Energetics of rest and locomotion in diving marine mammals: Novel metrics for predicting the vulnerability of threatened cetacean, pinniped, and sirenian species
Each year, marine mammals are exposed to increasing levels of anthropogenic disturbance. Some disturbances, such as boat strikes and entanglement, directly impact animals through injuries and mortality events. However, indirect effects from disturbances including over-fishing, noise and environmenta...
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ftcdlib:oai:escholarship.org:ark:/13030/qt9bk531f3 2024-09-15T17:59:01+00:00 Energetics of rest and locomotion in diving marine mammals: Novel metrics for predicting the vulnerability of threatened cetacean, pinniped, and sirenian species John, Jason Solouki Wolcott Williams, Terrie M. 2020-01-01 application/pdf https://escholarship.org/uc/item/9bk531f3 https://escholarship.org/content/qt9bk531f3/qt9bk531f3.pdf en eng eScholarship, University of California qt9bk531f3 https://escholarship.org/uc/item/9bk531f3 https://escholarship.org/content/qt9bk531f3/qt9bk531f3.pdf public Physiology Conservation biology acceleration conservation Diving physiology energetics marine mammals etd 2020 ftcdlib 2024-06-28T06:28:23Z Each year, marine mammals are exposed to increasing levels of anthropogenic disturbance. Some disturbances, such as boat strikes and entanglement, directly impact animals through injuries and mortality events. However, indirect effects from disturbances including over-fishing, noise and environmental pollution, declining sea ice cover, and changes in coastal habitats can have significant, though less apparent, impacts as well. These can affect both individuals and populations through declining prey availability, decreased reproductive and juvenile success, declines in body-condition, and increased mortality. Unfortunately, as a result of their cryptic lifestyle, it is difficult to measure the impact of these disturbances on many marine mammal species or predict how they will affect individuals or populations in the future. A better understanding of both maintenance and locomotor energetic demands for these species is needed to quantify the impacts of these disturbances, model the future effects, and predict the capacity of these species to adapt or respond. Using open-flow respirometry and submersible accelerometers, I undertook a comparative physiological study examining four marine mammal species from three different groups. In Chapter 1, I studied the interaction between maintenance and locomotor costs in two coastal marine mammal species living in tropical and subtropical environments, West Indian manatees and Hawaiian monk seals. Although these warm water species exhibited a lower resting metabolic rate (RMR) than their cold-water relatives, I found that this does not confer an energetic advantage during locomotion for these species due to decreased metabolic variability. In Chapter 2, I measured RMR and locomotor costs in beluga whales as the first step towards creating a population consequences of disturbance model to aid conservation of the Cook Inlet beluga whale population. Despite variation in previous metabolic measurements of this species, the measured RMR in this study was consistent with the ... Thesis Beluga Beluga whale Beluga* Sea ice University of California: eScholarship |
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University of California: eScholarship |
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English |
topic |
Physiology Conservation biology acceleration conservation Diving physiology energetics marine mammals |
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Physiology Conservation biology acceleration conservation Diving physiology energetics marine mammals John, Jason Solouki Wolcott Energetics of rest and locomotion in diving marine mammals: Novel metrics for predicting the vulnerability of threatened cetacean, pinniped, and sirenian species |
topic_facet |
Physiology Conservation biology acceleration conservation Diving physiology energetics marine mammals |
description |
Each year, marine mammals are exposed to increasing levels of anthropogenic disturbance. Some disturbances, such as boat strikes and entanglement, directly impact animals through injuries and mortality events. However, indirect effects from disturbances including over-fishing, noise and environmental pollution, declining sea ice cover, and changes in coastal habitats can have significant, though less apparent, impacts as well. These can affect both individuals and populations through declining prey availability, decreased reproductive and juvenile success, declines in body-condition, and increased mortality. Unfortunately, as a result of their cryptic lifestyle, it is difficult to measure the impact of these disturbances on many marine mammal species or predict how they will affect individuals or populations in the future. A better understanding of both maintenance and locomotor energetic demands for these species is needed to quantify the impacts of these disturbances, model the future effects, and predict the capacity of these species to adapt or respond. Using open-flow respirometry and submersible accelerometers, I undertook a comparative physiological study examining four marine mammal species from three different groups. In Chapter 1, I studied the interaction between maintenance and locomotor costs in two coastal marine mammal species living in tropical and subtropical environments, West Indian manatees and Hawaiian monk seals. Although these warm water species exhibited a lower resting metabolic rate (RMR) than their cold-water relatives, I found that this does not confer an energetic advantage during locomotion for these species due to decreased metabolic variability. In Chapter 2, I measured RMR and locomotor costs in beluga whales as the first step towards creating a population consequences of disturbance model to aid conservation of the Cook Inlet beluga whale population. Despite variation in previous metabolic measurements of this species, the measured RMR in this study was consistent with the ... |
author2 |
Williams, Terrie M. |
format |
Thesis |
author |
John, Jason Solouki Wolcott |
author_facet |
John, Jason Solouki Wolcott |
author_sort |
John, Jason Solouki Wolcott |
title |
Energetics of rest and locomotion in diving marine mammals: Novel metrics for predicting the vulnerability of threatened cetacean, pinniped, and sirenian species |
title_short |
Energetics of rest and locomotion in diving marine mammals: Novel metrics for predicting the vulnerability of threatened cetacean, pinniped, and sirenian species |
title_full |
Energetics of rest and locomotion in diving marine mammals: Novel metrics for predicting the vulnerability of threatened cetacean, pinniped, and sirenian species |
title_fullStr |
Energetics of rest and locomotion in diving marine mammals: Novel metrics for predicting the vulnerability of threatened cetacean, pinniped, and sirenian species |
title_full_unstemmed |
Energetics of rest and locomotion in diving marine mammals: Novel metrics for predicting the vulnerability of threatened cetacean, pinniped, and sirenian species |
title_sort |
energetics of rest and locomotion in diving marine mammals: novel metrics for predicting the vulnerability of threatened cetacean, pinniped, and sirenian species |
publisher |
eScholarship, University of California |
publishDate |
2020 |
url |
https://escholarship.org/uc/item/9bk531f3 https://escholarship.org/content/qt9bk531f3/qt9bk531f3.pdf |
genre |
Beluga Beluga whale Beluga* Sea ice |
genre_facet |
Beluga Beluga whale Beluga* Sea ice |
op_relation |
qt9bk531f3 https://escholarship.org/uc/item/9bk531f3 https://escholarship.org/content/qt9bk531f3/qt9bk531f3.pdf |
op_rights |
public |
_version_ |
1810435975237599232 |