The Hydrometeorology of Niger River Basin

Chucks Okoli

doi:10.4028/www.scientific.net/AMR.824.613

Paper Titles

Reflections on Technology Transfer between University's Schools of Engineering and Sciences and Industry in Nigeria
p.579

Maintenance and Availability Study of a Manufacturing Company: Case Study of a Flour Mill Company
p.584

Determination of Hydraulic and Hydrological Parameters of Available Streams in Okada Town and its Environs for Viable Source of Water Supply
p.597

Assessment of Adequacy of Available Streams in Okada/Environs for Viable Source of Sustainable Water Supply
p.605

The Hydrometeorology of Niger River Basin
p.613

Preliminary Design for Solid Waste Incineration for Power Generation in Benin Metropolis, Nigeria
p.630

Geo-Spatial Information for the Location and Maintenance Management of Water Service Pipelines
p.635

Modelling the Transport and Dispersion of Atmospheric Aerosols over Warri Area of the Niger Delta Subregion of Nigeria
p.643

An Assessment of the Ambient Air Quality around Major Road Intersections within Warri Metropolis
p.650

HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 824The Hydrometeorology of Niger River Basin

The Hydrometeorology of Niger River Basin

Abstract:

This paper examines the mean annual cycle of rainfall and general circulation features over the Niger River Basin consisting of mainly West Africa and Central Africa regions. Rainfall is examined using a 1400-station archive compiled by earlier workers. Other circulation features are examined using the NCEPNCAR reanalysis dataset. Important features of the reanalysis zonal wind field are shown to compare well with the seasonal evolution described by the radiosonde observations. In addition to the well-known African easterly jet (AEJ) of the Northern Hemisphere, the seasonal evolution of its Southern Hemisphere counterpart is also described. Thermal wind calculations show that although the southern jet is weaker, its existence is also due to a local reversal of the surface temperature gradient. In the upper troposphere, a strong semiannual cycle is shown in the 200-mb easterlies and a feature like the tropical easterly jet (TEJ) is evident south of the equator in January and February. The paper describes the movement of the rainbelt between central and West Africa. An asymmetry in the northward and southward migration of the rainbelt is evident. The paper discusses the influence that the jets may have on rainfall and possible feedback effects of rainfall on the jets. Evidence suggests that the midtropospheric jets influence the development of the rainy season, but also that the rainfall affects the surface temperature gradient and in turn the jets. In the Northern Hemisphere, east of 20⁰E, the axis of the TEJ is located so that it may promote convection by increasing upper-level divergence. However, west of 10⁰E and in the Southern Hemisphere, the location of the TEJ is consistent with the suggestion that it is the equatorward outflow of convection that produces the TEJ. The paper notes that rainfall and river flow is largely influenced by groundwater base flow, and a return to sustained river flow requires replenishment of the aquifers, which is possible only with cumulative raining years. The paper confirms that there is correlation between the decrease in rainfall and low river flows.