| Field | Value |
|---|---|
Title |
Arctic open-water periods are projected to lengthen dramatically by 2100 |
Abstract |
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Publication general type |
journal article |
Project Name |
['eddc5af7-8854-4204-ac03-d1f1b4c6d6d7', '5b2d8203-4b89-4b28-9701-eb31bdfb2e95'] |
Keyword Vocabulary |
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Keyword Vocabulary URL |
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Theme |
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Version |
1.0 |
Publisher |
Springer Nature |
Date Published |
2021 |
DOI |
10.1038/s43247-021-00183-x |
Authors |
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Authors 1 |
|
Author Name |
Crawford, Alex |
Type of Name |
Personal |
Affiliation |
Centre for Earth Observation Science - University of Manitoba |
ORCID ID |
0000-0003-1561-290X |
ORCID |
|
http://orcid.org/ |
|
Authors 2 |
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Author Name |
Stroeve, Julienne |
Type of Name |
Personal |
Affiliation |
Centre for Earth Observation Science - University of Manitoba |
ORCID ID |
0000-0001-7316-8320 |
ORCID |
|
http://orcid.org/ |
|
Authors 3 |
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Author Name |
Smith, Abigail |
Type of Name |
Personal |
Affiliation |
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ORCID ID |
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Authors 4 |
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Author Name |
Jahn, Alexandra |
Type of Name |
Personal |
Affiliation |
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ORCID ID |
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License Name |
Creative Commons Attribution 4.0 International |
Licence Type |
Open |
CC-BY-4.0 |
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Licence Schema Name |
SPDX |
Licence URL |
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Awards |
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Awards 1 |
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Funded by |
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Related Resources |
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Related Resources 1 |
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Online Resource |
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Type |
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Series Name |
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Language |
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| Field | Value |
|---|---|
URL |
https://canwin-datahub.ad.umanitoba.ca/data/dataset/5ebc7aff-4761-4a39-a922-7dd2bc309c31/resource/2df697ab-2611-49de-a071-e3d66a7d0455/download/crawford-arctic-open-water-periods-are-projected-to-lengthen-dramatically-by-2100-2021-communica.pdf |
Name |
Arctic open-water periods are projected to lengthen dramatically by 2100 |
Description |
The shrinking of Arctic-wide September sea ice extent is often cited as an indicator of modern climate change; however, the timing of seasonal sea ice retreat/advance and the length of the open-water period are often more relevant to stakeholders working at regional and local scales. Here we highlight changes in regional open-water periods at multiple warming thresholds. We show that, in the latest generation of models from the Coupled Model Intercomparison Project (CMIP6), the open-water period lengthens by 63 days on average with 2 °C of global warming above the 1850-1900 average, and by over 90 days in several Arctic seas. Nearly the entire Arctic, including the Transpolar Sea Route, has at least 3 months of open water per year with 3.5 °C warming, and at least 6 months with 5 °C warming. Model bias compared to satellite data suggests that even such dramatic projections may be conservative. In several of the Arctic ocean basins, the period of open water without sea-ice cover will lengthen by more than 90 days under 2 oC of global warming, suggest analyses of the latest (CMIP6) climate model simulations. |
Format |
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Resource Category |
documents |
| Field | Value |
|---|---|
Title |
Arctic Sea Ice Phenology in CMIP6 |
URL |
https://canwin-datahub.ad.umanitoba.ca/data/dataset/sea-ice-cmip6 |