RESEARCH PUBLICATION

A Comparison of Diving Behavior of Goose-Beaked and Dense-Beaked Whales From Tagging Studies in Multiple Ocean Basins

By Jay Barlow, Robin W. Baird, Janelle Badger, Gregory S. Schorr, Erin A. Falcone, Shannon N. Coates, Peter L. Tyack, Andrew J. Read, Leigh S. Hickmott, John W. Durban, Diane Claridge, Natacha Aguilar de Soto, Daniel Miranda Gonzalez, Fleur Visser, Machiel G. Oudejans, Stacy DeRuiter, David A. Sweeney, Brenda K. Rone, Stephanie L. Watwood

Originally published in Marine Mammal Science in September 2025

wave

Abstract

Studies of cetacean diving behavior in multiple locations in different ocean basins allow for an assessment of variability within and among populations. We examine foraging dive behaviors of goose-beaked whales (Ziphius cavirostris) and dense-beaked whales (Mesoplodon densirostris) using data from 132 tagged whales in seven locations in the Pacific and Atlantic Oceans and the Mediterranean Sea. Acoustic recording tags are used to identify foraging dives by the presence of echolocation. For other tag types, foraging dives are identified based on maximum dive depth. Five parameters are used to characterize foraging dives: maximum dive depth, foraging dive duration, dive cycle duration, and the mean and standard deviation of echolocation depths. We find that differences among dives within one tagged individual are typically larger than the differences among individuals or among locations, and that differences among individuals are typically similar in magnitude to differences among locations. Regression is used to estimate the mean and standard deviation of echolocation depths from maximum dive depth for dives without acoustic data. Composite values of foraging dive parameters (and standard deviations) are estimated as the average of all study locations.

Full Text

Affiliated Authors
  • John Durban, Ph.D.

    John Durban, PhD, Senior Scientist and Department Chair, Ecology, Mapping and Assessment of Marine Populations, Anderson Cabot Center for Ocean Life

    Read bio
wave

Research That Drives Action

Through pioneering conservation research and strategic partnerships, our team of 40 scientists at the Anderson Cabot Center for Ocean Life works to combat the unprecedented impacts on the ocean from climate change and other human activities.

wave