Large-scale physical controls on phytoplankton growth in the Irminger Sea. Part 1: Hydrographic zones, mixing and stratification
Large-scale physical controls on phytoplankton growth in the Irminger Sea. Part 1: Hydrographic zones, mixing and stratification
Hydrographic surveys in three consecutive seasons in the Irminger Sea in 2001/2002 have revealed six physical regimes (zones) in which different surface mixing and spring re-stratification processes dominate. They are the South Irminger Current, the North Irminger Current, the Central Irminger Sea, the Polar-origin East Greenland Current, the Atlantic-origin East Greenland Current and the Reykjanes Ridge. The variations in restratification processes in particular have significant implications for the timing of shallow spring mixed layer development and therefore the timing and strength of the spring bloom. The relative roles of heat and freshwater in controlling re-stratification are examined for each hydrographic zone, and it is shown that the simplest concept of solar warming generating spring stratification is appropriate for the Irminger Current and the central Irminger Sea. However in the East Greenland Current and the Reykjanes Ridge zones, the springtime arrival of fresh or saline water at the surface dominates re-stratification and generates the earliest and strongest spring blooms of the region. In the cool fresh centre of the Irminger Sea the relatively low chlorophyll-a throughout the year cannot be wholly explained by stratification or nutrient concentrations. Details of the annual cycle in temperature, salinity, chlorophyll-a and nutrients are presented for each hydrographic zone.
Irminger Sea, biophysical zones, mixing, re-stratification, phytoplankton, spring bloom
201-218
Holliday, N.P.
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Waniek, J.
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Davidson, R.
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Wilson, D.
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Brown, L.
71ebbeab-98c3-45f3-b3f2-200387870709
Sanders, R.
02c163c1-8f5e-49ad-857c-d28f7da66c65
Pollard, R.T.
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Allen, J.T.
b251a62b-f443-4591-b695-9aa8c4d73741
2006
Holliday, N.P.
358b0b33-f30b-44fd-a193-88365bbf2c79
Waniek, J.
988621eb-221e-4b5c-a147-02fdd2b57aab
Davidson, R.
9f684474-a989-4d8c-988c-a42e3d19db25
Wilson, D.
d732d67c-ce3a-4a08-afbf-c262d62e7b58
Brown, L.
71ebbeab-98c3-45f3-b3f2-200387870709
Sanders, R.
02c163c1-8f5e-49ad-857c-d28f7da66c65
Pollard, R.T.
0c78b909-8a95-4bd2-82fd-9b11022888fd
Allen, J.T.
b251a62b-f443-4591-b695-9aa8c4d73741
Holliday, N.P., Waniek, J., Davidson, R., Wilson, D., Brown, L., Sanders, R., Pollard, R.T. and Allen, J.T.
(2006)
Large-scale physical controls on phytoplankton growth in the Irminger Sea. Part 1: Hydrographic zones, mixing and stratification.
Journal of Marine Systems, 59 (3-4), .
(doi:10.1016/j.jmarsys.2005.10.004).
Abstract
Hydrographic surveys in three consecutive seasons in the Irminger Sea in 2001/2002 have revealed six physical regimes (zones) in which different surface mixing and spring re-stratification processes dominate. They are the South Irminger Current, the North Irminger Current, the Central Irminger Sea, the Polar-origin East Greenland Current, the Atlantic-origin East Greenland Current and the Reykjanes Ridge. The variations in restratification processes in particular have significant implications for the timing of shallow spring mixed layer development and therefore the timing and strength of the spring bloom. The relative roles of heat and freshwater in controlling re-stratification are examined for each hydrographic zone, and it is shown that the simplest concept of solar warming generating spring stratification is appropriate for the Irminger Current and the central Irminger Sea. However in the East Greenland Current and the Reykjanes Ridge zones, the springtime arrival of fresh or saline water at the surface dominates re-stratification and generates the earliest and strongest spring blooms of the region. In the cool fresh centre of the Irminger Sea the relatively low chlorophyll-a throughout the year cannot be wholly explained by stratification or nutrient concentrations. Details of the annual cycle in temperature, salinity, chlorophyll-a and nutrients are presented for each hydrographic zone.
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Published date: 2006
Keywords:
Irminger Sea, biophysical zones, mixing, re-stratification, phytoplankton, spring bloom
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Local EPrints ID: 21032
URI: http://eprints.soton.ac.uk/id/eprint/21032
ISSN: 0924-7963
PURE UUID: 697d94bd-5fe3-4352-8eca-6d0cd04e4385
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Date deposited: 08 Mar 2006
Last modified: 15 Mar 2024 06:27
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Contributors
Author:
N.P. Holliday
Author:
J. Waniek
Author:
R. Davidson
Author:
D. Wilson
Author:
L. Brown
Author:
R. Sanders
Author:
R.T. Pollard
Author:
J.T. Allen
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