Energetics of moulting in phocid seals

The moult in phocid seals is a distinct period when behavioural and physiological changes occur. During this key stage in the annual life cycle animals elevate skin temperature to facilitate proliferation of hair follicle cells as they shed and renew their entire pelage. Due to the physiological con...

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Main Author: Paterson, William David
Format: Thesis
Language:English
Published: University of St Andrews 2019
Subjects:
Elephant Seals
Southern Elephant Seals
Online Access:https://dx.doi.org/10.17630/10023-19111
https://research-repository.st-andrews.ac.uk/handle/10023/19111
id ftdatacite:10.17630/10023-19111
record_format openpolar
spelling ftdatacite:10.17630/10023-19111 2023-05-15T16:05:44+02:00 Energetics of moulting in phocid seals Paterson, William David 2019 https://dx.doi.org/10.17630/10023-19111 https://research-repository.st-andrews.ac.uk/handle/10023/19111 en eng University of St Andrews Text Thesis article-journal ScholarlyArticle 2019 ftdatacite https://doi.org/10.17630/10023-19111 2021-11-05T12:55:41Z The moult in phocid seals is a distinct period when behavioural and physiological changes occur. During this key stage in the annual life cycle animals elevate skin temperature to facilitate proliferation of hair follicle cells as they shed and renew their entire pelage. Due to the physiological constraints of raising skin temperature while in the water animals must haul out on land with increasing duration as the moult proceeds. The overall aim of this thesis was to provide insight into the physiology of moulting in phocid seals and to determine the physiological consequences associated with changes in haulout behaviour caused by anthropogenic disturbance. In harbour seals, metabolic rate was higher during the moult compared to when the moult had finished, particularly during the first 40 minutes after hauling out. Subcutaneous temperature increased at a faster rate and reached a higher asymptote when seals were moulting. High skin temperatures were also recorded in moulting southern elephant seals resulting in increased heat flux to the surrounding environment. Heat loss values equated to animals having a metabolic rate of up to 2.3 x Kleiber. Disturbance trials of harbour seals showed that individuals were highly site faithful to haulout locations despite repeated disturbance. The impact of disturbance is therefore not to cause animals to transition to another site but to increase the frequency with which animals enter the water and the duration of time spent at sea. Similar levels of disturbance may have thermoregulatory consequences when seals are in a moulting state. These results demonstrate physiological changes during the moult that incur an increased metabolic demand. Anthropogenic disturbance that causes seals to enter the water at a higher frequency than normal when moulting may incur a cumulative energetic cost. Mitigation to protect seals at haulout sites during the moult are supported by these findings. Thesis Elephant Seals Southern Elephant Seals DataCite Metadata Store (German National Library of Science and Technology)
institution Open Polar
collection DataCite Metadata Store (German National Library of Science and Technology)
op_collection_id ftdatacite
language English
description The moult in phocid seals is a distinct period when behavioural and physiological changes occur. During this key stage in the annual life cycle animals elevate skin temperature to facilitate proliferation of hair follicle cells as they shed and renew their entire pelage. Due to the physiological constraints of raising skin temperature while in the water animals must haul out on land with increasing duration as the moult proceeds. The overall aim of this thesis was to provide insight into the physiology of moulting in phocid seals and to determine the physiological consequences associated with changes in haulout behaviour caused by anthropogenic disturbance. In harbour seals, metabolic rate was higher during the moult compared to when the moult had finished, particularly during the first 40 minutes after hauling out. Subcutaneous temperature increased at a faster rate and reached a higher asymptote when seals were moulting. High skin temperatures were also recorded in moulting southern elephant seals resulting in increased heat flux to the surrounding environment. Heat loss values equated to animals having a metabolic rate of up to 2.3 x Kleiber. Disturbance trials of harbour seals showed that individuals were highly site faithful to haulout locations despite repeated disturbance. The impact of disturbance is therefore not to cause animals to transition to another site but to increase the frequency with which animals enter the water and the duration of time spent at sea. Similar levels of disturbance may have thermoregulatory consequences when seals are in a moulting state. These results demonstrate physiological changes during the moult that incur an increased metabolic demand. Anthropogenic disturbance that causes seals to enter the water at a higher frequency than normal when moulting may incur a cumulative energetic cost. Mitigation to protect seals at haulout sites during the moult are supported by these findings.
format Thesis
author Paterson, William David
spellingShingle Paterson, William David
Energetics of moulting in phocid seals
author_facet Paterson, William David
author_sort Paterson, William David
title Energetics of moulting in phocid seals
title_short Energetics of moulting in phocid seals
title_full Energetics of moulting in phocid seals
title_fullStr Energetics of moulting in phocid seals
title_full_unstemmed Energetics of moulting in phocid seals
title_sort energetics of moulting in phocid seals
publisher University of St Andrews
publishDate 2019
url https://dx.doi.org/10.17630/10023-19111
https://research-repository.st-andrews.ac.uk/handle/10023/19111
genre Elephant Seals
Southern Elephant Seals
genre_facet Elephant Seals
Southern Elephant Seals
op_doi https://doi.org/10.17630/10023-19111
_version_ 1766401634785558528

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