Integrative Studies of Southern Ocean Food-Webs and Pygoscelis Penguin Demography: Mechanisms of Population Response to Environmental Change

Unraveling the proximate physiological, ecological and evolutionary mechanisms that underlie population responses to environmental variability is an increasingly important challenge facing conservation biologists and is the primary motivation of this thesis. I studied Pygoscelis penguins that breed...

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Bibliographic Details
Main Author: Gorman, Kristen Beth
Format: Thesis
Language:unknown
Published: 2015
Subjects:
Southern Ocean
Charcot
Anvers
Anvers Island
Charcot Island
Antarc*
Antarctica
Sea ice
Online Access:http://summit.sfu.ca/item/15610
id ftsimonfu:oai:summit.sfu.ca:15610
record_format openpolar
spelling ftsimonfu:oai:summit.sfu.ca:15610 2023-05-15T13:32:14+02:00 Integrative Studies of Southern Ocean Food-Webs and Pygoscelis Penguin Demography: Mechanisms of Population Response to Environmental Change Gorman, Kristen Beth 2015-01-08 http://summit.sfu.ca/item/15610 unknown etd9033 http://summit.sfu.ca/item/15610 Thesis 2015 ftsimonfu 2022-04-07T18:40:01Z Unraveling the proximate physiological, ecological and evolutionary mechanisms that underlie population responses to environmental variability is an increasingly important challenge facing conservation biologists and is the primary motivation of this thesis. I studied Pygoscelis penguins that breed west of the Antarctica Peninsula (AP). Here, breeding populations of Adélie (P. adeliae), chinstrap (P. antarctica) and gentoo (P. papua) penguins are undergoing pole-ward range shifts that correlate with long-term warming trends of the region. However, mechanistic relationships that link marine ecosystem variability with demographic parameters that drive population change are rarely quantified. My data support the following conclusions. At Anvers Island, where reductions in sea ice have been notable, Pygoscelis penguins became more similar isotopically throughout the breeding season, due to a depletion in δ13C and δ15N of blood tissue. Here, crèched chicks of all species occupied similar trophic levels and isotopic mixing models indicated that the proportions of prey provisioned to crèched chicks were generally similar across species within years. Crèched Adélie chicks were isotopically enriched at Avian and Charcot Islands, southern rookeries where sea ice is more prominent, and their trophic level increased with latitude. Penguin food-webs are isotopically wider in regions with greater sea ice coverage. Molecular primers (P2/P8) amplified DNA of all species to discern sex. At Anvers Island, I detected little evidence of trophic foraging influencing body and egg mass of adult penguins and chick body mass. However, regional analyses suggested that a provisioning diet enriched in δ15N, such as that found at southern rookeries, resulted in heavier five-week-old Adélie penguin chicks. Corticosterone hormone did not mediate individual variation in Pygoscelis breeding performance. I found no overall genetic structure among Adélie penguins based on microsatellite and mitochondrial DNA markers, however, pairwise comparisons including Charcot Island were significant. Gene flow was asymmetrical from the species’ regional core to its northern range. In conclusion, variability in sea ice-associated food-webs of the western AP is an important determinant of Pygoscelis penguin reproductive performance, but not at the physiological level. A lack of genetic structure implicates dispersal as an important demographic factor that may structure population responses to future ecosystem change. Thesis Antarc* Antarctica Anvers Island Charcot Island Sea ice Southern Ocean Summit - SFU Research Repository (Simon Fraser University) Southern Ocean Charcot ENVELOPE(139.017,139.017,-69.367,-69.367) Anvers ENVELOPE(-63.500,-63.500,-64.600,-64.600) Anvers Island ENVELOPE(-63.500,-63.500,-64.600,-64.600) Charcot Island ENVELOPE(-75.250,-75.250,-69.750,-69.750)
institution Open Polar
collection Summit - SFU Research Repository (Simon Fraser University)
op_collection_id ftsimonfu
language unknown
description Unraveling the proximate physiological, ecological and evolutionary mechanisms that underlie population responses to environmental variability is an increasingly important challenge facing conservation biologists and is the primary motivation of this thesis. I studied Pygoscelis penguins that breed west of the Antarctica Peninsula (AP). Here, breeding populations of Adélie (P. adeliae), chinstrap (P. antarctica) and gentoo (P. papua) penguins are undergoing pole-ward range shifts that correlate with long-term warming trends of the region. However, mechanistic relationships that link marine ecosystem variability with demographic parameters that drive population change are rarely quantified. My data support the following conclusions. At Anvers Island, where reductions in sea ice have been notable, Pygoscelis penguins became more similar isotopically throughout the breeding season, due to a depletion in δ13C and δ15N of blood tissue. Here, crèched chicks of all species occupied similar trophic levels and isotopic mixing models indicated that the proportions of prey provisioned to crèched chicks were generally similar across species within years. Crèched Adélie chicks were isotopically enriched at Avian and Charcot Islands, southern rookeries where sea ice is more prominent, and their trophic level increased with latitude. Penguin food-webs are isotopically wider in regions with greater sea ice coverage. Molecular primers (P2/P8) amplified DNA of all species to discern sex. At Anvers Island, I detected little evidence of trophic foraging influencing body and egg mass of adult penguins and chick body mass. However, regional analyses suggested that a provisioning diet enriched in δ15N, such as that found at southern rookeries, resulted in heavier five-week-old Adélie penguin chicks. Corticosterone hormone did not mediate individual variation in Pygoscelis breeding performance. I found no overall genetic structure among Adélie penguins based on microsatellite and mitochondrial DNA markers, however, pairwise comparisons including Charcot Island were significant. Gene flow was asymmetrical from the species’ regional core to its northern range. In conclusion, variability in sea ice-associated food-webs of the western AP is an important determinant of Pygoscelis penguin reproductive performance, but not at the physiological level. A lack of genetic structure implicates dispersal as an important demographic factor that may structure population responses to future ecosystem change.
format Thesis
author Gorman, Kristen Beth
spellingShingle Gorman, Kristen Beth
Integrative Studies of Southern Ocean Food-Webs and Pygoscelis Penguin Demography: Mechanisms of Population Response to Environmental Change
author_facet Gorman, Kristen Beth
author_sort Gorman, Kristen Beth
title Integrative Studies of Southern Ocean Food-Webs and Pygoscelis Penguin Demography: Mechanisms of Population Response to Environmental Change
title_short Integrative Studies of Southern Ocean Food-Webs and Pygoscelis Penguin Demography: Mechanisms of Population Response to Environmental Change
title_full Integrative Studies of Southern Ocean Food-Webs and Pygoscelis Penguin Demography: Mechanisms of Population Response to Environmental Change
title_fullStr Integrative Studies of Southern Ocean Food-Webs and Pygoscelis Penguin Demography: Mechanisms of Population Response to Environmental Change
title_full_unstemmed Integrative Studies of Southern Ocean Food-Webs and Pygoscelis Penguin Demography: Mechanisms of Population Response to Environmental Change
title_sort integrative studies of southern ocean food-webs and pygoscelis penguin demography: mechanisms of population response to environmental change
publishDate 2015
url http://summit.sfu.ca/item/15610
long_lat ENVELOPE(139.017,139.017,-69.367,-69.367)
ENVELOPE(-63.500,-63.500,-64.600,-64.600)
ENVELOPE(-63.500,-63.500,-64.600,-64.600)
ENVELOPE(-75.250,-75.250,-69.750,-69.750)
geographic Southern Ocean
Charcot
Anvers
Anvers Island
Charcot Island
geographic_facet Southern Ocean
Charcot
Anvers
Anvers Island
Charcot Island
genre Antarc*
Antarctica
Anvers Island
Charcot Island
Sea ice
Southern Ocean
genre_facet Antarc*
Antarctica
Anvers Island
Charcot Island
Sea ice
Southern Ocean
op_relation etd9033
http://summit.sfu.ca/item/15610
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