Respiration cycle duration and seawater flux through open blowholes of humpback (Megaptera novaeangliae) and North Atlantic right (Eubalaena glacialis) whales

Little is known about the dynamics of baleen whale respiratory cycles, especially the mechanics and activity of the blowholes and their interaction with seawater. In this study, the duration of complete respiration cycles (expiration/inhalation events) were quantified for the first time in two speci...

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Bibliographic Details
Main Authors: Iruzun Martins, MC, Miller, C, Hamilton, P, Robbins, J, Zitterbart, DP, Moore, M
Format: Article in Journal/Newspaper
Language:English
Published: WILEY 2020
Subjects:
humpback whale
North Atlantic right whale
respiratory cycle
respiratory health
unoccupied aerial systems
baleen whale
baleen whales
Eubalaena glacialis
Humpback Whale
Megaptera novaeangliae
North Atlantic
Online Access:https://discovery.ucl.ac.uk/id/eprint/10116353/1/Iruzun%20Martins_mms.12703.pdf
https://discovery.ucl.ac.uk/id/eprint/10116353/
Description
Summary:Little is known about the dynamics of baleen whale respiratory cycles, especially the mechanics and activity of the blowholes and their interaction with seawater. In this study, the duration of complete respiration cycles (expiration/inhalation events) were quantified for the first time in two species: North Atlantic right whale (NARW) and humpback whale (HW) using high resolution, detailed imagery from an unoccupied aerial system (UAS). The mean duration of complete respiration cycles (expiration/inhalation event) in the NARW and HW were 3.07 s (SD = 0.503, n = 15) and 2.85 s (SD = 0.581, n = 21), respectively. Furthermore, we saw no significant differences in respiration cycle duration between age and sex classes in the NARW, but significant differences were observed between age classes in the HW. The observation of seawater covering an open blowhole was also quantified, with NARW having 20% of all breaths with seawater presence versus 90% in HW. Seawater incursion has not been described previously and challenges the general consensus that water does not enter the respiratory tract in baleen whales. Prevalent seawater has implications for the analysis and interpretation of exhaled respiratory vapor/mucosa samples, as well as for the potential inhalation of oil in spills.

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