Hostname: page-component-cd9895bd7-7cvxr Total loading time: 0 Render date: 2024-12-22T02:45:31.142Z Has data issue: false hasContentIssue false

A >22,000 yr diatom record from the plateau of Zambia

Published online by Cambridge University Press:  03 July 2017

Kurt A. Haberyan*
Affiliation:
Department of Natural Sciences, Northwest Missouri State University, Maryville, Missouri 64468, USA
*
*Corresponding author at: Department of Natural Sciences, Northwest Missouri State University, Maryville, Missouri 64468, USA. E-mail address: khaber@nwmissouri.edu (K.A. Haberyan).

Abstract

Diatoms and sediments were examined in a 530 cm core from Ishiba Ngandu, Zambia, a lake formed by gentle downwarping. Diatom zone D (>20 cal ka BP) was mostly sand with abundant Aulacoseira and Eunotia, suggesting a shallow lake perhaps kept fresh by spring inputs and lake discharge, except during deposition of the lowermost 66 cm. Gyttja deposition between about 22 and 20 cal ka BP suggested a deeper lake and a wetter climate, perhaps because the Congo Air Boundary (CAB) was farther southeast relative to modern times. The next zone, zone C (about 20–19 cal ka BP), was sand with abundant Achnanthidium and Eunotia but very few planktonic diatoms, apparently representing very shallow water and an arid period without the CAB. The gyttja and diatoms in zone B (19–4 ka) suggested an increase in moisture when the CAB returned. Zone A (4–0 cal ka BP) was dominated by the planktonic Aulacoseira (>89%), suggesting an increase in wind-driven mixing. Uniquely, Ishiba Ngandu likely has been relatively moist since the last glacial maximum, matching pre-Holocene wetness in Botswana but not its Holocene aridity; evidently the climate here had switched to that of East Africa.

Type
Tribute to Daniel Livingstone and Paul Colinvaux
Copyright
Copyright © University of Washington. Published by Cambridge University Press, 2017 

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

REFERENCES

Ayers, H.R., 1974. The Geology of the Shiwa N’Gandu Area: Explanation of Degree Sheet 1131, NE Quarter. Geological Survey of Zambia Report 64. Geological Survey of Zambia, Lusaka, Zambia.Google Scholar
Bahls, L.L., 2006. Northwest Diatoms – A Photographic Catalogue of Species in the Montana Diatom Collection with Ecological Optima, Associates, and Distribution Records for the Nine Northwestern United States. Loren L. Bahls, Helena, Montana.Google Scholar
Barker, P., Williamson, D., Gasse, F., Gibert, E., 2003. Climatic and volcanic forcing revealed in a 50,000-year diatom record from Lake Massoko, Tanzania. Quaternary Research 60, 368376.Google Scholar
Barker, P.A., Talbot, M.R., Street-Perrott, F.A., Marret, F., Scourse, J., Odada, E., 2004. Late Quaternary climatic variability in intertropical Africa. In: Battarbee, R.W., Gasse, F., Stickley, C.E. (Eds.), Past Climate Variability through Europe and Africa. Developments in Paleoenvironmental Research 6. Springer, Dordrecht, the Netherlands, pp. 117138.CrossRefGoogle Scholar
Bigland, E., 1939. The Lake of the Royal Crocodiles. Macmillan, New York.Google Scholar
Blaauw, M., Christen, J.A., 2011. Flexible paleoclimate age-depth models using an autoregressive gamma process. Bayesian Analysis 6, 457474.CrossRefGoogle Scholar
Brook, G.A., Cowart, J.B., Brandt, S.A., 1998. Comparison of Quaternary environmental change in eastern and southern Africa using cave speleothem, tufa and rock shelter sediment data. In: Alsharhan, G., Glennie, K.W., Whintle, G.L., Kendall, C.G.S. (Eds.), Quaternary Deserts and Climate Change. Balkema, Rotterdam, the Netherlands.Google Scholar
Brook, G.A., Marais, E., Srivatava, P., Jordan, T., 2007. Timing of lake-level changes in Etosha Pan, Namibia, since the middle Holocene from OSL ages of relict shoreline in the Okondeka region. Quaternary International 175, 2940.Google Scholar
Burnett, A.P., Soreghan, M.J., Scholz, C.A., Brown, E.T., 2011. Tropical East African climate change and its relation to global climate: a record from Lake Tanganyika, tropical East Africa, over the past 90+ kyr. Palaeogeography, Palaeoclimatology, Palaeoecology 303, 155167.Google Scholar
Burrough, S.L., Thomas, D.S.G., 2013. Central southern Africa at the time of the African Humid Period: a new analysis of Holocene paleoenvironmental and paleoclimate data. Quaternary Science Reviews 80, 2946.CrossRefGoogle Scholar
Burrough, S.L., Thomas, D.S.G., Bailey, R.M., 2009. Mega-lake in the Kalahari: a late Pleistocene record of the Palaeolake Makgadikgadi system. Quaternary Science Reviews 28, 13921411.Google Scholar
Castañeda, I.S., Werne, J.P., Johnson, T.C., 2007. Wet and arid phases in the southeast African tropics since the Last Glacial Maximum. Geology 35, 823826.CrossRefGoogle Scholar
Chase, B., 2009. Evaluating the use of dune sediments as a proxy for palaeo-aridity: a southern African case study. Earth Science Reviews 93, 3145.CrossRefGoogle Scholar
Chase, B.M., Meadows, M.E., 2007. Late Quaternary dynamics of southern Africa’s winter rainfall zone. Earth-Science Reviews 84, 103138.Google Scholar
Chevalier, M., Chase, B.M., 2015. Southeast African records reveal a coherent shift from high- to low-latitude forcing mechanisms along the east African margin across last glacial-interglacial transition. Quaternary Science Reviews 125, 117130.CrossRefGoogle Scholar
Chevalier, M., Chase, B.M., 2016. Determining the drivers of long-term aridity variability: a southern African case study. Journal of Quaternary Science 31, 143151.Google Scholar
De Waele, B., Kampunzu, A.B., Mapani, B.S.E., Tembo, F., 2006. The Mesoproterozoic Irumide belt of Zambia. Journal of African Earth Sciences 46, 3670.CrossRefGoogle Scholar
Federal Department of Trigonometrical and Topographical Surveys (FDTTS), 1962. Shiwa Ngandu, Sheet SC-36-14, 1:250,000. Federal Department of Trigonometrical and Topographical Surveys of Rhodesia and Nyasaland, Salisbury, Rhodesia.Google Scholar
Garcin, Y., Williamson, D., Taieb, M., Vincens, A., Mathé, P.-E., Majule, A., 2006. Centennial to millennial changes in maar-lake deposition during the last 45,000 years in tropical southern Africa (Lake Masoko, Tanzania). Palaeogeography, Palaeoclimatology, Palaeoecology 239, 334354.Google Scholar
Gasse, F., 1986. East African Diatoms: Taxonomy, Ecological Distribution. Bibliotheca Diatomologica 11. Cramer, Berlin.Google Scholar
Gasse, F., Chalié, F., Vincens, A., Williams, M.A.J., Williamson, D., 2008. Climatic patterns in equatorial and southern Africa from 30,000 to 10,000 years ago reconstructed from terrestrial and near-shore proxy data. Quaternary Science Reviews 27, 23162340.CrossRefGoogle Scholar
Haberyan, K.A., 1987. Fossil diatoms and the paleolimnology of Lake Rukwa, Tanzania. Freshwater Biology 17, 429436.Google Scholar
Haberyan, K.A., Hecky, R.E., 1987. The late Pleistocene and Holocene stratigraphy and paleolimnology of Lakes Kivu and Tanganyika. Palaeogeography, Palaeoclimatology, Palaeoecology 61, 169197.Google Scholar
Hogg, A.G., Hua, Q., Blackwell, P.G., Niu, M., Buck, C.E., Guilderson, T.P., Heaton, T.J., et al., 2013. SHCal13 Southern Hemisphere calibration, 0–50,000 years cal BP. Radiocarbon 55, 18891903.CrossRefGoogle Scholar
Johnson, T.C., Brown, E.T., McManus, J., Barker, P., Gasse, F., 2002. A high resolution paleoclimatic record spanning the past 25,000 years in southern East Africa. Science 296, 113116.Google Scholar
Kilham, P., 1990. Ecology of Melosira species in the Great Lakes of Africa. In: Tilzer, M.M., Serruya, C. (Eds.), Large Lakes: Ecological Structure and Function. Springer-Verlag, Berlin, pp. 414427.CrossRefGoogle Scholar
Krammer, K., Lange-Bertalot, H., 1991. Bacillariophyceae, Vols 1–4. In: Ettl, H., Gerloff, J., Heynig, H., Mollenhauer, D. (Eds.), Süßwasserflora von Mitteleuropa. Fischer, Stuttgart, Germany.Google Scholar
Livingstone, D.A., 1971. A 22,000-year pollen record from the plateau of Zambia. Limnology and Oceanography 16, 349356.Google Scholar
Lund, J.W.G., 1954. The seasonal cycle of the plankton diatom Melosira italica (Ehr.) Kütz. subsp. subarctica O. Müll. Journal of Ecology 42, 151179.Google Scholar
Nash, D.J., Meadows, M.E., 2012. Africa. In: Metcalfe, S.E., Nash, D.J. (Eds.), Quaternary Environmental Change in the Tropics. Wiley-Blackwell, Oxford, UK, pp. 79150.Google Scholar
Nash, D.J., Meadows, M.E., Gulliver, V.L., 2006. Holocene environmental change in the Okavango Panhandle, northwest Botswana. Quaternary Science Reviews 25, 13021322.Google Scholar
Patrick, R., Reimer, C.W., 1966. The Diatoms of the United States, Vol. 1. Monographs of the Academy of Natural Sciences of Philadelphia 13. Academy of Natural Sciences of Philadelphia, Philadelphia, PA.Google Scholar
Patrick, R., Reimer, C.W., 1975. The Diatoms of the United States, Vol. 2(1). Monographs of the Academy of Natural Sciences of Philadelphia 13. Academy of Natural Sciences of Philadelphia, Philadelphia, PA.Google Scholar
Ricardo, C.K., 1939. Report on the Fish and Fisheries of Lake Rukwa in Tanganyika Territory and the Bangweulu Region in Northern Rhodesia. Crown Agents for the Colonies, London.Google Scholar
Richardson, J.L., 1968. Diatoms and lake typology in East and Central Africa. Internationale Revue der Gesamten Hydrobiologie und Hydrographie 53, 299338.Google Scholar
Robbins, L.H., Murphy, M.L., Stevens, N.J., Brook, G.A., Ivester, A.H., Haberyan, K.A., Klein, R.G., et al., 1996. Paleoenvironment and archaeology of Drotsky’s Cave: western Kalahari Desert, Botswana. Journal of Archaeological Science 23, 722.Google Scholar
Scholz, C.A., King, J.W., Ellis, G.S., Swart, P.K., Stager, J.C., Colman, S.M., 2003. Paleolimnology of Lake Tanganyika, East Africa, over the past 100 kyr: lake basins as archives of continental tectonics and paleoclimate. Journal of Paleolimnology 30, 139150.Google Scholar
Sinninghe Damsté, J.S., Verschuren, D., Ossebaar, J., Blokker, J., van Houten, R., van deer Meer, M.T.J., Plessen, B., Shouten, S., 2011. A 25,000-year record of climate-induced changes in lowland vegetation of eastern equatorial Africa revealed by the stable carbon-isotopic composition of fossil plant leaf waxes. Earth and Planetary Science Letters 302, 236246.Google Scholar
Stager, J.C., 1988. Environmental changes at Lake Cheshi, Zambia, since 40,000 years B.P. Quaternary Research 29, 5465.Google Scholar
Stuiver, M., Reimer, P.J., 1993. Extended 14C data base and revised CALIB 3.0 14C age calibration program. Radiocarbon 35, 215230.CrossRefGoogle Scholar
Telfer, M.W., Hess, P.P., 2013. Palaeoenvironmental reconstructions from linear dunefields: recent progress, current challenges and future directions. Quaternary Science Reviews 78, 121.Google Scholar
Thomas, D.S.G., Bailey, R.M., Shaw, P.A., Duncan, J., Singarayer, J.S., 2009. Late Quaternary highstands at Lake Chilwa, Malawi: frequency, timing and possible forcing mechanisms in the last 44 ka. Quaternary Science Reviews 28, 526537.Google Scholar
Thomas, D.S.G., Brook, G., Shaw, P., Bateman, M., Haberyan, K., Appleton, C., Nash, D., McLaren, S., Davies, F., 2003. Late Pleistocene wetting and drying in the NW Kalahari: an integrated study from the Tsodilo Hills, Botswana. Quaternary International 104, 5367.Google Scholar
Thomas, D.S.G., Burrough, S.L., 2012. Interpreting geoproxies of late Quaternary climate change in African drylands: implications for understanding environmental change and early human behaviour. Quaternary International 253, 517.CrossRefGoogle Scholar
Tierney, J.E., Russell, J.M., Huang, Y., 2010. A molecular perspective on Late Quaternary climate and vegetation change in the Lake Tanganyika basin, East Africa. Quaternary Science Reviews 29, 787800.Google Scholar
Tierney, J.E., Russell, J.M., Sinninghe Damsté, J.S., Huang, Y., Verschuren, D., 2011. Late Quaternary behavior of the East African monsoon and the importance of the Congo Air Boundary. Quaternary Science Reviews 30, 798807.Google Scholar
Vincens, A., Buchet, G., Williamson, D., Taieb, M., 2005. A 23,000 yr pollen record from Lake Rukwa (8° S, SW Tanzania): new data on vegetation dynamics and climate in central eastern Africa. Review of Palaeobotany and Palynology 137, 147162.Google Scholar
Waller, H., 1874. The Last Journals of David Livingstone, in Central Africa, from 1865 to His Death. Vol. 1, 18661868. Qontro Classics, London.Google Scholar
Supplementary material: File

Haberyan supplementary material

Table S1

Download Haberyan supplementary material(File)
File 59.3 KB
Supplementary material: File

Haberyan supplementary material

Table S2

Download Haberyan supplementary material(File)
File 29.2 KB