Forest ecosystems in tropical africa: Orstom, Unesco, Paris, 1983. 473 pp., FF. 150,00, ISBN 92-3-202041-6, Unesco ISBN: Orstom 2-7099-0681-3

Abstract

On the basis of monthly sampling during the period 1987–1989, the geochemistry of the Congo and the Ubangi (second largest tributary of the Congo) rivers was studied in order (1) to understand the seasonal variations of the physico-chemical parameters of the waters and (2) to estimate the annual dissolved fluxes exported by the two rivers. The results presented here correspond to the first three years of measurements carried out for a scientific programme (Interdisciplinary Research Programme on Geodynamics of Peri-Atlantic Intertropical Environments, Operation ‘Large River Basins’ (PIRAT-GBF) undertaken jointly by Institut National des Sciences de l'Univers (INSU) and Institut Français de Recherche Scientifique pour le Développement en Coopération (ORSTOM) planned to run for at least ten years.The Congo River is more diluted than the Ubangi (34 mgl−1 vs. 42 mgl−1). For both rivers, the inorganic dissolved load is composed mainly of HCO3− and SiO2. The chemical composition of the water does not change with time. In the Ubangi River, because of the presence of Precambrian carbonate rocks in its catchment, the proportions of HCO3− and Ca2+ are higher. On a seasonal scale, the concentration of dissolved cations and anions varies inversely with discharge, except silica. The comparison of the discharge-concentration relationship with a theoretical ‘zero dilution’ shows that the evolution of the concentration of dissolved substances is a simple dilution by the surface waters, with, in the case of the Ubangi, a small supply of dissolved substances by the surface waters.Using three different methods of calculation, the estimated annual inorganic dissolved flux of the Congo ranges from 39 × 106 to 44 × 106 tons (according to the year), with about 10% of this coming from the Ubangi drainage basin.