Distribution, morphology and structure of sea ice pressure ridges in the Baltic Sea
The first ridges in winter were observed to build in the northeastern part of the Bothnian Bay in November. The probability of occurrence of ridges was the highest in March which varied yearly up to 90-100% in the Bothnian Bay and around 10-20% in the northern parts of the Baltic Proper. The last ri...
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Geographical Society of Finland
1997
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ftdoajarticles:oai:doaj.org/article:3449f727017b415b8350c733afa99b12 2023-05-15T18:19:00+02:00 Distribution, morphology and structure of sea ice pressure ridges in the Baltic Sea Paula Kankaanpää 1997-02-01T00:00:00Z https://doaj.org/article/3449f727017b415b8350c733afa99b12 EN eng Geographical Society of Finland https://fennia.journal.fi/article/view/8919 https://doaj.org/toc/1798-5617 1798-5617 https://doaj.org/article/3449f727017b415b8350c733afa99b12 Fennia: International Journal of Geography, Vol 175, Iss 2 (1997) Geography (General) G1-922 article 1997 ftdoajarticles 2022-12-31T08:50:10Z The first ridges in winter were observed to build in the northeastern part of the Bothnian Bay in November. The probability of occurrence of ridges was the highest in March which varied yearly up to 90-100% in the Bothnian Bay and around 10-20% in the northern parts of the Baltic Proper. The last ridges were found in the central part of the Bothnian Bay in May. Ridges increased level ice thickness on average by 6-14 cm equivalent ice thickness in the Bothnian Bay, and 2-4 cm in the Bothnian Sea and in the Gulf of Finland. The maximum average equivalent thickness was found in northeastern Bothnian Sea, which was 80 cm in March. During severe winters the amount of ridges was from 5 to 10 times bigger than in an average winter. Ridges were commonly found in as south as the latitude of Gotland and Gulf of Riga during severe winters. An ideal conclusive model of pressure ridges was made according to morphological field measurements carried out in 73 ridge sails (mean height 0.8 m) and 14 entire ridges (mean height 1.3 m and depth 8.4 m). The ice properties, salinity, density and brine content in ridges were measured and microscale structure of the samples were studied. The sail height and keel depth correlated. The mean ratio of keel depth to sail height was 6.3 varying between 2.6–10. The keel width could not be determined according to the sail dimensions. Mean ratio of keel to sail width was 12.5. The mean slope angle of the sails higher than 0.5 m was 21°. The mean keel slope angle was 29° and the mean slope angle of their sails was 26°. Accumulated snow next to ridge sails smoothened the surface profile 4°. The sail height did not correlate with the steepness of its slopes. The average total porosity of the ridges could be kept as a constant value of 30%. The sail porosity was smaller (20%) than the keel porosity (30%). The frozen nucleus inside the ridge was averagely 0.3 times thicker than level ice around the ridge, although the deviation was large. It was mainly formed from rafted ice blocks which had frozen ... Article in Journal/Newspaper Sea ice Directory of Open Access Journals: DOAJ Articles |
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Geography (General) G1-922 Paula Kankaanpää Distribution, morphology and structure of sea ice pressure ridges in the Baltic Sea |
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Geography (General) G1-922 |
description |
The first ridges in winter were observed to build in the northeastern part of the Bothnian Bay in November. The probability of occurrence of ridges was the highest in March which varied yearly up to 90-100% in the Bothnian Bay and around 10-20% in the northern parts of the Baltic Proper. The last ridges were found in the central part of the Bothnian Bay in May. Ridges increased level ice thickness on average by 6-14 cm equivalent ice thickness in the Bothnian Bay, and 2-4 cm in the Bothnian Sea and in the Gulf of Finland. The maximum average equivalent thickness was found in northeastern Bothnian Sea, which was 80 cm in March. During severe winters the amount of ridges was from 5 to 10 times bigger than in an average winter. Ridges were commonly found in as south as the latitude of Gotland and Gulf of Riga during severe winters. An ideal conclusive model of pressure ridges was made according to morphological field measurements carried out in 73 ridge sails (mean height 0.8 m) and 14 entire ridges (mean height 1.3 m and depth 8.4 m). The ice properties, salinity, density and brine content in ridges were measured and microscale structure of the samples were studied. The sail height and keel depth correlated. The mean ratio of keel depth to sail height was 6.3 varying between 2.6–10. The keel width could not be determined according to the sail dimensions. Mean ratio of keel to sail width was 12.5. The mean slope angle of the sails higher than 0.5 m was 21°. The mean keel slope angle was 29° and the mean slope angle of their sails was 26°. Accumulated snow next to ridge sails smoothened the surface profile 4°. The sail height did not correlate with the steepness of its slopes. The average total porosity of the ridges could be kept as a constant value of 30%. The sail porosity was smaller (20%) than the keel porosity (30%). The frozen nucleus inside the ridge was averagely 0.3 times thicker than level ice around the ridge, although the deviation was large. It was mainly formed from rafted ice blocks which had frozen ... |
format |
Article in Journal/Newspaper |
author |
Paula Kankaanpää |
author_facet |
Paula Kankaanpää |
author_sort |
Paula Kankaanpää |
title |
Distribution, morphology and structure of sea ice pressure ridges in the Baltic Sea |
title_short |
Distribution, morphology and structure of sea ice pressure ridges in the Baltic Sea |
title_full |
Distribution, morphology and structure of sea ice pressure ridges in the Baltic Sea |
title_fullStr |
Distribution, morphology and structure of sea ice pressure ridges in the Baltic Sea |
title_full_unstemmed |
Distribution, morphology and structure of sea ice pressure ridges in the Baltic Sea |
title_sort |
distribution, morphology and structure of sea ice pressure ridges in the baltic sea |
publisher |
Geographical Society of Finland |
publishDate |
1997 |
url |
https://doaj.org/article/3449f727017b415b8350c733afa99b12 |
genre |
Sea ice |
genre_facet |
Sea ice |
op_source |
Fennia: International Journal of Geography, Vol 175, Iss 2 (1997) |
op_relation |
https://fennia.journal.fi/article/view/8919 https://doaj.org/toc/1798-5617 1798-5617 https://doaj.org/article/3449f727017b415b8350c733afa99b12 |
_version_ |
1766195802999357440 |