2021
DOI: 10.1016/j.apgeochem.2021.105049
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Assessing extracted organic matter quality from river sediments by elemental and molecular characterization: Application to the Tietê and Piracicaba Rivers (São Paulo, Brazil)

Abstract: Urban river pollution causes serious problems to the environment, human health, and water scarcity. Developing tools to identify and assess the health of aquatic river systems is essential for monitoring the quality of rivers and implementing actions. This study assesses the elemental and molecular characteristics of organic matter (OM) extracted from river sediments and associates them with river quality. To assess the quality of sediment cores, the most reactive and available OM from two urban rivers (Tietê … Show more

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Cited by 9 publications
(2 citation statements)
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“…The analysis of this information allows us to conclude that there is effectively an im- mense load of organic matter contributed to the Paraibuna River by the six sub-basins analyzed herein (Tapera, São Pedro, Matirumbide, Yung, Independência and Ipiranga). In Brazil, watercourses that cross larger cities usually have poor water quality due to the discharge of domestic effluents and industrial wastewater, partially treated or untreated (Morais et al, 2021;Tonhá et al, 2021).…”
Section: Dry Seasonmentioning
confidence: 99%
“…The analysis of this information allows us to conclude that there is effectively an im- mense load of organic matter contributed to the Paraibuna River by the six sub-basins analyzed herein (Tapera, São Pedro, Matirumbide, Yung, Independência and Ipiranga). In Brazil, watercourses that cross larger cities usually have poor water quality due to the discharge of domestic effluents and industrial wastewater, partially treated or untreated (Morais et al, 2021;Tonhá et al, 2021).…”
Section: Dry Seasonmentioning
confidence: 99%
“…The first region is observedin the 290 -370 nm range when excited between 250 and 320 nm. The second region of emission occurred between 400 and 550 nm when excited between 250 and 440 nm, which is strongly associated with different fluorophores related to the DOM materials 40 , including the presence of secondary metabolites such as ferulic acid, flavonoids, coumarin, and quercetin 41 . Besides, the DOM from Exit showed high fluorescence emission in the 680 to 710 nm range with maximum intensity at 690 nm, which is associated with the chlorophyll emission, from the phytoplankton algae 42 .…”
Section: A Physicochemical Parameters Of Dommentioning
confidence: 99%