Accession Number : ADA303611
Title : Investigation of Oceanic Organic Chemistry Using State-of-the-Art Laser Based Analytical Techniques.
Descriptive Note : Final technical rept.,
Corporate Author : SCRIPPS INSTITUTION OF OCEANOGRAPHY LA JOLLA CA MARINE RESEARCH DIV
Personal Author(s) : Bada, Jeffrey
PDF Url : ADA303611
Report Date : JAN 1996
Pagination or Media Count : 9
Abstract : The fluorescence of global seawater has been investigated using a sensitive laser-induced fluorometry system. In surface seawater, fluorescence is low due to photochemical bleaching. Fluorescence intensity increases with increasing depth in the oceans to about 500 to 1000 m; below this depth, seawater fluorescence is generally constant. Sediment porewaters are much more fluorescent than the overlaying seawater. Both porewater fluorescence, and the dissolved organic carbon (DOC) concentration, increase with depth in the sediment. Fluorescence of porewaters can thus be used to provide an estimate of the DOC content. Because of the higher fluorescence in porewaters in comparison of seawater, fluorescence provides a means of estimating the amount of DOC diffusing out of sediments into seawater. The fluorescence measurements indicate that this source of DOC is only a minor contributor to the oceanic DOC budget. (AN)
Descriptors : *LASER INDUCED FLUORESCENCE, *SEA WATER, FLUORESCENCE, OCEAN SURFACE, PHOTOCHEMICAL REACTIONS, STATE OF THE ART, INTENSITY, CARBON, LASER BEAMS, DEPTH, OCEANOGRAPHIC DATA, LASER APPLICATIONS, ORGANIC MATERIALS, SURFACE WATERS, FLUOROMETERS, SEDIMENTS, CONCENTRATION(CHEMISTRY), OPEN WATER, ARCTIC OCEAN, HELIUM CADMIUM LASERS.
Subject Categories : Physical and Dynamic Oceanography
Radiation and Nuclear Chemistry
Distribution Statement : APPROVED FOR PUBLIC RELEASE