Abstract
Dissolved organic matter (DOM) plays a very important role in the dynamics of different biogeochemical processes in the global marine carbon cycle. Seasonal variations of DOM were investigated using dissolved organic carbon (DOC), absorption spectroscopy, and fluorescence excitation emission matrix–parallel factor analysis (EEM-PARAFAC) in Niushan Island in the East China Sea, off southeast Zhejiang, in winter, spring, and summer 2017. A strong positive correlation between temperature and salinity was observed in winter, whereas negative correlations were obtained in spring and summer. The results suggest that the water in the study area originates from the Changjiang River water coinciding with the direction of winds in winter. On the other hand, the Taiwan Strait water flows northward on the eastern part of the study area in summer and spring. The DOC concentration showed significant seasonal variations and was much lower in summer than in winter, but largely independent of the temperature, degree of absorption and intensity of the fluorescence component. Three tryptophan-like components (C1, C2 and C4) and one humic-like component were identified by the PARAFAC model in winter, while two tryptophan-like components (C1 and C2) and two humic-like components were illustrated in summer. The seasonal variations of DOC concentrations and intensities of the fluorescence components in the study area from winter to summer suggest that the waters in this area were influenced mainly by mixing water of the Changjiang River and the Taiwan Strait. A strongly linear relationship was found between the nutrient and the fluorescence intensities of different components in winter, reflecting the profound impacts of the dynamics of DOM on nutrient cycling.
Highlights
Dissolved organic matter (DOM) is a huge organic reservoir on the earth and plays many important roles in the dynamics of different biogeochemical processes in the global carbon cycle [1]
The results indicated that dissolved organic carbon (DOC) in the present study area exhibited a conservative trend, which was consistent with the seasonal variations of temperature and salinity
excitation emission matrix spectroscopy (EEMs) spectroscopy was combined with parallel factor analysis (PARAFAC) to monitor the characteristics of fluorescent components and source and seasonal variations of chromophoric dissolved organic matter (CDOM) in the study area of East China Sea, off southeast Zhejiang, in winter, spring and summer in 2017
Summary
DOM is a huge organic reservoir on the earth and plays many important roles in the dynamics of different biogeochemical processes in the global carbon cycle [1] It has been extensively investigated regarding its composition, structure, source, sink and the migration process in the aquatic environments [2,3]. It is a challenge to accurately identify and extract subtle chemical compositional changes from the large DOM chemical background for tracking mixing behaviors of different water masses in a complex coastal area These disturbed variable compositions and structures of DOM are the keys to understanding their source, migration, transformation and dynamics process in the global carbon cycle [14]. Suitable analytical methods had to be developed [15,16]
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