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Influence of meteorological conditions and topography on the active space of mountain birds assessed by a wave-based sound propagation model

Arthur Guibard, Frédéric Sèbe, Didier Dragna, Sébastien Ollivier

2022The Journal of the Acoustical Society of America15 citationsDOIOpen Access PDF

Abstract

The active space is a central bioacoustic concept to understand communication networks and animal behavior. Propagation of biological acoustic signals has often been studied in homogeneous environments using an idealized circular active space representation, but few studies have assessed the variations of the active space due to environment heterogeneities and transmitter position. To study these variations for mountain birds like the rock ptarmigan, we developed a sound propagation model based on the parabolic equation method that accounts for the topography, the ground effects, and the meteorological conditions. The comparison of numerical simulations with measurements performed during an experimental campaign in the French Alps confirms the capacity of the model to accurately predict sound levels. We then use this model to show how mountain conditions affect surface and shape of active spaces, with topography being the most significant factor. Our data reveal that singing during display flights is a good strategy to adopt for a transmitter to expand its active space in such an environment. Overall, our study brings new perspectives to investigate the spatiotemporal dynamics of communication networks.

Topics & Concepts

TransmitterSpace (punctuation)Sound propagationPosition (finance)AcousticsSound (geography)GeologyHomogeneousBioacousticsRepresentation (politics)Computer scienceGeophysicsMeteorologyGeographyPhysicsTelecommunicationsStatistical physicsOperating systemPoliticsChannel (broadcasting)FinanceEconomicsPolitical scienceLawAnimal Vocal Communication and BehaviorMarine animal studies overviewAnimal Behavior and Reproduction
Influence of meteorological conditions and topography on the active space of mountain birds assessed by a wave-based sound propagation model | Litcius