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Late Quaternary Temperature Variability in the Benguela Current System Derived from Alkenones

Published online by Cambridge University Press:  20 January 2017

Georg J. Kirst
Affiliation:
Fachbereich Geowissenschaften, Universität Bremen, Postfach 330 440, 28334, Bremen, Germany
Ralph R. Schneider
Affiliation:
Fachbereich Geowissenschaften, Universität Bremen, Postfach 330 440, 28334, Bremen, Germany
Peter J. Müller
Affiliation:
Fachbereich Geowissenschaften, Universität Bremen, Postfach 330 440, 28334, Bremen, Germany
Isabel von Storch
Affiliation:
Fachbereich Geowissenschaften, Universität Bremen, Postfach 330 440, 28334, Bremen, Germany
Gerold Wefer
Affiliation:
Fachbereich Geowissenschaften, Universität Bremen, Postfach 330 440, 28334, Bremen, Germany

Abstract

Three sediment cores on a transect across the continental slope off Namibia at about 23°S were investigated for alkenone-derived past sea-surface temperature (SST) and total organic carbon (TOC) content. These records are used to reconstruct variations of surface circulation, coastal upwelling, and paleoproductivity in the northern Benguela Current System for the last 150,000 yr. The SST record most distant from the coast resembles a SST pattern typical of the pelagic ocean, with the lowest SST at full-glacial periods and the highest SST during the Eemian and the Holocene. In contrast to the modern conditions where annual mean SST decreases toward the coast, the shelf-edge SST record has the most prominent warm anomalies of about 2°C during isotope stages 2 and 6 compared with the open ocean. The glacial SST minimum in the record close to the shelf is observed between 50,000 and 35,000 yr B.P., while the record midway along the transect shows intermediate temperature conditions between the offshore and nearshore records. The causal process for the warm anomalies under full ice-age conditions close to the coast may be similar to that of recent “Benguela Niño events” that originate from perturbations in the tradewind system over the western tropical Atlantic. During these events the Angola–Benguela Front, located at about 16°S, weakens and intensive southward protrusions of tropical water masses extend into the nearshore upwelling area as far as 25°S. Thus, the two nearshore records primarily responded to variations in the time-integrated balance between upwelling intensity and southward protrusions of anomalously warm and nutrient-poor Angolan surface waters, as indicated by the good anticorrelation of SST and TOC content. Accordingly, surface water cooling off Namibia over the last 150,000 yr was most intense during stage 3 due to strong winds that worked in favor of upwelling and a decrease of Angolan warm water influence.

Type
Research Article
Copyright
University of Washington

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References

Bard, E..(1988). Correction of accelerator mass spectrometry 14C ages measured in planktonic foraminifera: Paleoceanographic implications. Paleoceanography. 3, (1988). 635645.CrossRefGoogle Scholar
Bickert, T., Wefer, G..(1999). South Atlantic and benthic foraminifer δ13C deviations: Implications for reconstructing Late Quaternary deep-water circulation. Deep-Sea Research II. 46, (1999). 437452.CrossRefGoogle Scholar
Billups, K., Spero, H.J..(1996). Reconstructing the stable isotope geochemistry and paleotemperatures of the equatorial Atlantic during the last 150,000 year: Results from individual foraminifera. Paleoceanography. 11, (1996). 217238.CrossRefGoogle Scholar
CLIMAP Project Members (1981). Seasonal reconstructions of the earth’s surface at the last glacial maximum.. GSA Map and Chart Series, MC-36, Geological Society of America, Boulder, CO. Google Scholar
CLIMAP Project Members (1984). The last interglacial ocean.. Quaternary Research. 21, 123224.CrossRefGoogle Scholar
Diester-Haass, L..(1985). Late Quaternary sedimentation on the eastern Walvis Ridge, SE Atlantic (HPC 532 and four piston cores). Marine Geology. 65, (1985). 145189.Google Scholar
Emeis, K.-C., Anderson, D.M., Doose, H., Kroon, D., Schulz-Bull, D..(1995). Sea-surface temperatures and the history of monsoon upwelling in the northwest Arabian Sea during the last 500,000 year. Quaternary Research. 43, (1995). 355361.CrossRefGoogle Scholar
Gordon, A.L..(1986). Interocean exchange of thermohaline water. Journal of Geophysical Research. 91, (1986). 50375046.Google Scholar
Hart, T.J., Currie, R.I..(1960). The Benguela Current. Discovery Report. 31, (1960). 123298.Google Scholar
Heine, K., Walter, R..(1996). Gypcretes of central Namib Desert, Namibia. Palaeoecology of Africa. 24, (1996). 159172.Google Scholar
Hinrichs, K.-U, Schneider, R. R, Müller, P. J and Rullkötter, J. in press, A biomarker perspective on paleoproductivity variations in two Late Quaternary sediment sections in the Southeast Atlantic Ocean. Organic Geochemistry.Google Scholar
Howard, W.R., Prell, W.L..(1992). Late Quaternary surface circulation of the southern Indian Ocean and its relationship to orbital variations. Paleoceanography. 7, (1992). 79117.Google Scholar
Imbrie, J., Hays, J.D., Martinson, D.G., McIntyre, A., Mix, A.C., Morley, J.J., Pisias, N.G., Prell, W.L., Shackleton, N.J..(1984). The orbital theory of Pleistocene climate: Support from a revised chronology of the marine δ18O record. Berger, A., Imbrie, J., Hays, J., Kukla, G., Saltzman, B.. Milankovitch and Climate. (1984). Reidel, Dordrecht., 269305.Google Scholar
Jansen, J.H.F., Ufkes, E., Schneider, R.R..(1996). Late Quaternary movements of the Angola–Benguela Front, SE Atlantic, and implications for advection in the equatorial ocean. Wefer, G., Berger, W.H., Siedler, G., Webb, D.J.. The South Atlantic: Present and Past Circulation. (1996). Springer, Berlin., 553575.Google Scholar
Levitus, S and Boyer, T. (1994). World Ocean Atlas. Vol, 4, Temperature, NOAA Atlas NESDIS 4, U.S. Govt. Printing Office.Google Scholar
Little, M.G., Schneider, R.R., Kroon, D., Price, B., Bickert, T., Wefer, G..(1997). Rapid paleoceanographic changes in the Benguela Upwelling System for the last 160,000 year as indicated by abundances of planktonic foraminifera. Palaeogeography, Palaeoclimatology, Palaeoecology. 160, (1997). 135161.Google Scholar
Little, M.G., Schneider, R.R., Kroon, D., Price, B., Summerhayes, C.P., Segl, M..(1997). Trade wind forcing of upwelling, seasonality, and Heinrich events as a response to sub-Milankovitch climate variability. Paleoceanography. 12, (1997). 568576.CrossRefGoogle Scholar
Lutjeharms, J.R.E..(1996). The exchange of water between the South Indian and South Atlantic Oceans. Wefer, G., Berger, W.H., Siedler, G., Webb, D.J.. The South Atlantic: Present and Past Circulation. (1996). Springer, Berlin., 125162.Google Scholar
Lyle, M.W., Prahl, F.G., Sparrow, M.A..(1992). Upwelling and productivity changes inferred from a temperature record in the central equatorial Pacific. Nature. 355, (1992). 812815.Google Scholar
Marlowe, I.T., Brassell, S.C., Eglington, G., Green, J.C..(1984). Long chain unsaturated ketones and esters in living algae and marine sediments. Organic Geochemistry. 6, (1984). 134141.Google Scholar
Meeuwis, J.M., Lutjeharms, J.R.E..(1990). Surface thermal characteristics of the Angola–Benguela Front. South African Journal of Marin Science. 9, (1990). 261279.CrossRefGoogle Scholar
Müller, P.J., Cepek, M., Ruhland, G., Schneider, R.R..(1997). Alkenone and coccolithophorid species changes in late Quaternary sediments from the Walvis Ridge: Implications for the alkenone paleotemperature method. Palaeogeography, Palaeoclimatology, Palaeoecology. 135, (1997). 7196.CrossRefGoogle Scholar
Müller, P.J., Kirst, G., Ruhland, G., von Storch, I., Rosell-Melé, A..(1998). Calibration of the alkenone paleotemperature index U K 37 based on core-tops from the eastern South Atlantic and the global ocean (60°N–60°S). Geochimica et Cosmochimica Acta. 62, (1998). 17571772.CrossRefGoogle Scholar
Müller, P.J., Schneider, R., Ruhland, G..(1994). Late Quaternary PCO2 Variations in the Angola Current: Evidence from organic carbon δ13C and alkenone temperatures. Zahn, R., Kaminski, M.A., Labeyrie, L., Pedersen, T.F.. Carbon Cycling in the Glacial Ocean: Constraints on the Ocean's Role in global Change. (1994). Springer, New York., 343366.Google Scholar
Nadeau, M.-J., Schleicher, M., Grootes, P.M., Erlenkeuser, H., Gottdang, A., Mous, D.J.W., Sarnthein, J.M., Willkomm, H..(1997). The Leibniz-Labor AMS facility at the Christian-Albrechts University, Kiel, Germany. Nuclear Instruments and Methods in Physics Research. 123, (1997). 2230.Google Scholar
Oberhänsli, H..(1991). Upwelling signals at the northeastern Walvis Ridge during the past 500,000 year. Paleoceanography. 6, (1991). 5371.Google Scholar
Peterson, R.G., Stramma, L..(1991). Upper-level circulation in the South Atlantic Ocean. Progress in Oceanography. 26, (1991). 173.Google Scholar
Prahl, F.G., de Lange, G.J., Lyle, M., Sparrow, M.A..(1989). Post-depositional stability of long-chain alkenones under contrasting redox conditions. Nature. 341, (1989). 434437.Google Scholar
Prahl, F.G., Muehlhausen, L.A., Zahnle, D.L..(1988). Further evaluation of long-chain alkenones as indicators of paleoceanographic conditions. Geochimica et Cosmochimica Acta. 52, (1988). 23032310.Google Scholar
Rosell-Melé, A., Eglington, G., Pflaumann, U., Sarnthein, M..(1995). Atlantic core-top calibration of the UK37 index as a sea-surface palaeotemperature indicator. Geochimica et Cosmochimica Acta. 59, (1995). 30993107.Google Scholar
Rostek, F., Ruhland, G., Bassinot, F.C., Müller, P.J., Labeyrie, L.D., Lancelot, Y., Bard, E..(1993). Reconstructing sea surface temperature and salinity using δ18O and alkenone records. Nature. 364, (1993). 319321.Google Scholar
Schmidt, H..(1992). Der Benguela-Strom im Bereich des Walfisch-Rückens im Spätquartär. Berichte, Fachbereich Geowissenschaften. 28, (1992).Google Scholar
Schneider, R.R., Müller, P.J., Ruhland, G..(1995). Late Quaternary surface circulation in the east equatorial South Atlantic: Evidence from alkenone sea surface temperatures. Paleoceanography. 10, (1995). 197219.Google Scholar
Schneider, R.R., Müller, P.J., Ruhland, G., Meinecke, G., Schmidt, H., Wefer, G..(1996). Late Quaternary surface temperatures and productivity in the east-equatorial South Atlantic: Response to changes in trade/monsoon wind forcing and surface water advection. Wefer, G., Berger, W.H., Siedler, G., Webb, D.J.. The South Atlantic: Present and Past Circulation. (1996). Springer, Berlin., 527551.Google Scholar
Schulz, H..(1992). Bericht und erste Ergebnisse über die Meteor-Fahrt M20/2, Abidjan–Dakar, 27.12.1991–3.2.1992. Berichte, Fachbereich Geowissenschaften. 25, (1992).Google Scholar
Shannon, L.V..(1985). The Benguela ecosystem. Part I. Evolution of the Benguela, physical features and processes. Oceanography Marine Biology Annual Review. 23, (1985). 105182.Google Scholar
Shannon, L. V., Agenbag, J. J. and Buys, M. E. L. (1987). Large- and mesoscale features of the Angola-Benguela Front. InThe Benguela and Comparable Ecosystems (Payne, A. I. L., Gulland, J. A. and Brink, K. H.Eds.) South African Journal of Marine Science5, 11–34.Google Scholar
Shannon, L.V., Boyd, A.J., Brundrit, G.B., Taunton-Clark, J..(1986). On the existence of an El Niño-type phenomenon in the Benguela System. Journal of Marine Research. 44, (1986). 495520.Google Scholar
Sikes, E.L., Volkman, J.K., Robertson, L.G., Pichon, J.-J..(1997). Alkenones and alkenes in surface waters and sediments of the Southern Ocean: Implications for paleotemperature estimation in polar regions. Geochimica et Cosmochimica Acta. 61, (1997). 14951505.Google Scholar
Smith, R.M.H., Mason, T.R., Ward, J.D..(1993). Flash-flood sediments and ichnofacies of the late Pleistocene Homeb Silt, Kuiseb River, Namibia. Sedimentary Geology. 85, (1993). 579599.Google Scholar
Sonzogni, C., Bard, E., Rostek, F., Dollfus, D., Rosell-Melé, A., Eglinton, G..(1997). Temperature and salinity effects on alkenone ratios measured in surface sediments from the Indian Ocean. Quaternary Research. 47, (1997). 344355.Google Scholar
Stott, L.D., Tang, C.M..(1996). Reassessment of foraminiferal-based tropical sea surface δ18O paleotemperatures. Paleoceanography. 11, (1996). 3756.Google Scholar
Summerhayes, C.P., Kroon, D., Rosell-Mele, A., Jordan, R.W., Schrader, H.-J., Hearn, R., Villanueva, J., Grimalt, J.O., Eglington, G..(1995). Variability in the Benguela Current upwelling system over the past 70,000 year. Progress in Oceanography. 35, (1995). 207251.Google Scholar
Treppke, U., Lange, C.B., Donner, B., Fischer, G., Ruhland, G., Wefer, G..(1996). Diatom and silicoflagellate fluxes at the Walvis Ridge: An environment influenced by coastal upwelling in the Benguela system. Journal of Marine Research. 54, (1996). 9911016.Google Scholar
Verardo, D.J., McIntyre, A..(1994). Production and destruction: Control of biogenous sedimentation in the tropical Atlantic 0-300,000 year B.P. Paleoceanography. 9, (1994). 6386.Google Scholar
Villanueva, J., Grimalt, J.O., Cortijo, E., Vidal, L., Labeyrie, L..(1998). Assessment of sea surface temperature variations in the central North Atlantic using the alkenone unsaturation index (U K 37). Geochimica et Cosmochimica Acta. 62, (1998). 24212427.Google Scholar
Wefer, G., Berger, W.H., Bickert, T., Donner, B., Fischer, G., Kemle-von Mücke, S., Meinecke, G., Müller, P.J., Mulitza, S., Niebler, H.-S., Pätzold, J., Schmidt, H., Schneider, R.R., Segl, M..(1996). Late Quaternary surface circulation in the South Atlantic: The stable isotope record and implications for heat transport and productivity. Wefer, G., Berger, W.H., Siedler, G., Webb, D.J.. The South Atlantic: Present and Past Circulation. (1996). Springer, Berlin., 461502.Google Scholar