were exposed to pink noise (higher intensities at 63-125 Hz) at different intensities. Behavioral and physiological responses varied among species depending on the anatomy of their sensitive system and the studied response (e.g. movement, development, heartbeat).
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