Chromophoric dissolved organic matter (CDOM) variability in Barataria Basin using excitation–emission matrix (EEM) fluorescence and parallel factor analysis (PARAFAC)

Chromophoric dissolved organic matter (CDOM) variability in Barataria Basin, Louisiana, USA,was examined by excitation emission matrix (EEM) fluorescence combined with parallel factor analysis (PARAFAC). CDOM optical properties of absorption and fluorescence at 355 nm along an axial transect (36 sta...

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Veröffentlicht in:	The Science of the total environment 2010-07, Vol.408 (16), p.3211-3222
Hauptverfasser:	Singh, Shatrughan, D'Sa, Eurico J., Swenson, Erick M.
Format:	Artikel
Sprache:	eng
Schlagworte:	Barataria Basin Basins Carbon CDOM Dissolved organic matter EEM Excitation Factor analysis Factor Analysis, Statistical Fluorescence Louisiana Microorganisms Models, Chemical Organic Chemicals - analysis PARAFAC Spectrometry, Fluorescence Stations Trends Water - chemistry
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description	Chromophoric dissolved organic matter (CDOM) variability in Barataria Basin, Louisiana, USA,was examined by excitation emission matrix (EEM) fluorescence combined with parallel factor analysis (PARAFAC). CDOM optical properties of absorption and fluorescence at 355 nm along an axial transect (36 stations) during March, April, and May 2008 showed an increasing trend from the marine end member to the upper basin with mean CDOM absorption of 11.06 ± 5.01, 10.05 ± 4.23, 11.67 ± 6.03 (m − 1) and fluorescence 0.80 ± 0.37, 0.78 ± 0.39, 0.75 ± 0.51 (RU), respectively. PARAFAC analysis identified two terrestrial humic-like (component 1 and 2), one non-humic like (component 3), and one soil derived humic acid like (component 4) components. The spatial variation of the components showed an increasing trend from station 1 (near the mouth of basin) to station 36 (end member of bay; upper basin). Deviations from this increasing trend were observed at a bayou channel with very high chlorophyll-a concentrations especially for component 3 in May 2008 that suggested autochthonous production of CDOM. The variability of components with salinity indicated conservative mixing along the middle part of the transect. Component 1 and 4 were found to be relatively constant, while components 2 and 3 revealed an inverse relationship for the sampling period. Total organic carbon showed increasing trend for each of the components. An increase in humification and a decrease in fluorescence indices along the transect indicated an increase in terrestrial derived organic matter and reduced microbial activity from lower to upper basin. The use of these indices along with PARAFAC results improved dissolved organic matter characterization in the Barataria Basin.
doi_str_mv	10.1016/j.scitotenv.2010.03.044
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CDOM optical properties of absorption and fluorescence at 355 nm along an axial transect (36 stations) during March, April, and May 2008 showed an increasing trend from the marine end member to the upper basin with mean CDOM absorption of 11.06 ± 5.01, 10.05 ± 4.23, 11.67 ± 6.03 (m − 1) and fluorescence 0.80 ± 0.37, 0.78 ± 0.39, 0.75 ± 0.51 (RU), respectively. PARAFAC analysis identified two terrestrial humic-like (component 1 and 2), one non-humic like (component 3), and one soil derived humic acid like (component 4) components. The spatial variation of the components showed an increasing trend from station 1 (near the mouth of basin) to station 36 (end member of bay; upper basin). Deviations from this increasing trend were observed at a bayou channel with very high chlorophyll-a concentrations especially for component 3 in May 2008 that suggested autochthonous production of CDOM. The variability of components with salinity indicated conservative mixing along the middle part of the transect. Component 1 and 4 were found to be relatively constant, while components 2 and 3 revealed an inverse relationship for the sampling period. Total organic carbon showed increasing trend for each of the components. An increase in humification and a decrease in fluorescence indices along the transect indicated an increase in terrestrial derived organic matter and reduced microbial activity from lower to upper basin. 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CDOM optical properties of absorption and fluorescence at 355 nm along an axial transect (36 stations) during March, April, and May 2008 showed an increasing trend from the marine end member to the upper basin with mean CDOM absorption of 11.06 ± 5.01, 10.05 ± 4.23, 11.67 ± 6.03 (m − 1) and fluorescence 0.80 ± 0.37, 0.78 ± 0.39, 0.75 ± 0.51 (RU), respectively. PARAFAC analysis identified two terrestrial humic-like (component 1 and 2), one non-humic like (component 3), and one soil derived humic acid like (component 4) components. The spatial variation of the components showed an increasing trend from station 1 (near the mouth of basin) to station 36 (end member of bay; upper basin). Deviations from this increasing trend were observed at a bayou channel with very high chlorophyll-a concentrations especially for component 3 in May 2008 that suggested autochthonous production of CDOM. The variability of components with salinity indicated conservative mixing along the middle part of the transect. Component 1 and 4 were found to be relatively constant, while components 2 and 3 revealed an inverse relationship for the sampling period. Total organic carbon showed increasing trend for each of the components. An increase in humification and a decrease in fluorescence indices along the transect indicated an increase in terrestrial derived organic matter and reduced microbial activity from lower to upper basin. 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CDOM optical properties of absorption and fluorescence at 355 nm along an axial transect (36 stations) during March, April, and May 2008 showed an increasing trend from the marine end member to the upper basin with mean CDOM absorption of 11.06 ± 5.01, 10.05 ± 4.23, 11.67 ± 6.03 (m − 1) and fluorescence 0.80 ± 0.37, 0.78 ± 0.39, 0.75 ± 0.51 (RU), respectively. PARAFAC analysis identified two terrestrial humic-like (component 1 and 2), one non-humic like (component 3), and one soil derived humic acid like (component 4) components. The spatial variation of the components showed an increasing trend from station 1 (near the mouth of basin) to station 36 (end member of bay; upper basin). Deviations from this increasing trend were observed at a bayou channel with very high chlorophyll-a concentrations especially for component 3 in May 2008 that suggested autochthonous production of CDOM. The variability of components with salinity indicated conservative mixing along the middle part of the transect. Component 1 and 4 were found to be relatively constant, while components 2 and 3 revealed an inverse relationship for the sampling period. Total organic carbon showed increasing trend for each of the components. An increase in humification and a decrease in fluorescence indices along the transect indicated an increase in terrestrial derived organic matter and reduced microbial activity from lower to upper basin. The use of these indices along with PARAFAC results improved dissolved organic matter characterization in the Barataria Basin.</abstract><cop>Netherlands</cop><pub>Elsevier B.V</pub><pmid>20447682</pmid><doi>10.1016/j.scitotenv.2010.03.044</doi><tpages>12</tpages></addata></record>
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subjects	Barataria Basin Basins Carbon CDOM Dissolved organic matter EEM Excitation Factor analysis Factor Analysis, Statistical Fluorescence Louisiana Microorganisms Models, Chemical Organic Chemicals - analysis PARAFAC Spectrometry, Fluorescence Stations Trends Water - chemistry
title	Chromophoric dissolved organic matter (CDOM) variability in Barataria Basin using excitation–emission matrix (EEM) fluorescence and parallel factor analysis (PARAFAC)
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