On the nature of the factors that control spring bloom development at the entrance to the Barents Sea and their interannual variability

Analysis of data obtained by the Institute of Marine Research, Norway, at their regular surveys of the Fugløya-Bjørnøya section, between the northern tip of Norway and Bear Island, has allowed for an identification of the factors that control spring bloom development in the region, and their interan...

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Published in	Sarsia Vol. 88; no. 6; pp. 379 - 393
Main Authors	Olsen, Are, Johannessen, Truls, Rey, Francisco
Format	Journal Article
Language	English
Published	Taylor & Francis Group 12.12.2003
Subjects	Barents Sea interannual variations Marine nutrients næringsstoffer spring bloom vårblomstring Barentshavet PNE, Barents Sea PNE, Norway, Fugloeya-Bjoernoeya PNE, Norway, Svalbard, Bjoernoeya I PNE, Norway, Svalbard, Fugloeya-Bjoernoeya
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Abstract	Analysis of data obtained by the Institute of Marine Research, Norway, at their regular surveys of the Fugløya-Bjørnøya section, between the northern tip of Norway and Bear Island, has allowed for an identification of the factors that control spring bloom development in the region, and their interannual variability. In the southern part of the section the bloom starts as the waters become stratified due to a northward spreading of low salinity water from the Norwegian Coastal Current. In the middle part of the section the bloom is initiated when vernal stratification develops due to heating of the ocean surface, and the bloom may develop in either of two directions throughout summer, depending on the prevailing atmospheric pressure gradient over the region. A north to south high to low pressure gradient will direct surface winds to the west. Ekman drift will then be to the north and a wedge of low salinity, low nutrient water will spread out over the region, leading to the termination of the bloom. When the pressure gradient is reversed, winds will blow to the east and intrusion of fresh water into the region will be limited. In these years the bloom appears to follow a classical Atlantic pattern, unable to fully utilize available nitrate and probably terminated due to extensive grazing. The central part of the Barents Sea Opening is thus yet another northern high latitude region where the bloom is subject to substantial interannual variations, potentially affecting higher trophic levels.
AbstractList	Analysis of data obtained by the Institute of Marine Research, Norway, at their regular surveys of the Fugløya-Bjørnøya section, between the northern tip of Norway and Bear Island, has allowed for an identification of the factors that control spring bloom development in the region, and their interannual variability. In the southern part of the section the bloom starts as the waters become stratified due to a northward spreading of low salinity water from the Norwegian Coastal Current. In the middle part of the section the bloom is initiated when vernal stratification develops due to heating of the ocean surface, and the bloom may develop in either of two directions throughout summer, depending on the prevailing atmospheric pressure gradient over the region. A north to south high to low pressure gradient will direct surface winds to the west. Ekman drift will then be to the north and a wedge of low salinity, low nutrient water will spread out over the region, leading to the termination of the bloom. When the pressure gradient is reversed, winds will blow to the east and intrusion of fresh water into the region will be limited. In these years the bloom appears to follow a classical Atlantic pattern, unable to fully utilize available nitrate and probably terminated due to extensive grazing. The central part of the Barents Sea Opening is thus yet another northern high latitude region where the bloom is subject to substantial interannual variations, potentially affecting higher trophic levels. Analysis of data obtained by the Institute of Marine Research, Norway, at their regular surveys of the Fugloeya-Bjoernoeya section, between the northern tip of Norway and Bear Island, has allowed for an identification of the factors that control spring bloom development in the region, and their interannual variability. In the southern part of the section the bloom starts as the waters become stratified due to a northward spreading of low salinity water from the Norwegian Coastal Current. In the middle part of the section the bloom is initiated when vernal stratification develops due to heating of the ocean surface, and the bloom may develop in either of two directions throughout summer, depending on the prevailing atmospheric pressure gradient over the region. A north to south high to low pressure gradient will direct surface winds to the west. Ekman drift will then be to the north and a wedge of low salinity, low nutrient water will spread out over the region, leading to the termination of the bloom. When the pressure gradient is reversed, winds will blow to the east and intrusion of fresh water into the region will be limited. In these years the bloom appears to follow a classical Atlantic pattern, unable to fully utilize available nitrate and probably terminated due to extensive grazing. The central part of the Barents Sea Opening is thus yet another northern high latitude region where the bloom is subject to substantial interannual variations, potentially affecting higher trophic levels.
Author	Olsen, Are Rey, Francisco Johannessen, Truls
Author_xml	– sequence: 1 givenname: Are surname: Olsen fullname: Olsen, Are email: are@gfi.uib.no organization: Geophysical Institute and Bjerknes Centre for Climate Research , University of Bergen – sequence: 2 givenname: Truls surname: Johannessen fullname: Johannessen, Truls organization: Geophysical Institute and Bjerknes Centre for Climate Research , University of Bergen – sequence: 3 givenname: Francisco surname: Rey fullname: Rey, Francisco organization: Institute of Marine Research
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Title	On the nature of the factors that control spring bloom development at the entrance to the Barents Sea and their interannual variability
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