Litcius/Paper detail

An empirical model for wind-generated ocean noise

John A. Hildebrand, Kaitlin E. Frasier, Simone Baumann‐Pickering, Sean M. Wiggins

2021The Journal of the Acoustical Society of America63 citationsDOIOpen Access PDF

Abstract

An empirical model for wind-generated underwater noise is presented that was developed using an extensive dataset of acoustic field recordings and a global wind model. These data encompass more than one hundred years of recording-time and capture high wind events, and were collected both on shallow continental shelves and in open ocean deep-water settings. The model aims to explicitly separate noise generated by wind-related sources from noise produced by anthropogenic sources. Two key wind-related sound-generating mechanisms considered are: surface wave and turbulence interactions, and bubble and bubble cloud oscillations. The model for wind-generated noise shows small frequency dependence (5 dB/decade) at low frequencies (10-100 Hz), and larger frequency dependence (∼15 dB/decade) at higher frequencies (400 Hz-20 kHz). The relationship between noise level and wind speed is linear for low wind speeds (<3.3 m/s) and increases to a higher power law (two or three) at higher wind speeds, suggesting a transition between surface wave/turbulence and bubble source mechanisms. At the highest wind speeds (>15 m/s), noise levels begin to decrease at high frequencies (>10 kHz), likely due to interaction between bubbles and screening of noise radiation in the presence of high-density bubble clouds.

Topics & Concepts

Noise (video)Wind speedBubbleTurbulencePhysicsEnvironmental scienceMeteorologyAmbient noise levelWind waveAcousticsUnderwaterWind profile power lawAtmospheric sciencesGeologyMechanicsSound (geography)OceanographyComputer scienceThermodynamicsArtificial intelligenceImage (mathematics)Underwater Acoustics ResearchMarine animal studies overviewOceanographic and Atmospheric Processes