Water column stability and spring bloom dynamics in the Gulf of Alaska

The initiation of the Gulf of Alaska phytoplankton spring bloom is light limited, and therefore the onset of stratification is critical to primary productivity. A stability ratio, which represents the balance between mixing (tide and wind) and buoyancy (heat and freshwater) processes, is defined. Wh...

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Published in:	Journal of Marine Research
Main Author:	Henson, Stephanie A.
Format:	Article in Journal/Newspaper
Language:	unknown
Published:	2007
Subjects:	Gulf of Alaska Pacific aleutian low Alaska
Online Access:	https://eprints.soton.ac.uk/72347/ http://southampton.library.ingentaconnect.com/content/jmr/jmr/2007/00000065/00000006/art00001

id	ftsouthampton:oai:eprints.soton.ac.uk:72347
record_format	openpolar
spelling	ftsouthampton:oai:eprints.soton.ac.uk:72347 2023-07-30T03:55:48+02:00 Water column stability and spring bloom dynamics in the Gulf of Alaska Henson, Stephanie A. 2007 https://eprints.soton.ac.uk/72347/ http://southampton.library.ingentaconnect.com/content/jmr/jmr/2007/00000065/00000006/art00001 unknown Henson, Stephanie A. (2007) Water column stability and spring bloom dynamics in the Gulf of Alaska. Journal of Marine Research, 65 (6), 715-736. (doi:10.1357/002224007784219002 <http://dx.doi.org/10.1357/002224007784219002>). Article PeerReviewed 2007 ftsouthampton https://doi.org/10.1357/002224007784219002 2023-07-09T21:08:33Z The initiation of the Gulf of Alaska phytoplankton spring bloom is light limited, and therefore the onset of stratification is critical to primary productivity. A stability ratio, which represents the balance between mixing (tide and wind) and buoyancy (heat and freshwater) processes, is defined. When buoyancy dominates over mixing, stratification is possible. Use of model- and satellite-derived data allows maps of the spatial and temporal development of stratification to be constructed. Spatial variability in the dominant forcing components is also mapped. The onset of water column stability is closely linked to the timing of the phytoplankton spring bloom. Consideration of the forcing components and corresponding stability ratio provides insight into the wide range of bloom dynamics observed in the Gulf of Alaska. Interannual variability in heat and freshwater forcing corresponds to the phase of the North Pacific Index (NPI). A low NPI reflects an intense Aleutian low-pressure system and is associated with warmer, wetter winters, leading to the earlier onset of stratification and subsequently an earlier and more intense spring bloom. The results thus provide observational support for the optimal stability window hypothesis, and identify mechanisms by which basin-scale forcing can propagate, via local physical processes, to phytoplankton productivity are identified. Article in Journal/Newspaper aleutian low Alaska University of Southampton: e-Prints Soton Gulf of Alaska Pacific Journal of Marine Research 65 6 715 736
institution	Open Polar
collection	University of Southampton: e-Prints Soton
op_collection_id	ftsouthampton
language	unknown
description	The initiation of the Gulf of Alaska phytoplankton spring bloom is light limited, and therefore the onset of stratification is critical to primary productivity. A stability ratio, which represents the balance between mixing (tide and wind) and buoyancy (heat and freshwater) processes, is defined. When buoyancy dominates over mixing, stratification is possible. Use of model- and satellite-derived data allows maps of the spatial and temporal development of stratification to be constructed. Spatial variability in the dominant forcing components is also mapped. The onset of water column stability is closely linked to the timing of the phytoplankton spring bloom. Consideration of the forcing components and corresponding stability ratio provides insight into the wide range of bloom dynamics observed in the Gulf of Alaska. Interannual variability in heat and freshwater forcing corresponds to the phase of the North Pacific Index (NPI). A low NPI reflects an intense Aleutian low-pressure system and is associated with warmer, wetter winters, leading to the earlier onset of stratification and subsequently an earlier and more intense spring bloom. The results thus provide observational support for the optimal stability window hypothesis, and identify mechanisms by which basin-scale forcing can propagate, via local physical processes, to phytoplankton productivity are identified.
format	Article in Journal/Newspaper
author	Henson, Stephanie A.
spellingShingle	Henson, Stephanie A. Water column stability and spring bloom dynamics in the Gulf of Alaska
author_facet	Henson, Stephanie A.
author_sort	Henson, Stephanie A.
title	Water column stability and spring bloom dynamics in the Gulf of Alaska
title_short	Water column stability and spring bloom dynamics in the Gulf of Alaska
title_full	Water column stability and spring bloom dynamics in the Gulf of Alaska
title_fullStr	Water column stability and spring bloom dynamics in the Gulf of Alaska
title_full_unstemmed	Water column stability and spring bloom dynamics in the Gulf of Alaska
title_sort	water column stability and spring bloom dynamics in the gulf of alaska
publishDate	2007
url	https://eprints.soton.ac.uk/72347/ http://southampton.library.ingentaconnect.com/content/jmr/jmr/2007/00000065/00000006/art00001
geographic	Gulf of Alaska Pacific
geographic_facet	Gulf of Alaska Pacific
genre	aleutian low Alaska
genre_facet	aleutian low Alaska
op_relation	Henson, Stephanie A. (2007) Water column stability and spring bloom dynamics in the Gulf of Alaska. Journal of Marine Research, 65 (6), 715-736. (doi:10.1357/002224007784219002 <http://dx.doi.org/10.1357/002224007784219002>).
op_doi	https://doi.org/10.1357/002224007784219002
container_title	Journal of Marine Research
container_volume	65
container_issue	6
container_start_page	715
op_container_end_page	736
_version_	1772809800405483520

Water column stability and spring bloom dynamics in the Gulf of Alaska

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