News Release

Direct hearing tests show that minke whales can hear high-frequency sounds

Summary author: Walter Beckwith

Peer-Reviewed Publication

American Association for the Advancement of Science (AAAS)

For the first time, scientists have directly measured the hearing range of minke whales, discovering that the species can detect high-frequency sounds as high as 90 kilohertz (kHz), according to a new study, demonstrating hearing sensitivity far greater than previously believed. The findings suggest that baleen whales – the planet’s largest mammals – may be even more impacted by anthropogenic ocean noise than currently recognized but have been excluded from regulatory consideration due to underestimated hearing ranges. Concerns about the impacts of anthropogenic noise on marine mammals have been a focus for decades, largely because of several notable research initiatives and high-profile whale stranding events linked to naval sonar noise activity. As a result, substantial progress has been made in developing criteria and thresholds for evaluating impacts on marine mammals exposed to anthropogenic noise. Although researchers have suggested using behavioral changes, hearing damage (primarily noise-induced hearing loss), and other physical effects as ways to measure the impact of noise on marine mammals, setting clear thresholds is challenging because different species of marine mammals respond to noise in widely varying and poorly understood ways. Audiograms – graphs illustrating an animal's hearing sensitivity – are essential for identifying the sound frequencies that affect marine mammals. However, while audiograms are available for at least one representative species in most major marine mammal groups, none exist for baleen whales, as their large size makes traditional hearing tests impractical. Current estimates of baleen whale hearing rely on indirect methods like vocalization analysis, anatomical modeling, and behavioral studies.

 

To better understand how ocean noise impacts baleen whales, Dorian Houser and colleagues developed a novel catch-and-release method to temporally hold adolescent minke whales (Balaenoptera acutorostrata) for auditory evoked potential (AEP) tests, which estimate hearing sensitivity by measuring electrical signals produced in the brain in response to sound. Leveraging a natural channel between two islands in Norway, and a system of net barriers, Houser et al. contained two adolescent minke whales making their norward migration. AEPs were recorded noninvasively via gold-plated electrodes temporarily attached to the whales’ skin, and acoustic stimuli were delivered through a nearby underwater sound transducer. While it has been assumed that baleen whales are exclusively low-frequency hearing specialists, the authors discovered that minke whales can detect frequencies as high as 45 to 90 kHz – a range much higher than previously believed based upon their ear anatomy and the frequencies at which they vocalize.

 

Podcast: A segment of Science's weekly podcast with Dorian Houser, related to this research, will be available on the Science.org podcast landing page after the embargo lifts. Reporters are free to make use of the segments for broadcast purposes and/or quote from them – with appropriate attribution (i.e., cite "Science podcast"). Please note that the file itself should not be posted to any other Web site.


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