Abstract
Sedimentological, mineralogical and geochemical analyses of sediment cores from 9 m-deep, saline Laguna Miscanti, Chile (23 ° 44′S, 67 °46′W, 4140 m a.s.l.) together with high-resolution seismic profiles provide a mid to late Holocene time series of regional environmental change in the Atacama Altiplano constrained by 210Pb and conventional 14C dating. The mid Holocene was the most arid interval since the last glacial maximum, as documented by subaerial exposure and formation of hardgrounds on a playa surface. Extremely low lake levels during the mid Holocene appear consistent with lower effective moisture recorded at other sites along the Altiplano and in the Amazon Basin. Termination of this arid period represented a major shift in the regional environmental dynamics and inaugurated modern atmospheric conditions. The cores show a progressive upward increase in effective moisture interrupted by numerous century-scale drier periods of various intensities and durations that characterize a fluctuating late Holocene climate. In spite of chronological uncertainties, the major environmental changes seem to correlate with the available paleorecords from the region providing a coherent account of effective moisture variability in the tropical highlands of South America.
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Aceituno, P., 1988. On the functioning of the Southern Oscillation in the South American sector. Part I: Surface climate. Monthly Weather Review 116: 505–524.
Aravena, R., H. Peña, A. Grilli, O. Suzuki & M. Mordeckai, 1989. Evolución isotópica de las lluvias y origen de las masas de aire en el Altiplano chileno. IAEA-TECDOC-502, Isotope Hydrology Investigations in Latin America: 129–142.
Bowler, J. M. & J. T. Teller, 1986. Quaternary evaporites and hydrological changes, Lake Tyrrel, northwest Victoria. Austr. J. Earth Sci. 33: 43–63.
Bradbury, J. P., W. E. Dean & R. Y. Anderson, 1993. Holocene climatic and limnologic history of the north-central United States as recorded in the varved sediments of Elk Lake, Minnesota: a synthesis. In: J. P. Bradbury & W. E. Dean (eds), Elk Lake, Minnesota: Evidence for rapid change in the north-central United States. Boulder Colorado, Geol. Soc. Am., Special paper 276: 309–328.
Chivas, A. R., P. De Deckker, J. Cali, A. Chapman, E. Kiss & J. Shelley, 1993. Coupled stable isotope and trace element measurements of lacustrine carbonates as paleoclimatic indicators. In: P. Swart, K. Lohamnn, J. Mckenzie & S. Savin (eds), Climate change in continental isotopic records. Geophys. Monograph 78: 113–122.
Chong Díaz G., 1988. The Cenozoic saline deposits of the Chilean Andes between 18 ° 00′ and 27 ° 00′ south latitude. In: H. Bahlburg, Ch. Breitkreuz & P. Giese (eds), The Southern Central Andes. Lecture Notes in Earth Sci. 17: 1–17.
Coltinari, L., 1993. Global Quaternary Changes in South America. —J. Global-and-Planetary-Change 7: 11–23.
Dean, W. E., 1974. Determination of carbonate and organic matter in calcareous sediments and sedimentary rocks by loss on ignition: comparison with other methods. J. Sed. Petrol. 44: 242–248.
Enfield, D., 1992. Historical and prehistorical overview of El Niño/Southern Oscillation. In: H. Diaz & V. Markgraf (eds), El Niño, historical and paleoclimatic aspects of the Southern Oscillation. Cambridge University Press: 95–118.
Engstrom, D. & S. R. Nelson, 1991. Paleosalinity from trace metals in fossil ostracodes compared with observational records at Devils Lake, North Dakota, USA. Palaeogeogr., Palaeoclim., Palaeoecol. 83: 295–312.
Fontes, J. Ch., F. Gasse, Y. Callot, J.-C. Plaziat, P. Carbonell, P. A. Dupeuble & I. Kaczmarska, 1985. Freshwater to marine-like environments from Holocene lakes in northern Sahara. Nature 317: 608–610.
Fritz, P., A. V. Morgan, U. Eicher & J. H. McAndrews, 1987. Stable isotope, fossil Coleoptera and pollen stratigraphy in Late Quaternary sediments from Ontario and New York State. Palaeogeogr., Palaeoclim., Palaeoecol. 58: 183–202.
Fuenzalida, H. & J. Rutllant, 1986. Estudio sobre el origen del vapor de agua que precipita en el invierno altiplánico. Informe final, Universidad de Chile, 51 pp.
Gasse, F. & J.-C. Fontes, 1989. Palaeoenvironments and palaeohydrology of a tropical closed lake (Lake Asal, Djibouti) since 10 000 yr B.P. Palaeogeogr., Palaeoclim., Palaeoecol. 69: 67–102.
Goldsmith, J. R. & D. L. Graf, 1958. Relation between lattice constants and composition of the Ca−Mg carbonates. Am. Mineralogist 43: 84–101.
Grosjean, M., 1994. Paleohydrology of the Laguna Lejia (north Chilean Altiplano) and climatic implications for late-glacial times. Palaeogeogr., Palaeoclim., Palaeoecol. 109: 89–100.
Grosjean, M. & L. Nuñez, 1994. Lateglacial, Early and Middle Holocene Environments, Human Occupation and Resource Use in the Atacama (Northern Chile). Geoarchaeology 9: 271–286.
Grosjean, M., M. Geyh, B. Messerli & U. Schotterer, in press. Late glacial and early Holocene lake sediments, groundwater formation and climate in the Atacama Altiplano 22–24 °S. J. Paleolimnol.
Hansen, B. C. S., H. E. Wright & J. P. Bradbury, 1984. Pollen studies in the Junin area, central Peruvian Andes. Geol. Soc. Am. Bull. 95: 1454–1465.
Hansen, B. C. S., G. O. Seltzer & H. E. Wright, 1994. Late-Quaternary Vegetation Change in the Central Peruvian Andes. Palaeogeogr., Palaeoclimatol., Palaeoecol. 109: 263–285.
Johnson, T. C., J. D. Halfman & W. J. Showers, 1991. Paleoclimate of the past 4000 years at Lake Turkana, Kenya, based on the isotopic composition of authigenic calcite. Palaeogeogr., Palaeoclim., Palaeoecol. 85: 189–198.
Kelts, K. & M. Talbot, 1990. Lacustrine Carbonates as Geochemical Archives of Environmental Change and Biotic/Abiotic Interactions. In: M. M. Tilzer & C. Serruya (eds), Large Lakes, Ecological Structure and Function: 288–315.
Kelts, K. & M. Shahrabi, 1986. Holocene sedimentology of hypersaline lake Urmia, northwestern Iran. Palaeogeogr. Palaeoclim., Palaeoecol. 54: 105–130.
Kessler, A., 1990. Das El Niño-Phanomen und der Titicacaseespiegel. Mainzer Geographische Studien 34: 91–100.
Last, W., 1994. Paleohydrology of playas i the Northern Great Plains: Perspectives from Palliser's triangle: In: Rosen M. (ed) Paleoclimate and Basin evolution of playa systems. Special paper GSA 289: 69–80.
Lorius, C. & H. Oeschger, 1994. Paleo-perspectives: Reducing uncertainties in Global Change. Ambio 23/1: 30–36.
Markgraf, V., J. R. Dodson, A. P. Kershaw, M. S. Mcglone & N. Nicholls, 1991. Evolution of late Pleistocene and Holocene climates in the circum-South Pacific land areas. Clim. Dynamics 6: 193–211.
Markgraf, V., 1993. Paleoenvironments and paleoclimates in Tierra del Fuego and southernmost Patagonia, South America. Palaeogeogr., Palaeoclim., Palaeoecol. 102: 53–68.
Martin, L., M. Fournier, P. Mourguiart, A. Sifeddine, B. Turcq, M. L. Absy & J. M. Flexor, 1993. Southern Oscillation Signal in South American Palaeoclimatic Data of the Last 7000 Years. Quat. Res. 39: 338–346.
McGlone, M., A. P. Kershaw & V. Markgraf, 1992. El Niño/Southern Oscillation climatic variability in Australasian and South American paleoenvironmental records. In: H. Diaz & V. Markgraf (eds), El Niño, historical and paleoclimatic aspects of the southern oscillation. Cambridge University Press: 435–462.
Messerli, B., M. Grosjean, G. Bonani, A. Bürgi, M. Geyh, K. Graf, K. Ramseyer, H. Romero, U. Schotterer, H. Schreier & M. Vuille, 1993. Climate change and natural resource dynamics of the Atacama Altiplano during the last 18 000 years: a preliminar synthesis. Mountain Res. Developm. 13: 117–127.
Messerli, B., C. Ammann, M. A. Geyh, M. Grosjean, B. Jenny, K. Kammer & M. Vuille, in press. The problem of the ‘Andean Dry Diagonal’: current precipitation, late Pleistocene snow line and lake level changes in the Atacama Altiplano 18°S–28/29°S. Bamb. Geographische Schriften.
Miller, A., 1976. The climate of Chile. In: SchwerdtfegerW. (ed.). Climates of Central and South America, World Survey of Climatology, v. 12: 113–146. Elsevier, Amsterdam.
Mourguiart, P., D. Wirrmann, M. Fournier & M Servant, 1992. Reconstruction quantitative des niveaux du petit lac Titicaca au cours de l'Holocène. C. R. Acad. Sci. Paris 315: 875–880.
Müller, G., G. Irion & U. Forstner, 1972. Formation and diagenesis of inorganic Ca−Mg carbonates in the lacustrine environment. Naturwissenschaften 59: 158–164.
Müller, G. & F. Wagner, 1978. Holocene carbonate evolution in Lake Balaton (Hungary): a response to climate and impact of man. In: A. Matter & M. Tucker (eds) Modern and ancient lake sediments. IAS Sp. 2: 57–81.
Nicholls, N., 1989. How old is ENSO?. Climate Change 14: 111–115.
Nuñez, L. A., 1983. Paleoindian and Archaic Cultural Periods in the Arid and Semiarid Regions of Northern Chile. Advances in World Archaeol. 11: 161–201.
Nuñez, L. A., 1994. The Western part of South America: Southern Peru, Bolivia, north-west Argentina and Chile during the Stone Age. In: S. J.De Laet (ed.), History of Humanity, Routledge, London, Vol. I: 348–362.
Oomori, T., H. Kaneshima & Y. Maeizato, 1987. Distribution coefficient of Mg++ ions between calcite and solution at 10–50 °C. Mar. Chem. 20: 237–336.
Pittock, A. B., 1980. Patterns of Climatic Variation in Argentina and Chile — I. Precipitation, 1931–60. Am. Meteorolog. Soc. 108: 1347–1369.
Rainswell, R. & P. Brimblecombe, 1977. The partition of manganese into aragonite between 30 and 60 °C. Chem. Geol. 16: 641–644.
Ramirez, C. & M. Gardeweg, 1982. Hoja Toconao. Serv. Nac. Geol. Miner., Carta Geol. Chile 54, 119 pp.
Smoot, J. & T. Lowenstein, 1991. Depositional environments of non-marine evaporites. In: J. Melvin (ed.), Evaporites, petroleum and mineral resources. Elsevier, Amsterdam. Dev. Sed. 50: 189–348.
Stine, S., 1994. Extreme and persistent drought in California and Patagonia during the medieval time. Nature 369: 546–549.
Thompson, L. G., 1992. Ice core evidence from Peru and China. In: R. S. Bradley & P. Jones (eds), Climate since A.D. 1500, London, Routledge, Chapman and Hall: 517–548.
Thompson, L. G., E. Mosley-Thompson & B. Morales Arnao, 1984. El Niño-Southern Oscillation events recorded in the stratigraphy of the tropical Quelccaya Ice cap, Peru. Science 226: 50–52.
Thompson, L. G. & E. Mosley-Thompson, 1987. Evidence of abrupt climatic change during the last 1500 years recorded in ice cores from the tropical Quelccaya ice cap, Peru. In: W. H. Berger & L. D. Labeyrie (eds), Abrupt Climate Change, Evidence and Implications. Reidel Publishing Company. NATO ASI Series C 216: 99–110.
Thompson, L. G. & E. Mosley-Thompson, 1989. One-half millenia of tropical climate variability as recorded in the stratigraphy of the Quelccaya ice cap, Peru. In: D. Peterson (ed.), Climate change in the Eastern Pacific and western Americas. Geophys. Am. Geophys. Un., Washington. Monogr. 55: 15–31.
Thompson, L. G., E. Mosley-Thompson & P. Thompson, 1992. Reconstructing interannual climate variability from tropical and subtropical ice cores. In: H. Diaz V. Markgraf (eds), El Niño, historical and paleoclimatic aspects of the southern oscillation. Cambridge University Press: 295–322.
Veizer, J., 1983. Trace elements and isotopes in carbonate minerals. Mineral Soc. Am. Rev. 11: 265–299.
Villagrán, C. & J. Varela, 1990. Palynological evidence for Increased Aridity on the Central Chilean Coast during the Holocene. Quat. Res. 34: 198–207.
Vuille, M. & M. F. Baumgartner, 1993. Hydrologic Investigations in the North Chilean Altiplano Using Landsat — MSS and — TM Data. Geocarto Intern. 3: 35–45.
Warren, J. K., 1982. The hydrologic setting, occurrence and significance of gypsum in late Quaternary salt lakes in South Australia. Sedimentology 29: 609–637.
Wright, H. E., J. E. Kutzbach, T. WebbIII, W. F. Ruddiman, F. A. Street-Perrot & P. J. Bartlein (eds). 1993. Global Climates since the Last Glacial Maximum. University of Minnesota Press, Minneapolis, 569 pp.
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This is the 16th in a series of papers published in this special AMQUA issue. These papers were presented at the 1994 meeting of the American Quaternary Association held 19–22 June, 1994, at the University of Minnesota, Minneapolis, Minnesota, USA. Dr Linda C. K. Shane served as guest for these papers.
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Valero-Garcés, B.L., Grosjean, M., Schwalb, A. et al. Limnogeology of Laguna Miscanti: evidence for mid to late Holocene moisture changes in the Atacama Altiplano (Northern Chile). J Paleolimnol 16, 1–21 (1996). https://doi.org/10.1007/BF00173268
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DOI: https://doi.org/10.1007/BF00173268