Extreme diving in mammals: first estimates of behavioural aerobic dive limits in Cuvier's beaked whales.

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2020-09-23

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Abstract

We analysed 3680 dives from 23 satellite-linked tags deployed on Cuvier's beaked whales to assess the relationship between long duration dives and inter-deep dive intervals and to estimate aerobic dive limit (ADL). The median duration of presumed foraging dives was 59 min and 5% of dives exceeded 77.7 min. We found no relationship between the longest 5% of dive durations and the following inter-deep dive interval nor any relationship with the ventilation period immediately prior to or following a long dive. We suggest that Cuvier's beaked whales have low metabolic rates, high oxygen storage capacities and a high acid-buffering capacity to deal with the by-products of both aerobic and anaerobic metabolism, which enables them to extend dive durations and exploit their bathypelagic foraging habitats.

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ADL, Dive duration, Diving behaviour, Metabolic rate, Ziphius cavirostris

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https://hdl.handle.net/10161/21562

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10.1242/jeb.222109

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Quick, Nicola J, William R Cioffi, Jeanne M Shearer, Andreas Fahlman and Andrew J Read (2020). Extreme diving in mammals: first estimates of behavioural aerobic dive limits in Cuvier's beaked whales. J Exp Biol, 223(Pt 18). pp. jeb222109–jeb222109. 10.1242/jeb.222109 Retrieved from https://hdl.handle.net/10161/21562.

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Quick

Nicola Quick

Adjunct Assistant Professor of Marine Science and Conservation

Dr Nicola J. Quick is an Adjunct Assistant Professor at the Nicholas School of the Environment and a Lecturer in Marine Conservation at the University of Plymouth, UK. Dr Quick holds a PhD in animal behavior and acoustics from The University of St Andrews, Scotland, UK. Dr Quick conducts research on the acoustic behavior of marine mammals and the effects of anthropogenic noise on cetaceans. Dr Quick has produced a number of high level reports and peer reviewed publications for a range of sectors including the US, German and UK military, large oil and gas producers, the wind and wet renewables industries, the British and Scottish governments, statutory regulators and academic institutions.



Andreas Fahlman

Adjunct Associate Professor in the Division of Marine Science and Conservation
Read

Andrew J Read

Stephen A. Toth Distinguished Professor of Marine Biology in the Nicholas School of the Environment

I study the conservation biology of long-lived marine vertebrates, particularly marine mammals, seabirds and sea turtles. My work, and that of my students, documents the effects of human activities on populations of these species. Our work involves field work, experimentation and modeling. I am particularly interested in the development and application of new conservation tools.

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