Deep dives and high tissue density increase mean dive costs in California sea lions (Zalophus californianus)

Authors

Mason R. Cole, San Jose State University
Colin Ware, University of New Hampshire Durham
Elizabeth A. McHuron, University of Washington
Daniel P. Costa, University of California, Santa Cruz
Paul J. Ponganis, Scripps Institution of Oceanography
Birgitte I. McDonald, Moss Landing Marine Laboratories

Publication Date

7-1-2023

Document Type

Article

Publication Title

Journal of Experimental Biology

Volume

226

Issue

14

DOI

10.1242/jeb.246059

Abstract

Diving is central to the foraging strategies of many marine mammals and seabirds. Still, the effect of dive depth on foraging cost remains elusive because energy expenditure is difficult to measure at fine temporal scales in wild animals.We used depth and acceleration data from eight lactating California sea lions (Zalophus californianus) to model body density and investigate the effect of dive depth and tissue density on rates of energy expenditure.We calculated body density in 5 s intervals from the rate of gliding descent. We modeled body density across depth in each dive, revealing high tissue densities and diving lung volumes (DLVs). DLV increased with dive depth in four individuals. We used the buoyancy calculated from dive-specific body-density models and drag calculated from swim speed to estimate metabolic power and cost of transport in 5 s intervals during descents and ascents. Deeper dives required greater mean power for round-Trip vertical transit, especially in individuals with higher tissue density. These trends likely follow from increased mean swim speed and buoyant hinderance that increasingly outweighs buoyant aid in deeper dives. This suggests that deep diving is either a high-cost, high-reward strategy or an energetically expensive option to access prey when prey in shallow waters are limited, and that poor body condition may increase the energetic costs of deep diving. These results add to our mechanistic understanding of how foraging strategy and body condition affect energy expenditure in wild breathhold divers.

Funding Number

N000141210633

Funding Sponsor

Office of Naval Research

Keywords

Biologging, Body density, Buoyancy, Dive depth, Energy expenditure, Otariid

Department

Moss Landing Marine Laboratories

Recommended Citation

Mason R. Cole, Colin Ware, Elizabeth A. McHuron, Daniel P. Costa, Paul J. Ponganis, and Birgitte I. McDonald. "Deep dives and high tissue density increase mean dive costs in California sea lions (Zalophus californianus)" Journal of Experimental Biology (2023). https://doi.org/10.1242/jeb.246059