Author
Listed:
- Terrie M. Williams
(Center for Ocean Health, University of California Santa Cruz)
- Lee A. Fuiman
(Marine Science Institute, The University of Texas at Austin)
- Traci Kendall
(Center for Ocean Health, University of California Santa Cruz)
- Patrick Berry
(Epcot’s The Seas—Walt Disney World Resorts
Present address: Gulfarium, Fort Walton Beach, Florida 32548 USA)
- Beau Richter
(Center for Ocean Health, University of California Santa Cruz)
- Shawn R. Noren
(Center for Ocean Health, University of California Santa Cruz)
- Nicole Thometz
(Center for Ocean Health, University of California Santa Cruz)
- Michael J. Shattock
(The Rayne Institute, St Thomas’ Hospital)
- Edward Farrell
(Marine Science Institute, The University of Texas at Austin)
- Andy M. Stamper
(Epcot’s The Seas—Walt Disney World Resorts)
- Randall W. Davis
(Texas A&M University, 200 Seawolf Parkway, Ocean and Coastal Sciences Building)
Abstract
Unlike their terrestrial ancestors, marine mammals routinely confront extreme physiological and physical challenges while breath-holding and pursuing prey at depth. To determine how cetaceans and pinnipeds accomplish deep-sea chases, we deployed animal-borne instruments that recorded high-resolution electrocardiograms, behaviour and flipper accelerations of bottlenose dolphins (Tursiops truncatus) and Weddell seals (Leptonychotes weddellii) diving from the surface to >200 m. Here we report that both exercise and depth alter the bradycardia associated with the dive response, with the greatest impacts at depths inducing lung collapse. Unexpectedly, cardiac arrhythmias occurred in >73% of deep, aerobic dives, which we attribute to the interplay between sympathetic and parasympathetic drivers for exercise and diving, respectively. Such marked cardiac variability alters the common view of a stereotypic ‘dive reflex’ in diving mammals. It also suggests the persistence of ancestral terrestrial traits in cardiac function that may help explain the unique sensitivity of some deep-diving marine mammals to anthropogenic disturbances.
Suggested Citation
Terrie M. Williams & Lee A. Fuiman & Traci Kendall & Patrick Berry & Beau Richter & Shawn R. Noren & Nicole Thometz & Michael J. Shattock & Edward Farrell & Andy M. Stamper & Randall W. Davis, 2015.
"Exercise at depth alters bradycardia and incidence of cardiac anomalies in deep-diving marine mammals,"
Nature Communications, Nature, vol. 6(1), pages 1-9, May.
Handle:
RePEc:nat:natcom:v:6:y:2015:i:1:d:10.1038_ncomms7055
DOI: 10.1038/ncomms7055
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