Tide distortion and attenuation in an Amazonian tidal river

Authors

  • Paulo T. A. Freitas Universidade Federal do Pará; Programa de Pós-graduação em Biologia Ambiental
  • Odete F. M. Silveira Universidade Federal do Pará; Instituto de Geociências
  • Nils Edvin Asp Universidade Federal do Pará; Programa de Pós-graduação em Biologia Ambiental

DOI:

https://doi.org/10.1590/S1679-87592012000400003

Keywords:

Fluvial discharge, Tide propagation, Tidal rivers

Abstract

The present study seeks to evaluate tidal propagation in the Guamá-Capim river system, in the Amazonian region, considering hydrodynamic and geomorphological aspects. Available data sets on fluvial discharge and water level variations were considered, besides several methods of measuring the tides (currents, water levels and discharges) recorded at different stations and in different periods. The main point argued is that fluvial discharge is the key-factor in tidal distortion and tidal bore formation in the system investigated, whereas the low relief of the area would be the main factor contributing to landward tidal incursion. The results show an impressive upward tidal incursion of more than 200 km, including substantial distortion -increasing upstream -of the tidal wave, of which the ebb phase lasts up to 5 hours longer than the flood, including higher flood current velocities as far as 161 km upstream. Generally, only hyposynchronous tidal response was observed. Seasonally, the fluvial discharge varies about 10 times in the Guamá and 4 times in the Capim River. The increase of the fluvial discharge results in an increasing distortion of the tide, besides a weak increase of the attenuation. During high fluvial discharge periods in conjunction with equinoctial tides (e.g. March-April), a tidal bore occurs in the system, also increased by the generally low relief. Therefore, the conclusions include: low relief and the distortion related to high fluvial discharges are the main factors controlling tidal propagation along the system and tidal bore formation. Furthermore, the system could be classified as a tidal river, in which massive regional fresh water input results in virtually non-existent salinity throughout the Guamá-Capim system.

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Published

2012-12-01

Issue

Section

naodefinida

How to Cite

Tide distortion and attenuation in an Amazonian tidal river . (2012). Brazilian Journal of Oceanography, 60(4), 429-446. https://doi.org/10.1590/S1679-87592012000400003