Abstract
Abstract Aim This study aimed to evaluate land use, distribution of particle size fractions, organic matter (OM) and perform a metal quantification liable to complexation in the Itupararanga Reservoir (São Paulo, Brazil). This aquatic ecosystem is used for water supply and energy generation and is constantly subjected to anthropogenic impacts that alter its physical and chemical characteristics. Methods In a single campaign, samples of surface sediment (10 cm) were collected from nine sampling stations, in triplicate, along the reservoir. The collection was carried out with a “Lenz” type bottom sampler. The physicochemical variables, including the quantification of the metals copper, chromium, manganese, nickel, lead and zinc, were evaluated by basic descriptive statistics techniques combined with geostatistics and the use of remote sensing. Results All along the reservoir the sediment is predominantly organic and water depth interfered directly in the OM concentration and particle size distribution. Therefore, heterogeneity was observed regarding OM contents, particle size fractions and metals, with the exception of chromium, and the three zones of the reservoir proved to be distinct from each other. The land use classification showed the real situation of the Environmental Protection Area (EPA) and the results indicate that the central portion is more subject to anthropic impacts, while the dam region has high levels of metals, probably originated from the activities in the reservoir’s surroundings. Conclusions The soil erosion in the reservoir’s region shows the lack of efficiency in the Itupararanga EPA’s management, being needed a strategic coordination among the municipalities to enhance its conservation.
Highlights
Freshwater reservoirs are hydraulic units of high social, economic and environmental importance, as they are fundamental for the maintenance of the population served by their ecosystem services and the biological communities present there
Aim: This study aimed to evaluate land use, distribution of particle size fractions, organic matter (OM) and perform a metal quantification liable to complexation in the Itupararanga Reservoir (São Paulo, Brazil)
The land use classification showed the real situation of the Environmental Protection Area (EPA) and the results indicate that the central portion is more subject to anthropic impacts, while the dam region has high levels of metals, probably originated from the activities in the reservoir’s surroundings
Summary
Freshwater reservoirs are hydraulic units of high social, economic and environmental importance, as they are fundamental for the maintenance of the population served by their ecosystem services and the biological communities present there. The guarantee of a safe and quality water distributed by these structures, whichever the final use is: public supply, irrigation, electricity generation, navigation, recreation or other, is an essential task (Silva et al, 2016), and must be carried out continuously and permanently. Reservoirs function as information storage systems for events happening and past within the watershed, partly under external influences (de Melo Gurgel et al, 2016; Henry, 1990). Within this scenario, sediments represent the integration among physical, chemical and biological processes in the aquatic environment in which it is located. The study of sediment is crucial when it aims to investigate the reservoir’s environmental quality (Mizael et al, 2020; Pompêo et al, 2013)
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