Climate change and sea ice: Shipping accessibility on the marine transportation corridor through Hudson Bay and Hudson Strait (1980–2014)
Shipping traffic has been increasing in Hudson Strait and Hudson Bay and the shipping route through these waters to the Port of Churchill may soon become a federally-designated transportation corridor. A dataset on passive microwave-based sea ice concentration was used to characterize the timing of...
| Published in: | Elementa: Science of the Anthropocene |
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| Format: | Article in Journal/Newspaper |
| Language: | English |
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BioOne
2017
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| Online Access: | https://doi.org/10.1525/elementa.130 https://doaj.org/article/64b8c2b9051841bf831c7fc39143bbac |
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ftdoajarticles:oai:doaj.org/article:64b8c2b9051841bf831c7fc39143bbac 2023-05-15T16:35:11+02:00 Climate change and sea ice: Shipping accessibility on the marine transportation corridor through Hudson Bay and Hudson Strait (1980–2014) Jonathan Andrews David Babb David G. Barber 2017-03-01T00:00:00Z https://doi.org/10.1525/elementa.130 https://doaj.org/article/64b8c2b9051841bf831c7fc39143bbac EN eng BioOne https://www.elementascience.org/articles/130 https://doaj.org/toc/2325-1026 2325-1026 doi:10.1525/elementa.130 https://doaj.org/article/64b8c2b9051841bf831c7fc39143bbac Elementa: Science of the Anthropocene, Vol 5 (2017) Environmental sciences GE1-350 article 2017 ftdoajarticles https://doi.org/10.1525/elementa.130 2022-12-31T13:36:46Z Shipping traffic has been increasing in Hudson Strait and Hudson Bay and the shipping route through these waters to the Port of Churchill may soon become a federally-designated transportation corridor. A dataset on passive microwave-based sea ice concentration was used to characterize the timing of the ice on the shipping corridor to the Port between 1980 and 2014. Efforts were made to produce results in a readily accessible format for stakeholders of the shipping industry; for example, open water was defined using a sea ice concentration threshold of ≤ 15% and results are presented in terms of real dates instead of anomalies. Between 1980 and 2014, the average breakup date on the corridor was July 4, the average freeze-up date was November 25, and the average length of the open water season was 145 days. However, each of these three variables exhibited significant long-term trends and spatial variability over the 34-year time period. Regression analysis revealed significant linear trends towards earlier breakup (–0.66 days year–1), later freeze-up (+0.52 days year–1), and a longer open water season (+1.14 days year–1) along the shipping corridor between 1980 and 2014. Moreover, the section of the corridor passing through Hudson Strait displayed significantly stronger trends than the two sections in Hudson Bay (i.e., “Hudson Islands” and “Hudson Bay”). As a result, sea ice timing in the Hudson Strait section of the corridor has diverged from the timing in the Hudson Bay sections. For example, the 2010–2014 median length of the open water season was 177 days in Hudson Strait and 153 days in the Hudson Bay sections. Finally, significant linear relationships were observed amongst breakup, freeze-up, and the length of the open water season for all sections of the corridor; correlation analysis suggests that these relationships have greatest impact in Hudson Strait. Article in Journal/Newspaper Hudson Bay Hudson Strait Sea ice Directory of Open Access Journals: DOAJ Articles Hudson Bay Hudson Hudson Strait ENVELOPE(-70.000,-70.000,62.000,62.000) The Corridor ENVELOPE(78.139,78.139,-68.582,-68.582) Elementa: Science of the Anthropocene 5 |
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Open Polar |
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Directory of Open Access Journals: DOAJ Articles |
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ftdoajarticles |
| language |
English |
| topic |
Environmental sciences GE1-350 |
| spellingShingle |
Environmental sciences GE1-350 Jonathan Andrews David Babb David G. Barber Climate change and sea ice: Shipping accessibility on the marine transportation corridor through Hudson Bay and Hudson Strait (1980–2014) |
| topic_facet |
Environmental sciences GE1-350 |
| description |
Shipping traffic has been increasing in Hudson Strait and Hudson Bay and the shipping route through these waters to the Port of Churchill may soon become a federally-designated transportation corridor. A dataset on passive microwave-based sea ice concentration was used to characterize the timing of the ice on the shipping corridor to the Port between 1980 and 2014. Efforts were made to produce results in a readily accessible format for stakeholders of the shipping industry; for example, open water was defined using a sea ice concentration threshold of ≤ 15% and results are presented in terms of real dates instead of anomalies. Between 1980 and 2014, the average breakup date on the corridor was July 4, the average freeze-up date was November 25, and the average length of the open water season was 145 days. However, each of these three variables exhibited significant long-term trends and spatial variability over the 34-year time period. Regression analysis revealed significant linear trends towards earlier breakup (–0.66 days year–1), later freeze-up (+0.52 days year–1), and a longer open water season (+1.14 days year–1) along the shipping corridor between 1980 and 2014. Moreover, the section of the corridor passing through Hudson Strait displayed significantly stronger trends than the two sections in Hudson Bay (i.e., “Hudson Islands” and “Hudson Bay”). As a result, sea ice timing in the Hudson Strait section of the corridor has diverged from the timing in the Hudson Bay sections. For example, the 2010–2014 median length of the open water season was 177 days in Hudson Strait and 153 days in the Hudson Bay sections. Finally, significant linear relationships were observed amongst breakup, freeze-up, and the length of the open water season for all sections of the corridor; correlation analysis suggests that these relationships have greatest impact in Hudson Strait. |
| format |
Article in Journal/Newspaper |
| author |
Jonathan Andrews David Babb David G. Barber |
| author_facet |
Jonathan Andrews David Babb David G. Barber |
| author_sort |
Jonathan Andrews |
| title |
Climate change and sea ice: Shipping accessibility on the marine transportation corridor through Hudson Bay and Hudson Strait (1980–2014) |
| title_short |
Climate change and sea ice: Shipping accessibility on the marine transportation corridor through Hudson Bay and Hudson Strait (1980–2014) |
| title_full |
Climate change and sea ice: Shipping accessibility on the marine transportation corridor through Hudson Bay and Hudson Strait (1980–2014) |
| title_fullStr |
Climate change and sea ice: Shipping accessibility on the marine transportation corridor through Hudson Bay and Hudson Strait (1980–2014) |
| title_full_unstemmed |
Climate change and sea ice: Shipping accessibility on the marine transportation corridor through Hudson Bay and Hudson Strait (1980–2014) |
| title_sort |
climate change and sea ice: shipping accessibility on the marine transportation corridor through hudson bay and hudson strait (1980–2014) |
| publisher |
BioOne |
| publishDate |
2017 |
| url |
https://doi.org/10.1525/elementa.130 https://doaj.org/article/64b8c2b9051841bf831c7fc39143bbac |
| long_lat |
ENVELOPE(-70.000,-70.000,62.000,62.000) ENVELOPE(78.139,78.139,-68.582,-68.582) |
| geographic |
Hudson Bay Hudson Hudson Strait The Corridor |
| geographic_facet |
Hudson Bay Hudson Hudson Strait The Corridor |
| genre |
Hudson Bay Hudson Strait Sea ice |
| genre_facet |
Hudson Bay Hudson Strait Sea ice |
| op_source |
Elementa: Science of the Anthropocene, Vol 5 (2017) |
| op_relation |
https://www.elementascience.org/articles/130 https://doaj.org/toc/2325-1026 2325-1026 doi:10.1525/elementa.130 https://doaj.org/article/64b8c2b9051841bf831c7fc39143bbac |
| op_doi |
https://doi.org/10.1525/elementa.130 |
| container_title |
Elementa: Science of the Anthropocene |
| container_volume |
5 |
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1766025360195977216 |