Influence of Rossby waves on nutrient dynamics and the plankton community structure in the North Pacific subtropical gyre

Influence of Rossby waves on nutrient dynamics and the plankton community structure in the North Pacific subtropical gyre

Nitrate concentrations, chlorophyll a (Chl a) fluorescence, radiance, salinity, and temperature were measured on the Hawaii Air‐Sea Logging Experiment, A Long‐Term Oligotrophic Habitat Assessment (HALE ALOHA) mooring located near the Hawaii Ocean Time‐Series (HOT) Program's Station ALOHA (22°45...

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Bibliographic Details
Published in:Journal of Geophysical Research - Oceans Vol. 109; no. C5; pp. C05032 - n/a
Main Authors: Sakamoto, Carole M., Karl, David M., Jannasch, Hans W., Bidigare, Robert R., Letelier, Ricardo M., Walz, Peter M., Ryan, John P., Polito, Paulo S., Johnson, Kenneth S.
Format: Journal Article
Language:English
Published: American Geophysical Union 01-05-2004
Blackwell Publishing Ltd
Subjects:
Biological and Chemical
Ecosystems, structure and dynamics
Instruments and techniques
Marine
mooring
nitrate
nutrient
Nutrients and nutrient cycling
Oceanography
Physical
phytoplankton
Rossby waves
Sea level variations
Upper ocean processes
ISE, North Pacific, North Pacific Subtropical Gyre
ISE, Pacific, ALOHA Stn
ISE, Pacific, North Pacific Subtropical Gyre
phytoplankton
Rossby waves
nutrient
nitrate
mooring
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Summary:Nitrate concentrations, chlorophyll a (Chl a) fluorescence, radiance, salinity, and temperature were measured on the Hawaii Air‐Sea Logging Experiment, A Long‐Term Oligotrophic Habitat Assessment (HALE ALOHA) mooring located near the Hawaii Ocean Time‐Series (HOT) Program's Station ALOHA (22°45′N; 158°W). Nitrate concentrations were determined with OsmoAnalyzers deployed at depths of 120 and 180 m. Deployments in 1997 and 1999 captured monthlong events that brought relatively cold high‐nitrate seawater up into the euphotic zone. These events were correlated with negative sea surface height (SSH) anomalies measured by the TOPEX/Poseidon satellite altimeter. These nutrient injections at the Hawaii site were predominantly associated with first baroclinic mode Rossby waves. Elevated nitrate concentrations resulted in increased Chl a concentrations, increased primary productivity, and shifts in the phytoplankton community structure, as determined by HPLC analysis of pigment concentrations. The relative increase in pigments associated with phytoplankton that can grow rapidly and exploit nitrate (e.g., haptophytes and pelagophytes) coincided with the passage of Rossby waves in 1997–1999. A long‐term combination of satellite remote sensing, moored instrumentation or remote vehicles and periodic ship‐based sampling is needed to fully characterize the spatial and temporal variability due to the passage of Rossby waves and their associated biological responses.
Bibliography:ArticleID:2003JC001976
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ISSN:0148-0227
2169-9275
2156-2202
2169-9291
DOI:10.1029/2003JC001976