Pascal Kosuth scite author profile

The floodplains of the Amazon basin influence the hydrology and fluxes of suspended solids and solutes on multiple scales. Our study focused on the floodplain of Lago Grande de Curuaí (Óbidos, Brazil), a 4000 km 2 segment of floodplain and local upland catchment representative of the lower Amazon. Based on in situ and satellite data acquired from 1997 to 2003, we calculated the exchanges of water between the floodplain and the river and determined the temporal dynamics of flooded area water derived from river flooding, rainfall, runoff, and exchange with groundwater annually for six years. The Amazon River dominated the inputs of water to the flooded area year-round, accounting about 77% of the annual total inputs; rainfall and runoff accounted for about 9% and 10%, respectively, while seepage from the groundwater system accounted for 4%. The hydrologic residence time of the lake was about three months, and the floodplain made a net contribution of water to the river. The exported volume (net balance between water input and 0022-1694/$ -see front matter ª a v a i l a b l e a t w w w . s c i e n c e d i r e c t . c o m j o u r n a l h o m e p a g e : w w w . e l s e v i e r . c o m / l o c a t e / j h y d r o l losses) varied between 4.2 and 7.3 km 3 depending on the year and represented about 0.75 times the maximal storage reached each year. ª

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Sea‐tide effects on flows in the lower reaches of the Amazon River

Kosuth¹,

Callède²,

Laraque³

et al. 2009

Hydrological Processes

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Abstract:The physical influence of sea tides on the lower reaches of the Amazon River can be identified more than 1000 km upstream from the sea. Analysis of upstream tidal wave propagation on the Amazon River contributes to the understanding of the hydrodynamics of the lower reaches and to the quantification of the influence of sea level on sedimentation rates. Continuous over-the-year recording of water levels has been undertaken at eight locations along the lower reaches of the Amazon River and flow measurement campaigns have been organized for different river discharge rates (100 000 m 3 s 1 , 190 000 m 3 s 1 and 250 000 m 3 s 1 ) and sea-tide amplitudes (2-3Ð5 m). Damping, time-delay and deformation of the tidal wave signals, depending on water regimes and distances from the sea, have been analyzed. The physical processes of wave propagation and cyclic water storage and release have been investigated both through data analysis and the application of mathematical hydrodynamic models. The impact of tidal pulses on sediment transport to the sea has been assessed.

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Temporal dynamics of water and sediment exchanges between the Curuaí floodplain and the Amazon River, Brazil

Bourgoin

Bonnet

Martinez

et al. 2007

Journal of Hydrology

125

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Agrarian landscapes linear features detection from LiDAR: application to artificial drainage networks

Bailly¹,

Lagacherie

Millier³

et al. 2008

International Journal of Remote Sensing

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Pascal Kosuth

Floodplain hydrology in an Amazon floodplain lake (Lago Grande de Curuaí)

Sea‐tide effects on flows in the lower reaches of the Amazon River

Temporal dynamics of water and sediment exchanges between the Curuaí floodplain and the Amazon River, Brazil

Agrarian landscapes linear features detection from LiDAR: application to artificial drainage networks

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