Abstract
The Parana River has been extensively studied in terms of hydrological and sedimentological characterization. However, the geological history of its fluvial plain is poorly understood due the lack of geochronological data. Most of the studies are focused in the low and middle reaches, whereas the region upstream of the Porto Primavera dam is an almost unknown area in terms of geomorphic evolution. Thus, the main aim of this study was to investigate the succession of geological events responsible for the evolution and current configuration of the fluvial system of the Upper Parana River, between the Jupia and Porto Primavera Hydroelectric Power Plants (Sao Paulo and Mato Grosso do Sul states). In order to achieve this goal, we used an integrated approach including remote sensing data, geomorphology, sedimentology, geochronology and bathymetric profiles. Four geomorphological compartments were identified and three of these compartments were dated by Optically Stimulated Luminescence (OSL): Unit 1, raised terrace with circular and semicircular ponds (~150 ka); Unit 2, intermediate terrace with small ponds and waterlogged areas (~60 ka); Unit 3, low terrace with preserved paleochannels (~39-35 ka); and Unit 4, current river plain (>9 ka). The geomorphological units were correlated with previous studies downstream of the studied area and their sedimentary characteristics and depositional ages suggest that their genesis are linked to changes in climatic and hydrological conditions during the Late Quaternary. Units 1, 3 and 4 are considered extensions of the geomorphological units Taquarucu, Fazenda Boa Vista and Rio Parana, respectively. Unit 2 is a compartment with unique morphological characteristics, therefore not correlated with units presented in previous works. Further, two main knickpoints were identified, suggesting an important control in the sedimentation and development of the terrace levels. Therefore, this work brings new data about the fluvial plain of the upper reach of the Parana River, that allows to interpret that the development of terrace levels and floodplain are strongly controlled by climate changes occurred during the Late Quaternary.
Highlights
The Quaternary period is characterized by large amplitude cyclic climatic variations that produced significant environmental changes in vegetation, sediment production and fluvial regime (Vandenberghe, 1995)
Satellite images obtained before the Porto Primavera reservoir was filled with water revealed that in the study area the Paraná River had very low sinuosity tending to be straight downstream, with the channel on the left side of the fluvial valley, while most of the fluvial plain developed in the right margin of the river
Unit 2 corresponds to intermediate terraces (260–280 m altitude), with small ponds and wet areas. This unit does not have characteristics that allow it to be correlated with units presented in previous works (e.g., Stevaux, 1994, 2000; Souza Filho and Stevaux, 1997), and is a new geomorphological unit for this reach of the Paraná River
Summary
The Quaternary period is characterized by large amplitude cyclic climatic variations (glacial-interglacial) that produced significant environmental changes in vegetation, sediment production and fluvial regime (Vandenberghe, 1995). The sedimentary deposits of fluvial plains record the processes and the environmental changes through the geomorphological evolution of drainage basins (Pazzaglia, 2013). Geomorphological and sedimentological studies combined with absolute datings (e.g., C-14 dating or optically stimulated luminescence – OSL) make possible to use fluvial plains deposits as stratigraphic markers for interpretation and correlations of regional environmental changes (Bridgland and Westaway, 2008). The Paraná River is named after the confluence of the Grande and Paranaíba Rivers on the border of the states of São Paulo, Minas Gerais and Mato Grosso do Sul, and its mouth is far away in the La Plata Estuary on the border between Uruguay and Argentina. The river is divided into upper (Brazil), medium (From Sete Quedas Falls to the mouth of the Paraguay River, lower (from the mouth of the Paraguay to Rosário, Argentina) and tide influenced (from there to its mouth at La Plata Estuary) courses based on distinct geomorphological and hydrological characteristics (Figure 1)
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