Seasonal Variation of CDOM and DOC in the Middle Atlantic Bight: Terrestrial Inputs and Photooxidation

Seasonal Variation of CDOM and DOC in the Middle Atlantic Bight: Terrestrial Inputs and Photooxidation

Extensive surveys of the fluorescence and absorption of chromophore-containing dissolved organic matter (CDOM), dissolved organic C (DOC) concentration, chlorophyll fluorescence, and salinity were performed during August and November 1993 and March and April 1994 along a cruise line extending from t...

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Bibliographic Details
Published in:Limnology and oceanography Vol. 42; no. 4; pp. 674 - 686
Main Authors: Vodacek, Anthony, Blough, Neil V., DeGrandpre, Michael D., Peltzer, Edward T., Nelson, Robert K.
Format: Journal Article
Language:English
Published: Waco, TX American Society of Limnology and Oceanography 01-06-1997
Subjects:
Absorption spectra
Absorptivity
Coastal water
Dissolved organic matter
Earth sciences
Earth, ocean, space
Exact sciences and technology
External geophysics
Fluorescence
Geochemistry
Marine
Mineralogy
Photooxidation
Physical and chemical properties of sea water
Physics of the oceans
Salinity
Sea water
Silicates
Surface water
Water geochemistry
Wavelengths
Middle Atlantic Bight
Delaware
United States
Sargasso Sea
Delaware Bay
ANW, USA, Mid-Atlantic Bight
ANW, USA, Delaware Bay
AN, Sargasso Sea
sea water
algorithms
salinity
color
absorption
stratification
Atlantic Ocean
regression analysis
chlorophyll
remote sensing
concentration
North America
offshore
surface water
optical properties
hydrochemistry
fluorescence
organic materials
dissolved materials
surface properties
seasonal variations
organic carbon
outer shelf
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Summary:Extensive surveys of the fluorescence and absorption of chromophore-containing dissolved organic matter (CDOM), dissolved organic C (DOC) concentration, chlorophyll fluorescence, and salinity were performed during August and November 1993 and March and April 1994 along a cruise line extending from the mouth of Delaware Bay southeast to the Sargasso Sea. With shallow stratification om August, photobleaching dramatically altered the optical properties of the surface waters, with$\thicksim 70%$of the CDOM absorption and fluorescence lost through photooxidation in the waters at the outer shelf. S, the slope of the log-linearized absorption spectrum of CDOM, increased offshore and seemed to increase with photodegradation. The increase in S combined with the seasonal variation in the relationship between Chl and CDOM underscores the difficulty in developing algorithms to predict Chl concentrations in turbid coastal waters with ocean color data. Despite the photooxidation of CDOM, the seasonal variation in the CDOM fluorescence-absorption relationship and fluorescence quantum yields was <15%. When using appropriate methods, the airborne lidar approach for remote determination of CDOM absorption coefficients seems to be a very robust technique. The photooxidation of CDOM in August also affected the relationship between CDOM and DOC concentration in the surface waters, although for the rest of the year the ralationship was reasonably linear. The results of a simple model suggest$\thicksim 10%$of the DOC in the mixed layer was directly converted photochemically to dissolved inorganic C(DIC).
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content type line 23
ISSN:0024-3590
1939-5590
DOI:10.4319/lo.1997.42.4.0674