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The Timing and Environmental Significance of Late Quaternary Linear Dune Development in Western Zambia

Published online by Cambridge University Press:  20 January 2017

Peter W. O'Connor  and
David S. G. Thomas
Peter W. O'Connor
Affiliation:
Sheffield Centre for International Drylands Research, Department of Geography, University of Sheffield, Sheffield, S10 2TN, United Kingdom
David S. G. Thomas
Affiliation:
Sheffield Centre for International Drylands Research, Department of Geography, University of Sheffield, Sheffield, S10 2TN, United Kingdom
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Abstract

Optical luminescence dates for 19 samples from the degraded linear dune field of western Zambia indicate multiple periods of regional dune building for the late Quaternary, 32,000–27,000, 16,000–13,000, 10,000–8000, and 5000–4000 yr ago. These dates show that the last glacial maximum was not the only time when dune construction, commonly linked to marked aridity, occurred in central-southern Africa during the late Quaternary. Whereas rainfall significantly less than today's ca. 1400 mm yr−1 is a prerequisite for dune construction in the area, adequate sediment supply also determines dune construction and preservation, so that dune building cannot be simply and singularly linked to marked aridity. The Zambezi River system is proposed as an important source of dune sediments, with the nature of linear dune activity explaining why stacked sediments preserve several phases of dune formation. Chronologies of dune construction in western Zimbabwe and the southwest Kalahari are in broad agreement with our Zambian chronology and support a model of rainfall shifts along a SW–NE gradient, with some notable disparities. These are probably a function of interregional sediment supply differences, the number of samples used to delimit constructional periods, and the multicausal nature of forcing mechanisms.

Type
Research Article
Information
Quaternary Research , Volume 52 , Issue 1 , July 1999 , pp. 44 - 55
Copyright
University of Washington

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References

Aitken, M.J..(1992). Optical dating. Quaternary Science Reviews. 11, (1992). 127131.Google Scholar
Allen, J.R.L..(1974). Reaction, relaxation and lag in natural sedimentary systems: General principles, examples and lessons. Earth Science Reviews. 10, (1974). 263342.Google Scholar
Bullard, J.E., Thomas, D.S.G., Livingstone, I., Wiggs, G.F.S..(1997). Dunefield activity and interactions with climatic variability in the southwest Kalahari Desert. Earth Surface Processes and Landforms. 22, (1997). 165174.3.0.CO;2-9>CrossRefGoogle Scholar
Deacon, J., Lancaster, N..(1988). Late Quaternary Palaeoenvironments of Southern Africa. (1988). Oxford Scientific Publications, Oxford.Google Scholar
Eitel, B., Blumel, W.D..(1998). Pans and dunes in the southwestern Kalahari (Namibia): Geomorphology and evidence for Quaternary paleoclimates. Zeitschrift fur Geomorphologie, NF Supplement Band. 111, (1998). 7395.Google Scholar
Flint, R.F., Bond, G..(1968). Pleistocene sand ridges and pans in western Rhodesia. Bulletin of the Geological Society of America. 79, (1968). 299314.CrossRefGoogle Scholar
Folk, R.L..(1971). Longitudinal dunes of the north-western edge of the Simpson Desert, Northern Territory, Australia. 1. Geomorphology and grain size relationships. Sedimentology. 16, (1971). 554.CrossRefGoogle Scholar
Fryberger, S.G..(1979). Dune forms and wind regime. McKee, E.D.. A Study of Global Sand Seas. (1979). US Govt. Printing Office, Washington., 137169.Google Scholar
Fryberger, S.G., Goudie, A.S..(1981). Arid geomorphology. Progress in Physical Geography. 5, (1981). 420428.CrossRefGoogle Scholar
Grove, A.T..(1958). The ancient ergs of Hausaland and similar formations on the south side of the Sahara. Geographical Journal. 124, (1958). 234257.Google Scholar
Grun, R., Rhodes, E.J..(1991). On the selection of dose points for saturating exponential ESR/TL dose response curves. Ancient TL. 9, (1991). 40.Google Scholar
Huntley, D.J., Godfrey-Smith, D.I., Thewalt, M.L..(1985). Optical dating of sediments. Nature. 313, (1985). 105107.Google Scholar
Imbrie, J. and Duffy, A. (1993). A SPECMAP archive, NOAA Paleoclimatology Program. National Geophysics Data Center, Boulder, CO.Google Scholar
Kocurek, G..(1998). Aeolian system response to external forcing factors—A sequence stratigraphic view of the Saharan region. Alsharan, A., Glennie, K.W., Wintle, G.L., St. C. Kendall, C.G..Quaternary Deserts and Climate Change. (1998). Balkema, Rotterdam., 327337.Google Scholar
Kocurek, G., Havholm, K.G., Deynoux, M., Blakey, R.C..(1991). Amalgamated accumulations resulting from climatic and eustatic changes, Akchar Erg, Mauritania. Sedimentology. 38, (1991). 751772.CrossRefGoogle Scholar
Lancaster, N..(1981). Palaeoenvironmental implications of fixed dune systems in southern Africa. Palaeogeography Palaeoclimatology Palaeoecology. 33, (1981). 395400.CrossRefGoogle Scholar
Lancaster, N..(1982). Linear dunes. Progress in Physical Geography. 6, (1982). 476504.Google Scholar
Lancaster, N..(1986). Grain-size characteristics of linear dunes in the south-western Kalahari. Journal of Sedimentary Petrology. 56, (1986). 395400.Google Scholar
Lancaster, N..(1988). Development of Linear Dunes in the south-western Kalahari, southern Africa. Journal of Arid Environments. 14, (1988). 233244.Google Scholar
Lancaster, N..(1989). Late Quaternary palaeoenvironments of the south-west Kalahari. Palaeogeography, Palaeoclimatology, Palaeoecology. 70, (1989). 367376.Google Scholar
Lancaster, N..(1995). Geomorphology of Desert Dunes. (1995). Routledge, London.Google Scholar
Little, M. G, Schneider, R. R, Kroon, D, Price, B, Bickert, T and Wefer, G. in press, Trade wind forcing of upwelling, seasonality, and Heinrich events as response to sub-Milankovitch climate variability. Palaeooceanography.Google Scholar
Livingstone, I., Thomas, D.S.G..(1993). Modes of linear dune activity and their palaeoenvironmental significance: The southern African example. Pye, K..The Dynamics and Environmental Context of Aeolian Sedimentary Systems. (1993). 91102.Google Scholar
Mabbutt, J.A., Wooding, R.A..(1983). Analysis of longitudinal dunes: Evidence from the Simpson Desert, central Australia. Zeitschrift fur Geomorphologie, Supplement Band. 15, (1983). 5169.Google Scholar
Money, N.J..(1972). An outline of the geology of western Zambia. Records of the Geological Survey, Republic of Zambia. 12, (1972). 103123.Google Scholar
Nanson, G.C., Chen, X.Y., Price, D.M..(1992). Lateral migration, thermoluminescence chronology, and colour variation in longitudinal dunes near Birdsville in the Simpson Desert, Australia. Earth Surface Processes and Landforms. 17, (1992). 807820.CrossRefGoogle Scholar
O'Connor, P.W..(1997). Aeolian Activity and Environmental Change in the Central Mega Kalahari: Implications for the Timing, Nature and Causes of Late Quaternary Aridity. (1997). University of Sheffield, Sheffield.Google Scholar
Partridge, T.C., Demenocal, P.B., Lorentz, S.A., Paiker, M.J., Vogel, J.C..(1997). Orbital forcing of climate over South Africa: A 200,000-year rainfall record from the Pretoria Salt Pan. Quaternary Science Reviews. 16, (1997). 11251133.Google Scholar
Prescott, J.R., Hutton, J.T..(1994). Cosmic ray contributions to dose rates for luminescence and ESR dating: Large depths and long-term variations. Radiation Measurements. 23, (1994). 497500.CrossRefGoogle Scholar
Sarnthein, M..(1978). Sand deserts during glacial maximum and climate optima. Nature. 293, (1978). 4346.CrossRefGoogle Scholar
Stokes, S..(1994). Optical Dating of Selected Late Quaternary Aeolian Sediments from the Southwestern United States. (1994). Univ. of Oxford, .Google Scholar
Stokes, S., Breed, C.S..(1993). A chronostratigraphic re-evaluation of the Tusayan Dunes, Moenkopi Plateau and southern Ward Terrace, northeastern Arizona. Pye, K..The Dynamics and Environmental Context of Aeolian Sedimentary Systems. (1993). 7590.Google Scholar
Stokes, S., Thomas, D.S.G., Washington, R..(1997). Multiple episodes of aridity in southern Africa since the Last Interglacial Period. Nature. 388, (1997). 154158.Google Scholar
Stokes, S., Thomas, D.S.G., Shaw, P.A..(1997). New chronological evidence for the nature and timing of linear dune development in the Southwest Kalahari Desert. Geomorphology. 20, (1997). 8193.Google Scholar
Stokes, S., Haynes, G., Thomas, D.S.G., Horrocks, J.L., Higginson, M., Malifa, M..(1998). Punctuated aridity in southern Africa during the last glacial cycle: The chronology of linear dune construction in the northeastern Kalahari. Palaeogeography, Palaeoclimatology, Palaeoecology. 137, (1998). 305322.CrossRefGoogle Scholar
Thomas, D.S.G..(1984). Ancient ergs of the former arid zones of Zimbabwe, Zambia and Angola. Transactions of the Institute of British Geographers. NS 9, (1984). 7588.Google Scholar
Thomas, D.S.G..(1988). The geomorphological role of vegetation in the dune systems of the Kalahari. Dardis, G.F., Moon, B.P..Geomorphological Studies in Southern Africa. (1988). Balkema, Rotterdam., 145158.Google Scholar
Thomas, D.S.G..(1992). Desert dune activity: Concepts and significance. Journal of Arid Environments. 14, (1992). 1726.Google Scholar
Thomas, D.S.G..(1997). Sand seas and aeolian bedforms. Thomas, D.S.G.. Arid Zone Geomorphology: Process Form and Change in Drylands. (1997). Wiley, Chichester., 323412.Google Scholar
Thomas, D. S. G and Shaw, P. A. (1991a). The Kalahari Environment. Cambridge Univ. Press, Cambridge, UK.Google Scholar
Thomas, D.S.G., Shaw, P.A..(1991). Relict desert dune systems: Interpretations and Problems. Journal of Arid Environments. 20, (1991). 114.Google Scholar
Thomas, D.S.G., Stokes, S., O'Connor, P.W..(1998). Late quaternary aridity in the southwestern Kalahari Desert: New contributions from OSL dating of Aeolian deposits, Northern Cape Province, South Africa. Alsharan, A., Glennie, K.W., Whittle, G.L., St. C. Kendall, C.G.. Quaternary Deserts and Climate Change. (1998). Balkema, Rotterdam., 213224.Google Scholar
Thomas, D.S.G., Stokes, S., Shaw, P.A..(1997). Holocene Aeolian activity in the southwestern Kalahari Desert, southern African: Significance and relationships to Late-Pleistocene dune-building events. The Holocene. 7, (1997). 271279.CrossRefGoogle Scholar
Tseo, G..(1993). Two types of longitudinal dune fields and possible mechanisms for their development. Earth Surface Processes and Landforms. 18, (1993). 627643.CrossRefGoogle Scholar
Tsoar, H. (1978). The Dynamics of Longitudinal Dunes. Final Technical Report DA-ERO 76-G-072. European Research Office, US Army, London.Google Scholar
Warren, A., Kay, S..(1987). The dynamics of dune networks. Frostick, L., Reid, I.. Desert Sediments Ancient and Modern. (1987). 205212.Google Scholar
Wasson, R.J..(1984). Late Quaternary palaeoenvironments in the desert dunefields of Australia. Vogel, J.C.. Late Cainozoic Palaeoenvironments of the Southern Hemisphere. (1984). Balkema, Rotterdam., 419432.Google Scholar
Werner, B.T., Kocurek, G..(1997). Bed-form dynamics: Does the tail wag the dog. Geology. 25, (1997). 771774.Google Scholar
Wiggs, G.F.S., Livingstone, I., Thomas, D.S.G., Bullard, J.E..(1995). Dune mobility and vegetation cover in the southwest Kalahari Desert. Earth Surface Processes and Landforms. 20, (1995). 515529.Google Scholar
Williams, G. J. (1986). A preliminary landsat interpretation of the relict land forms of western Zambia. InGeographical Perspectives on Development in Southern Africa. (Williams, G. J., Wood, A. P. Eds.), pp. 2333. Commonwealth Geographical Bureau, James Cook Univ, Queensland.Google Scholar