Phytoplankton taxonomic variability in nutrient utilization and primary production in the Ross Sea

Phytoplankton taxonomic variability in nutrient utilization and primary production in the Ross Sea

Patterns of nutrient utilization and primary productivity (PP) in late austral spring and early summer in the southwestern Ross Sea were characterized with respect to phytoplankton taxonomic composition, polynya dynamics, and upper ocean hydrography during the 1996–1997 oceanographic program Researc...

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Bibliographic Details
Published in:Journal of Geophysical Research Vol. 105; no. C4; pp. 8827 - 8846
Main Authors: Arrigo, Kevin R., DiTullio, Giacomo R., Dunbar, Robert B., Robinson, Dale H., VanWoert, Michael, Worthen, Denise L., Lizotte, Michael P.
Format: Journal Article
Language:English
Published: Washington, DC Blackwell Publishing Ltd 15-04-2000
American Geophysical Union
Subjects:
Earth, ocean, space
Exact sciences and technology
External geophysics
Marine
Phaeocystis antarctica
Physical and chemical properties of sea water
Physics of the oceans
Ross Sea
Southern Ocean
PS, Ross Sea
Primary productivity
Carbon dioxide
Summer
Satellite observation
Taxonomic character
Polynya
Hydrography
Chlorophyll a
Image analysis
Spring(season)
Nutrient
Phytoplankton
Dissolved inorganic carbon
Sea ice
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Summary:Patterns of nutrient utilization and primary productivity (PP) in late austral spring and early summer in the southwestern Ross Sea were characterized with respect to phytoplankton taxonomic composition, polynya dynamics, and upper ocean hydrography during the 1996–1997 oceanographic program Research on Ocean‐Atmosphere Variability and Ecosystem Response in the Ross Sea. Phytoplankton biomass in the upper 150 m of the water column ranged from 40 to 540 mg chlorophyll a (Chl a) m−2, exceeding 200 mg Chl a m−2 everywhere except the extreme northern and eastern boundaries of the Ross Sea polynya. Diatom biomass was greatest in the shallow mixed layers of Terra Nova Bay, while the more deeply mixed waters of the Ross Sea polynya were dominated by Phaeocystis antarctica. Daily production computed from the disappearance of NO3 (1.14 g C m−2 d−1) and total dissolved inorganic carbon (TDIC, 1.29 g C m−2 d−1) is consistent with estimates made from an algorithm forced with satellite measurements of Chl a (1.25 g C m−2 d−1) and from measurements of 14C uptake (1.33 g C m−2 d−1). Phytoplankton PP in the Ross Sea averaged 100 g C m−2 yr−1 during 1996–1997. Despite the early formation of the Terra Nova Bay polynya the diatom bloom there did not reach its peak PP until middle to late January 1997 (most likely because of more intense wind mixing in November), ∼6 weeks after the P. antarctica bloom in the Ross Sea polynya had reached the same stage of development. From 70 to 100% of the C and N deficits in the upper 150 m could be accounted for by particulate organic matter, indicating that there had been little dissolved organic matter production or export of particulate material prior to our cruise. This suggests that early in the season, PP and zooplankton grazing are decoupled in the southwestern Ross Sea. The NO3∶PO4 disappearance ratio in waters dominated by P. antarctica (19.0±0.61) was significantly greater than in waters where diatoms were most common (9.52±0.33), and both were significantly different from the Redfield N∶P ratio of 16. Vertical profiles of TDIC suggest that P. antarctica took up 110% more CO2 per mole of PO4 removed than did diatoms, an important consideration for climate models that estimate C uptake from the removal of PO4.
Bibliography:istex:48286E5412C586F57C11C4F1660EA163074BCE31
ArticleID:1998JC000289
ark:/67375/WNG-LJS5FQ9D-V
ObjectType-Article-1
SourceType-Scholarly Journals-1
ObjectType-Feature-2
content type line 23
ObjectType-Article-2
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ISSN:0148-0227
2169-9275
2156-2202
2169-9291
DOI:10.1029/1998JC000289