Experimental field studies to measure behavioral responses of cetaceans to sonar

Published

Journal Article (Review)

© The authors 2016. Substantial recent progress has been made in directly measuring behavioral re - sponses of free-ranging marine mammals to sound using controlled exposure experiments. Many studies were motivated by concerns about observed and potential negative effects of military sonar, including stranding events. Well-established experimental methods and increasingly sophisticated technologies have enabled fine-resolution measurement of many aspects of baseline behavior and responses to sonar. Studies have considered increasingly diverse taxa, but primarily odontocete and mysticete cetaceans that are endangered, particularly sensitive, or frequently exposed to sonar. This review focuses on recent field experiments studying cetacean responses to simulated or actual active military sonars in the 1 to 8 kHz band. Overall results demonstrate that some individuals of different species display clear yet varied responses, some of which have negative implications, while others appear to tolerate relatively high levels, although such exposures may have other consequences not measured. Responses were highly variable and may not be fully predictable with simple acoustic exposure metrics (e.g. received sound level). Rather, differences among species and individuals along with contextual aspects of exposure (e.g. be - havioral state) appear to affect response probability. These controlled experiments provide critically needed documentation of identified behavioral responses occurring upon known sonar exposures, and they directly inform regulatory assessments of potential effects. They also inform more targeted opportunistic monitoring of potential responses of animals during sonar operations and have stimulated adaptations of field methods to consider increasingly realistic exposure scenarios and how contextual factors such as behavioral state and source proximity influence response type and probability.

Full Text

Duke Authors

Cited Authors

  • Southall, BL; Nowacek, DP; Miller, PJO; Tyack, PL

Published Date

  • January 1, 2016

Published In

Volume / Issue

  • 31 / 1

Start / End Page

  • 293 - 315

Electronic International Standard Serial Number (EISSN)

  • 1613-4796

International Standard Serial Number (ISSN)

  • 1863-5407

Digital Object Identifier (DOI)

  • 10.3354/esr00764

Citation Source

  • Scopus