Abstract
Palaeolimnological and palynological records from climatically variable central Alberta, Canada, document periods of hypersaline lake conditions indicative of late glacial and early Holocene drought. The sensitivity of palaeolimnological indicators for inferring palaeoclimates is examined by comparing records from two sites at opposite ends of the regional precipitation gradient. Palaeosalinity is identified by the presence of Ruppia pollen, a hypersaline aquatic plant not presently growing in either lake, and diatom assemblages comprising both saline epipelic and planktonic species. Goldeye Lake (52° 27′ N; 116° 12′ W), in the relatively moist Rocky Mountain Foothills remained saline from its inception before ca 14500 years BP until ca 10400 years BP by which time pioneering forests had replaced tundra vegetation; however, freshwater planktonic diatoms dominated ca 12500 to 11500 years BP. However, dating problems endemic to the Foothills region make this chronology only tentative. Moore Lake (54° 30′ N; 110° 30′ N), in dry, east-central Alberta contained Ruppia only between ca 9000 and 6000 years BP. Freshwater diatoms dominated until ca 10000 years BP when they were succeeded by taxa characteristic of saline water. The lake remained saline until ca 6000 years BP. The late glacial period of palaeosalinity at Goldeye Lake occurred because the lake was surrounded by Cordilleran and Laurentide glacial ice, and therefore, cut off from moisture sources until the early Holocene by which time significant ice recession had occurred. Factors causing the second period of salinity remain unknown at this time. In contrast, by the early Holocene, Moore Lake was influenced by drought caused by high summer insolation induced by orbital fluctuations. Freshwater conditions were maintained through the Holocene in the Foothills region of west-central Alberta, but occurred consistently only over the last 4000 years in central and east-central Alberta. The warmer, drier climate during the early Holocene did affect lake levels in at least one headwater Foothills lake (Fairfax Lake — 52° 58′ N; 116° 34′ W). The severity of the drought increased in an easterly direction across the province.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Boydell, A. N., 1978. Multiple glaciation in the Foothills, Rocky Mountain House area Alberta. Alberta Research Council Bull. 36: 35 pp.
Bombin, E. R., 1982. Holocene palaeolimnology of Mary Gregg Lake, Foothills of the Canadian Rocky Mountains, Canada. M.Sc. thesis, Department of Botany, University of Alberta, 147 pp.
Bradbury, J. P., R. M. Forester & R. S. Thompson, 1989. Late Quaternary paleolimnology of Walker Lake, Nevada. J. Paleolimnol. 1: 249–267.
Bryson, R. A. & W. M. Wendland, 1967. Tentative climate patterns for some late-glacial and post-glacial episodes in central North America. In: Life, Land and Water, Lake Agassiz Region, (W. J. Mayer-Oakes, ed.), Department of Anthropology, University of Manitoba, Winnipeg, Manitoba, Occasional Paper 1: 271–298.
Chivas, A. R., P.De Deckker & J. M. G. Shelley, 1986. Magnesium content of non-marine ostracod shells: A new paleosalinometer and paleothermometer. Paleogeogr. Palaeoclimatol. Palaeoecol. 54: 43–61.
Cushing, E. J. & H. E. Wright, 1965. Hand-operated piston corers for lake sediments. Ecology 46: 380–384.
David, P. P., 1981. Stabilized dune ridges in northern Saskatchewan. Can. J. Earth. Sci. 18: 286–310.
Dyke, A. S. & V. K. Prest, 1987a. Paleogeography of northern North America, 18000–5000 years ago; Geological Survey of Canada, Map 1703A, Scale 1:12500000.
Dyke, A. S. & V. K. Prest, 1987b. Late Wisconsin and Holocene history of the Laurentide Ice Sheet. Geogr. phys. Quat. 41: 237–263.
Faegri, K. & J. Iversen, 1975. Textbook of Modern Pollen Analysis. Blackwell Scientific Publications, Oxford.
Fenton, M. M. & L. D. Andriashek, 1983. Surficial geology Sand River area, Alberta (NTS 73L). Alberta Research Council, Alberta Geological Survey, Edmonton.
Forbes, J. R. & M. Hickman, 1981. Paleolimnology of two shallow lakes in central Alberta. Int. Revue ges. Hydrobiol. 66: 863–888.
Fritz, S. C., 1990. Twentieth-century salinity and water level fluctuations in Devils Lake, North Dakota: Test of a diatom-based transfer function. Limnol. Oceanogr. 35: 1771–1781.
Fritz, S. C., S. Juggins, R. W. Batterbee & D. R. Engstrom, 1991. Reconstruction of past changes in salinity and climate using a diatom-based transfer function. Nature, London 352: 706–708.
Government of Alberta and The University of Alberta, 1969. Atlas of Alberta. The University of Alberta Press, Edmonton, Alberta.
Hickman, M., 1987. The paleolimnology of a large shallow lake — Cooking Lake, Alberta, Canada. Arch. Hydrobiol. 111: 121–136.
Hickman, M. & D. M. Klarer, 1981. Paleolimnology of Lake Isle, Alberta, Canada (including sediment chemistry, pigments and diatoms). Arch. Hydrobiol. 111: 121–136.
Hickman, M. & J. M. White, 1989. Late Quaternary paleoenvironment of Spring Lake, Alberta, Canada. J. Paleolimnol. 2: 305–317.
Hickman, M. & C. E. Schweger, 1991a. A palaeoenvironmental study of Fairfax Lake, a small lake situated in the Rocky Mountain Foothills of west-central Alberta. J. Paleolimnol. 6: 1–15.
Hickman, M. & C. E. Schweger, 1991b. Oscillaxanthin and myxoxanthophyll in two cores from Lake Wabamun, Alberta, Canada. J. Paleolimnol. 5: 127–137.
Hickman, M., C. E. Schweger & T. Habgood, 1984. Lake Wabamun, Alta.: a palaeoenvironmental study. Can. J. Bot. 62: 1438–1465.
Husband, B. C. & M. Hickman, 1985. Growth and biomass allocation of Ruppia occidentalis in three lakes differing in salinity. Can. J. Bot. 63: 2004–2014.
Kutzbach, J. E. & P. J. Guetter, 1986. The influence of changing orbital parameters and surface boundary conditions on climate simulations for the past 18000 years. J. Atmosphere Sci. 43. 1726–1759.
Lichti-Federovich, S., 1970. The pollen stratigraphy of a dated section of late-Pleistocene lake sediment from central Alberta. Can. J. Earth Sci. 7: 938–945.
Luckman, B. H., M. S. Kearney, R. H. King & A. B. Beaudoin, 1986. Revised 14C age for St. Helens Y tephra at Tonquin Pass, British Columbia. Can. J. Earth Sci. 23: 734–736.
MacDonald, G. M., 1989. Postglacial vegetation history of the subalpine forest-grassland ecotone in southwestern Alberta: new insights on vegetation and climatic changes in the Canadian Rocky Mountains and adjacent foothills. 73: 155–173.
MacDonald, G. M., R. P. Beukens, W. E. Kieser & D. H. Vitt, 1987. Comparative radiocarbon dating of terrestrial plant macrofossils and aquatic moss from the ‘ice-free corridor’ of western Canada. Geology 15: 837–840.
MacDonald, G. M., R. P. Beukens & W. E. Kieser, 1991. Radiocarbon dating of limnic sediments: a comparative analysis and discussion. Ecology 7: 1150–1155.
Mitchell, P. & E. Prepas, 1990. Atlas of Alberta Lakes. The University of Alberta Press, Edmonton, 675 pp.
Northcote, T. G. & P. A. Larkin, 1963. Western Canada. In, Limnology in North America, (D. G. Frey, ed.). University of Wisconsin Press, Madison, WI., pp. 451–485.
Ritchie, J. C., 1976. The late-Quaternary vegetation history of the western interior of Canada. Can. J. Bot. 54: 1793–1818.
Ritchie, J. C., L. C. Cwynar & R. E. Spear, 1983. Evidence from northwest Canada for an early Holocene Milankovitch thermal maximum. Nature, London 305: 126–127.
Schweger, C. E., 1989. Paleoecology of the western Canadian ice-free corridor. In, Quaternary Geology of Canada and Greenland, (R. J. Fulton, ed.), Geological Survey of Canada, no. 1, Chapter 7: 491–498.
Schweger, C. E. & M. Hickman, 1989. Holocene paleohydrology of central Alberta: testing the general-circulation-model climate simulations. Can. J. Earth Sci. 26: 1826–1833.
Schweger, C. E., T. Habgood & M. Hickman, 1981. Late glacial-Holocene climatic changes of Alberta. The record from lake sediment studies. In: Impacts of climatic fluctuations on Alberta resources and environment. Environment Canada Report No. WAES-1-81, pp. 47–56.
Strong, W. L. & K. R. Leggat, 1981. Ecoregions of Alberta. Alberta Environment Nat. Resources, Resource Evaluation, Planning Division, Edmonton.
Smol, J. P., 1988. Paleoclimate proxy data from freshwater arctic diatoms. Verh. Int. Ver. Limnol. 23: 837–844.
Teller, J. T. & W. M. Last, 1982. Pedogenic zones in post-glacial sediment of Lake Manitoba, Canada. Earth Surf. Proc. Landforms 7: 367–397.
Teller, J. T. & W. M. Last, 1990. Paleohydrological indicators in playas and salt lakes, with examples from Canada, Australia, and Africa. Palaeogeogr. Palaeoclimatol. Palaeoecol. 76: 215–240.
Vance, R. E., 1986. Pollen stratigraphy of Eaglenest Lake, northeastern Alberta. Can. J. Earth Sci. 23: 11–20.
Williams, G. D. V. & J. Masterton, 1983. An application of principal component analysis and an agroclimatic resource index to ecological land classification for Alberta. Climatol. Bull. 17: 3–28.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Hickman, M., Schweger, C.E. Late glacial — early holocene palaeosalinity in Alberta, Canada — climate implications. J Paleolimnol 8, 149–161 (1993). https://doi.org/10.1007/BF00119787
Issue Date:
DOI: https://doi.org/10.1007/BF00119787