Water Mass Bio-optical Properties in the Monterey Bay Region: Fluorescence-based Inference of Shifts in Phytoplankton Photophysiology

A physical and bio-optical field survey of the Monterey Bay area was conducted during May -June 2008. The combined bio-optical and physical data may be summarized as a transition between two end-member states during the late spring to summer upwelling season: (1) the mesotrophic, nanoflagellate-domi...

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Bibliographic Details
Main Authors: Jolliff, J K, Gould Jr, R W, Penta, B, Teague, W J, DeRada, S, Chavez, F P, Arnone, R A
Other Authors: NAVAL RESEARCH LAB STENNIS DETACHMENT STENNIS SPACE CENTER MS OCEANOGRAPHY DIV
Format: Text
Language:English
Published: 2012
Subjects:
Biochemistry
Biology
Physical and Dynamic Oceanography
*CHLOROPHYLLS
*FLUORESCENCE
*OCEAN CURRENTS
*PHYTOPLANKTON
*WATER MASSES
BAYS
CALIFORNIA
CONTINENTAL SHELVES
DARKNESS
DIATOMS
FIELD CONDITIONS
HIGH RESOLUTION
HISTORY
IN VIVO ANALYSIS
OPTICAL DATA
PATTERNS
PHYSICAL PROPERTIES
PLATFORMS
SURFACE WATERS
*OCEAN OPTICS
*PHOTOPHYSIOLOGY
BIO-OPTICAL PROPERTIES
IVF(IN VIVO FLUOROMETRY)
MONTEREY BAY
PE060243N
WUONR73-6463-01-5
Subarctic
Online Access:http://www.dtic.mil/docs/citations/ADA565260
http://oai.dtic.mil/oai/oai?&verb=getRecord&metadataPrefix=html&identifier=ADA565260
Description
Summary:A physical and bio-optical field survey of the Monterey Bay area was conducted during May -June 2008. The combined bio-optical and physical data may be summarized as a transition between two end-member states during the late spring to summer upwelling season: (1) the mesotrophic, nanoflagellate-dominated, low-salinity surface waters (chlorophyll-a 0.5 -2 mg m (exp -3); S 33.4) of the California Current and (2) the eutrophic, diatomaceous, higher salinity surface waters (chlorophyll-a 2 mg m(exp -3); S 33.8) of Monterey Bay and adjacent continental shelf areas. High-resolution and collocated spectrophotometric, fluorometric and CTD data obtained from a towed platform indicated low-salinity subarctic-origin surface waters intruded into Monterey Bay on 4 June. The dark in vivo fluorometry (IVF) phytoplankton response normalized to particle absorption at 676 nm (the apparent fluorescence efficiency, AFE) was nearly fourfold larger in this water mass type compared to higher salinity surface waters more typical of Monterey Bay. The collocated fluorescence and optical data were then used to estimate in situ irradiance values and determine apparent light saturation intensities (l'(sub k)) based on the remarkably consistent AFE water column inflection points. I'(sub k) values retrieved from the low-salinity surface waters were approximately half those obtained over the continental shelf. An analysis of concomitant HPLC data, in addition to historical data for the region, suggest these observed fluorescence trends may be indicative of taxon-specific variation in photophysiology. Pub. in Journal of Geophysical Research, v117, p1-16, 2012.

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