Litcius/Paper detail

Analysis of Soundscapes as an Ecological Tool

Renée P. Schoeman, Christine Erbe, Gianni Pavan, Roberta Righini, Jeànette A. Thomas

202228 citationsDOIOpen Access PDF

Abstract

Abstract Soundscapes have been likened to acoustic landscapes, encompassing all the acoustic features of an area. The sounds that make up a soundscape can be grouped according to their source into biophony (sounds from animals), geophony (sounds from atmospheric and geophysical events), and anthropophony (sounds from human activities). Natural soundscapes have changed over time because of human activities that generate sound, alter land-use patterns, remove animals from natural settings, and result in climate change. These human activities have direct and indirect effects on animal distribution patterns and (acoustic) behavior. Consequently, current soundscapes may be very different from those a few hundred years ago. This is of concern as natural soundscapes have ecological value. Losing natural soundscapes may, therefore, result in a loss of biodiversity and ecosystem functioning. The study of soundscapes can identify ecosystems undergoing change and potentially document causes (such as noise from human activities). Methods for studying soundscapes range from listening and creating visual (spectrographic) displays to the computation of acoustic indices and advanced statistical modeling. Passive acoustic recording has become an ecological tool for research, monitoring, and ultimately conservation management. This chapter introduces terrestrial and aquatic soundscapes, soundscape analysis tools, and soundscape management.

Topics & Concepts

SoundscapeActive listeningNatural (archaeology)Natural soundsBiodiversitySound (geography)Noise (video)GeographyEnvironmental scienceEnvironmental resource managementComputer scienceEcologyAcousticsPsychologyCommunicationArtificial intelligenceSpeech recognitionBiologyArchaeologyPhysicsImage (mathematics)Animal Vocal Communication and BehaviorMarine animal studies overviewUnderwater Acoustics Research