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2 publications listed under Noise pollution

Noise-Induced Annoyance and Sleep Disturbance From Military Aircraft Training

2026 / Sleep, Noise pollution

While much is known about the public health impacts of civil aviation noise, only limited research has investigated the consequences of military aviation noise, despite it first being recognized over half a century ago. The present study conducted a social-acoustic survey to quantify levels of annoyance and sleep disturbance associated with military aviation noise among communities surrounding Naval Air Station Whidbey Island, Washington State, USA, which serves as a training facility for EA-18G Growler aircraft. We conducted a social-acoustic survey of 663 respondents residing in households across a representative range of military aviation noise exposure levels. We report evidence that perceived exposure to military aviation noise is consistent with modeled annual sound levels across the study region and that noise exposure is positively associated with annoyance and sleep disturbance. We also found that reported annoyance is strongly influenced by active or past service in the U.S. Armed Forces and by expressed attitudes toward military operations. Aviation noise disrupted several routine household activities and triggered different coping strategies in affected communities. By highlighting the implications for human well-being of military aviation noise, this research raises questions about the appropriateness of conventional community noise metrics and mitigation approaches for military aircraft noise.

Population Health Implications of Exposure to Pervasive Military Aircraft Noise Pollution

2024 / Health and well-being, Sleep, Noise pollution

Background While the adverse health effects of civil aircraft noise are relatively well studied, impacts associated with more intense and intermittent noise from military aviation have been rarely assessed. In recent years, increased training at Naval Air Station Whidbey Island, USA has raised concerns regarding the public health and well-being implications of noise from military aviation. Objective This study assessed the public health risks of military aircraft noise by developing a systematic workflow that uses acoustic and aircraft operations data to map noise exposure and predict health outcomes at the population scale. Methods Acoustic data encompassing seven years of monitoring efforts were integrated with flight operations data for 2020–2021 and a Department of Defense noise simulation model to characterize the noise regime. The model produced contours for day-night, nighttime, and 24-h average levels, which were validated by field monitoring and mapped to yield the estimated noise burden. Established thresholds and exposure-response relationships were used to predict the population subject to potential noise-related health effects, including annoyance, sleep disturbance, hearing impairment, and delays in childhood learning. Results Over 74,000 people within the area of aircraft noise exposure were at risk of adverse health effects. Of those exposed, substantial numbers were estimated to be highly annoyed and highly sleep disturbed, and several schools were exposed to levels that place them at risk of delay in childhood learning. Noise in some areas exceeded thresholds established by federal regulations for public health, residential land use and noise mitigation action, as well as the ranges of established exposure-response relationships. Impact statement This study quantified the extensive spatial scale and population health burden of noise from military aviation. We employed a novel GIS-based workflow for relating mapped distributions of aircraft noise exposure to a suite of public health outcomes by integrating acoustic monitoring and simulation data with a dasymetric population density map. This approach enables the evaluation of population health impacts due to past, current, and future proposed military operations. Moreover, it can be modified for application to other environmental noise sources and offers an improved open-source tool to assess the population health implications of environmental noise exposure, inform at-risk communities, and guide efforts in noise mitigation and policy governing noise legislation, urban planning, and land use.