The impact of climate change on the flowering and fruiting phenology of Arctic plants in Nunavut, Canada

Phenology is the timing of nature’s seasonal events. Ambient temperature plays a key role in phenology and hence, as the climate warms, phenology will likely change. This thesis studied the impact of Arctic climate change on Arctic plant flowering and fruiting phenology in Nunavut, Canada. To establ...

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Bibliographic Details
Main Author: Panchen, Zoe
Format: Thesis
Language:unknown
Published: 2016
Subjects:
Arctic
Canada
Nunavut
Arctic Archipelago
Climate change
Online Access:https://curve.carleton.ca/c7f41c3d-1d58-487d-96c1-8c0967e7eefc
http://catalogue.library.carleton.ca/record=b3942775
https://doi.org/10.22215/etd/2016-11673
id ftcarletonuniv:oai:curve.carleton.ca:26738
record_format openpolar
spelling ftcarletonuniv:oai:curve.carleton.ca:26738 2023-05-15T14:29:01+02:00 The impact of climate change on the flowering and fruiting phenology of Arctic plants in Nunavut, Canada Panchen, Zoe 2016 https://curve.carleton.ca/c7f41c3d-1d58-487d-96c1-8c0967e7eefc http://catalogue.library.carleton.ca/record=b3942775 https://doi.org/10.22215/etd/2016-11673 unknown https://curve.carleton.ca/c7f41c3d-1d58-487d-96c1-8c0967e7eefc http://catalogue.library.carleton.ca/record=b3942775 https://doi.org/10.22215/etd/2016-11673 Thesis/Dissertation 2016 ftcarletonuniv https://doi.org/10.22215/etd/2016-11673 2022-01-23T08:17:04Z Phenology is the timing of nature’s seasonal events. Ambient temperature plays a key role in phenology and hence, as the climate warms, phenology will likely change. This thesis studied the impact of Arctic climate change on Arctic plant flowering and fruiting phenology in Nunavut, Canada. To establish a baseline for current plant phenology, the first question asked was ‘How does flowering phenology vary across Nunavut?’. Contrary to what might be expected, plants at a more northerly location flower earlier or at the same time and for a shorter duration than conspecifics at a more southerly location. Observations of vast differences in flower abundance in three consecutive and climatically-contrasting years highlighted the challenges of reproductive success with weather extremes associated with contemporary climate change given that Arctic plants require three plus years to complete the sexual reproductive cycle. Finally, three methods, employing long-term phenology monitoring, historical phenological records and an elevation gradient, combined with temperature records, were used to ask the questions: ‘How have temperatures in Nunavut changed?’, ‘How have Nunavut Arctic flowering and fruiting times responded to climate change?’ and ‘What is the predicted temperature-sensitivity of Arctic plants to rising temperatures of climate change?’. Annual temperatures in Nunavut are rising faster than the global average. However, in contrast to temperate regions where spring temperatures are rising the most, monthly temperatures in late summer, autumn and winter are rising significantly in Nunavut. Later-flowering species have advanced flowering times more than early-flowering species and seed dispersal times have advanced more than flowering times. Flowering time temperature-sensitivity is species specific and Nunavut region specific with mid-summer-flowering species more sensitive than early- and late-flowering species and Nunavut Arctic archipelago plants more sensitive than Nunavut mainland conspecifics. That Arctic plants’ reproductive phenological events are temperature-sensitive is a good news story suggesting that they will respond to climate change and possibly experience greater reproductive success. Interspecific and inter-regional variation in phenological temperature-sensitivity suggests Arctic plant ecological community structure will alter with climate change but differentially across Nunavut. Thesis Arctic Archipelago Arctic Climate change Nunavut CURVE - Carleton University Research Virtual Environment Arctic Canada Nunavut
institution Open Polar
collection CURVE - Carleton University Research Virtual Environment
op_collection_id ftcarletonuniv
language unknown
description Phenology is the timing of nature’s seasonal events. Ambient temperature plays a key role in phenology and hence, as the climate warms, phenology will likely change. This thesis studied the impact of Arctic climate change on Arctic plant flowering and fruiting phenology in Nunavut, Canada. To establish a baseline for current plant phenology, the first question asked was ‘How does flowering phenology vary across Nunavut?’. Contrary to what might be expected, plants at a more northerly location flower earlier or at the same time and for a shorter duration than conspecifics at a more southerly location. Observations of vast differences in flower abundance in three consecutive and climatically-contrasting years highlighted the challenges of reproductive success with weather extremes associated with contemporary climate change given that Arctic plants require three plus years to complete the sexual reproductive cycle. Finally, three methods, employing long-term phenology monitoring, historical phenological records and an elevation gradient, combined with temperature records, were used to ask the questions: ‘How have temperatures in Nunavut changed?’, ‘How have Nunavut Arctic flowering and fruiting times responded to climate change?’ and ‘What is the predicted temperature-sensitivity of Arctic plants to rising temperatures of climate change?’. Annual temperatures in Nunavut are rising faster than the global average. However, in contrast to temperate regions where spring temperatures are rising the most, monthly temperatures in late summer, autumn and winter are rising significantly in Nunavut. Later-flowering species have advanced flowering times more than early-flowering species and seed dispersal times have advanced more than flowering times. Flowering time temperature-sensitivity is species specific and Nunavut region specific with mid-summer-flowering species more sensitive than early- and late-flowering species and Nunavut Arctic archipelago plants more sensitive than Nunavut mainland conspecifics. That Arctic plants’ reproductive phenological events are temperature-sensitive is a good news story suggesting that they will respond to climate change and possibly experience greater reproductive success. Interspecific and inter-regional variation in phenological temperature-sensitivity suggests Arctic plant ecological community structure will alter with climate change but differentially across Nunavut.
format Thesis
author Panchen, Zoe
spellingShingle Panchen, Zoe
The impact of climate change on the flowering and fruiting phenology of Arctic plants in Nunavut, Canada
author_facet Panchen, Zoe
author_sort Panchen, Zoe
title The impact of climate change on the flowering and fruiting phenology of Arctic plants in Nunavut, Canada
title_short The impact of climate change on the flowering and fruiting phenology of Arctic plants in Nunavut, Canada
title_full The impact of climate change on the flowering and fruiting phenology of Arctic plants in Nunavut, Canada
title_fullStr The impact of climate change on the flowering and fruiting phenology of Arctic plants in Nunavut, Canada
title_full_unstemmed The impact of climate change on the flowering and fruiting phenology of Arctic plants in Nunavut, Canada
title_sort impact of climate change on the flowering and fruiting phenology of arctic plants in nunavut, canada
publishDate 2016
url https://curve.carleton.ca/c7f41c3d-1d58-487d-96c1-8c0967e7eefc
http://catalogue.library.carleton.ca/record=b3942775
https://doi.org/10.22215/etd/2016-11673
geographic Arctic
Canada
Nunavut
geographic_facet Arctic
Canada
Nunavut
genre Arctic Archipelago
Arctic
Climate change
Nunavut
genre_facet Arctic Archipelago
Arctic
Climate change
Nunavut
op_relation https://curve.carleton.ca/c7f41c3d-1d58-487d-96c1-8c0967e7eefc
http://catalogue.library.carleton.ca/record=b3942775
https://doi.org/10.22215/etd/2016-11673
op_doi https://doi.org/10.22215/etd/2016-11673
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