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Characteristics of the winter boundary layer over the African Plateau: 26 ° S

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Abstract

Characteristics of the winter boundary layer over the (elevation 1600 m) in the vicinity of Johannesburg, 26 ° S, 29 ° E, are described in relation to air pollution potential by means of doppler sounder observations and background climatological data. Regional mean winds for the 800 h Pa level show that the winter boundary layer is dominated by a cell of high pressure over the Limpopo River Valley to the northeast of Johannesburg. To the south of Johannesburg, westerly circumpolar flow is prevalent and encroaches onto the plateau during the passage of frontal perturbations. Doppler sounder wind and turbulence profiles, averaged for the months of August 1984 and June 1985, are presented to establish a boundary-layer climatology. Diurnally averaged doppler sounder profiles for both months revealed a very consistent convective/day — stable/night cycle in the very dry winter conditions. A sharp radiation inversion formed just after sunset up to the 150–200 m level and grew in depth to reach 300 m on average near sunrise. The inversion caused a reduction in frictional drag and the formation of nocturnal low level jet during westerly encroachment. A case study is evaluated to determine the detailed structure of the low level jet near Johannesburg. The thermal wind plays a role in the nocturnal acceleration; mechanisms for its development and maintenance are explored. Additional work is presented on the synoptic cycle and its influence on air pollution dispersion over the African Plateau.

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Authors and Affiliations

  1. Oceanography Department, University of Cape Town, 7700, Rondebosch, South Africa

    Mark R. Jury

  2. Specialist Environmental Investigations, Eskom, P B 40175, 2022, Cleveland, South Africa

    Greg R. Tosen

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  1. Mark R. Jury
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  2. Greg R. Tosen
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Jury, M.R., Tosen, G.R. Characteristics of the winter boundary layer over the African Plateau: 26 ° S. Boundary-Layer Meteorol 49, 53–76 (1989). https://doi.org/10.1007/BF00116405

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