Abstract
An 8000-year record of palaeoproductivity, based on the chemical and chironomid stratigraphies from Lake Päijänne, S. Finland, was assessed with respect to known morphometric, climatic and anthropogenic events. A gradual trend of dystrophication and an associated decrease in aquatic production was detected during the Holocene, with the following exceptions: (1) high diatom and chironomid production around 8000-6000 cal yr BP, (2) eutrophication around 2000 cal yr BP, and (3) an anthropogenic signal during the last few decades.
The changes in chironomid assemblages, before the past few decades, have mainly been shifts in concentration, but not in species composition. Variation in chironomid production was mainly explained by the accumulations of biogenic silicon, carbon and organic matter. Nutrient availability seems to be important in controlling biogenic silicon, which we use to infer past diatom production. The high production ca. 8000-6000 cal yr BP and the fluctuation in chironomid influx after ca. 2000 cal yr BP, however, were probably caused by the proposed warm/dry and cold/wet conditions during these times, respectively. These results highlight the sensitivity of boreal shield lake ecosystems to climatic forcing. In contrast, the pronounced change in the morphometry of the basin around 7000 cal yr BP had little effect on the trophic state of the lake. The human-induced trophic change during the past few decades has affected the Lake Päijänne ecosystem to an extent never experienced before during the last 8000-years.
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Aaby, B. & B. E. Berglund, 1986. Characterization of peat and lake deposits. In Berglund B. E. (ed) Handbook of Holocene palaeoecology and palaeohydrology. J. Wiley & Sons, Chichester: 231-246.
Aario, R., 1965. Development of ancient Lake Päijänne and the history of surrounding forests. Ann. Acad. Sci. Fennicae A III, 81, 191 pp.
Aario, R., 1969. The northern discharge channel of Ancient Päijänne and the palaeohydrology of the Atlantic period. Bull. Geol. Soc. Finland 41: 3-20.
Anderson, N. J., I. Renberg & U. Segerström, 1995. Diatom production responses to the development of early agriculture in a boreal forest lake-catchment (Kassjön, northern Sweden). J. Ecol. 83: 809-822.
Bengtsson, L. & M. Enell, 1986. Chemical analysis. In Berglund B. E. (ed) Handbook of Holocene palaeoecology and palaeohydrology. J. Wiley & Sons, Chichester: 423-451.
Bengtsson, L., T. Hellström & L. Rakoczi, 1990. Redistribution of sediments in three Swedish lakes. Hydrobiologia 192: 167-181.
Berner, R. A. & R. Raiswell, 1984. C/S method for distinguishing fresh-water from marine sedimentary rocks. Geology 12: 365-368.
Birks, 6H. J. B., 1986. Late-Quaternary biotic changes in terrestrial and lacustrine environments, with particular reference to northwest Europe. In Berglund B. E. (ed) Handbook of Holocene palaeoecology and palaeohydrology. J. Wiley & Sons, Chichester: 3-65.
Blomqvist, E., 1911. Lisiä Suomen hydrologiaan II. Kymijoki ja sen vesistö. Suomen tie-ja vesirakennusten ylihallituksen hydrografinen toimisto, 235 pp.
Bradbury, J. P. & W. E. Dean (eds), 1993. Elk Lake, Minnesota: Evidence for rapid climate change in the north-central United States. U.S. Geological Survey, Special Paper 276, 336 pp.
Briffa, K. R., P. D. Jones, T. S. Bartholin, D. Eckstein, F. H. Schweingruber, W. Karlén, P. Zetterberg & M. Eronen, 1992. Fennoscandian summers from AD 500: Temperature changes on short and long timescales. Clim. Dyn. 7: 111-119.
Briffa, K. R., P. D. Jones, F. H. Schweingruber, W. Karlén, T. Bartholin, S. Shiyatov, E. A. Vaganov, P. Zetterberg & M. Eronen, 1995. Regional temperature patterns across Northern Eurasia: Tree-ring reconstructions over centuries and millennia. In: Heikinheimo P., (ed) International conference on past, present and future climate. Publ. of the Academy of Finland 6: 115-118.
Brodin, Y. W., 1986. The postglacial history of Lake Flarken, Southern Sweden, interpreted from subfossil insect remains. Int. Revue ges. Hydrobiol. 71: 371-432.
Brooks, A. S. & D. N. Edgington, 1994. Biogeochemical control of phosphorus cycling and primary production in Lake Michigan. Limnol. Oceanogr. 39: 961-968.
Brundin L., 1949. Chironomiden und andere Bodentiere der südschwedischen Urgebirgsseen. Rep. Inst. Freshwat. Res. Drottningholm 30: 1-914.
Cato, I., 1977. Recent sedimentological and geochemical conditions and pollution problems in two marine areas in south-western Sweden. Striae 6, 158 pp.
Chernovskii, A. A., 1949. Identification of larvae of the midge family Tendipedidae. Publ. Zool. Inst. Acad. Sci. USSR 31: 1-300.
Colman, S. M., J. A. Peck, E. B. Karabanov, S. J. Carter, J. P. Bradbury, J. W. King & D. F. Williams, 1995. Continental climate response to orbital forcing from biogenic silica records in Lake Baikal. Nature 378: 769-771.
Cranston, P. S., 1982. A key to the larvae of the British Orthocladiinae (Chironomidae). Freshwat. Biol. Assoc., Sci. Publ. 45, 152 pp.
Dean, W. E., 1993. Physical properties, mineralogy, and geochemistry of Holocene varved sediments from Elk Lake, MinnesotaS. In Bradbury J. P. & W.E. Dean (eds) Elk Lake, Minnesota: Evidence for rapid climate change in the northcentral United States. U.S. Geological Survey, Special Paper 276: 135-157.
Dean, W. E. & R. Y. Anderson, 1974. Application of some correlation coefficient techniques to time-series analysis. Math. Geol. 6: 363-372.
Digerfeldt, G., 1975. The Post-Glacial development of Ranviken Bay in Lake Immeln III. Palaeolimnology. Geol. Fören. Stockh. Förh. 97: 13-28.
Digerfeldt, G., 1986. Studies on past lake-level fluctuations. In Berglund B. E. (ed) Handbook of Holocene palaeoecology and palaeohydrology. J. Wiley & Sons, Chichester: 127-143.
Digerfeldt, G., 1988. Reconstruction and regional correlation of Holocene lake-level fluctuations in Lake Bysjön, South Sweden. Boreas 17: 165-182.
Donner, J., 1995. The Quaternary history of Scandinavia. Cambridge Univ. Press, Cambridge, 200 pp.
Engstrom, D. R. & B. C. S. Hansen, 1985. Postglacial vegetational change and soil development in southeastern Labrador as inferred from pollen and chemical stratigraphy. Can. J. Bot. 63: 543-561.
Engstrom, D. R. & H. E. Wright Jr., 1984. Chemical stratigraphy of lake sediments as a record of environmental change. In Haworth E.Y. & J. W. G. Lund (eds) Lake sediments and environmental history. Univ. Minnesota Press, Minneapolis: 11-67.
Eronen, M. & P. Zetterberg, 1995. Tree-ring and megafossil evidence on climatic fluctuations in Northern Fennoscandia. In: Heikinheimo, P. (ed.) International conference on past, present and future climate. Publ. of the Academy of Finland 6: 122-123.
Granberg, K. & A. Witick, 1992. Pohjois-Päijänteen yhteistarkkailu vuonna 1991. Fysikaalis-kemialliset tutkimukset ja kasviplankton. Inst. for Env. Res., Univ. of Jyväskylä, mimeogr., 22 pp.
Granéli, W., 1978. Sediment oxygen uptake in South Swedish lakes. Oikos 30: 7-16.
Guiot, J., S. P. Harrison & I. C. Prentice, 1993. Reconstruction of Holocene precipitation patterns in Europe using pollen and lake-level data. Quat. Res. 40: 139-149.
Hafsten, U., 1981. Palaeo-ecological evidence of a climatic shift at the end of the Roman Iron Age. Striae 14: 58-61.
Hall, R. I., P. R. Leavitt, J. P. Smol & N. Zirnhelt, 1997. Comparison of diatoms, fossil pigments and historical records as measures of lake eutrophication. Freshwat. Biol. 38: 401-417.
Hecky, R. E., P. Campbell & L. L. Hendzel, 1993. The stoichiometry of carbon, nitrogen, and phosphorus in particulate matter of lakes and oceans. Limnol. Oceanogr. 38: 709-724.
Helsingin kaupungin vesilaitos, 1968. Päijänne ja vedenhankinta. Helsinki, 101 pp.
Hofmann, W., 1971a. Die postglaziale Entwicklung der Chironomiden-und Chaoborus-Fauna (Dipt.) des Schöhsees. Arch. Hydrobiol. Suppl. 40: 1-74.
Hofmann, W., 1971b. ur Taxonomie und Palökologie subfossiler Chironomiden (Dipt.) in Seesedimenten. Arch. Hydrobiol. Beig. Ergebn. Limnol. 6: 1-50.
Hofmann, W., 1978. Analysis of animal microfossils from the Grosser Segeberger See (F.R.G). Arch. Hydrobiol. 82: 316-346.
Huntley, B. & I. C. Prentice, 1993. Holocene vegetation and climates of EuropeS. In Wright, H. E. Jr., J. E. Kutzbach, T. Webb III, W. F. Ruddiman, F. A. Street-Perrott & P. J. Bartlein (eds) Global climates since the last glacial maximum. Univ. Minnesota Press, Minneapolis: 136-168.
Hutchinson, G. E., 1938. On the relation between the oxygen deficit and the productivity and typology of lakes. Int. Rev. ges. Hydrobiol. 36: 336-355.
Huttunen, P. & J. Meriläinen, 1983. Itä-Suomen järvien vesi-ja sedimenttikemian vertailua. Abstract: A comparison of water and sediment chemistry of lakes in eastern Finland. Karjalan tutkimuslaitoksen julkaisuja 55: 35-48.
Hydrological Office, 1990. Hydrological Review. National Board of Waters and the Environment, Finland. ISSN 0358-6367.
Håkanson, L. & M. Jansson, 1983. Principles of lake sedimentology. Springer-Verlag, Berlin, 316 pp.
Itkonen, A., 1996. The enrichment of elements during transport, sedimentation and diagenesis in a large, well oxygenated boreal lake. The 22nd Nordic Geological Winter Meeting. Univ. of Turku, Turku: 76.
Itkonen, A., 1997. Past trophic responses of boreal shield lakes and the Baltic Sea to geological, climatic and anthropogenic inputs as inferred from sediment geochemistry. Annales Universitatis Turkuensis Ser. A II 103, 124 pp.
Itkonen, A. & V.-P. Salonen, 1994. The response of sedimentation in three varved lacustrine sequences to air temperature, precipitation and human impact. J. Paleolim. 11: 323-332.
Itkonen, A., B. Eriksson, T. Grönlund, M. Ilmasti, T. Kankainen, V. Marttila, J.J. Meriläinen, T. Saarinen & V.-P. Salonen, 1995. Päijänteen ekosysteemin kehitys holoseeniaikana. Summary: The Holocene development of Lake Päijänne, Finland. Geol. Survey Finland, Report of Investigation 131, 44 pp.
Jensen, H. S., P. Kristensen, E. Jeppesen & A. Skytthe, 1992. Iron: phosphorus ratio in surface sediments as an indicator of phosphate release from aerobic sediments in shallow lakes. Hydrobiologia 235/236: 731-743.
Jones, B. F. & C. J. Bowser, 1978. The mineralogy and related chemistry of lake sediments. In Lerman A. (ed) Lakes-chemistry, geology and physics. Springer-Verlag, N.Y.: 179-235.
Kansanen, P. H., 1985. Assessment of pollution history from recent sediments in Lake Vanajavesi, southern Finland. II. Changes in the Chironomidae, Chaoboridae and Ceratopogonidae (Diptera) fauna. Ann. zool. fenn. 22: 57-90.
Keating, K. I., 1978. Blue-green algal inhibition of diatom growth: Transition from mesotrophic to eutrophic community structure. Science 199: 971-973.
Koyama, T., 1990. Gases in lakes, their production mechanism and degassing (CH4 and H2) of the Earth. In Durrance E. M., E. M. Galimov, M. E. Hinkle, G. M. Reimer, R. Sugisaki & S. S. Augustithis (eds) Geochemistry of gaseous elements and compounds. Theophrastus Publ., Athens: 271-335.
Kukkonen, E., 1973. Sedimentation and typological development in the basin of the Lake Lohjanjärvi, South Finland. Geol. Survey Finland Bull. 261: 1-67.
Kullenberg, B., 1947. The piston core sampler. Svenska hydrografisk-Biologiska Komissionens Skrifter III, Hydrografi 1: 1-46.
Kullman, L. & O. Engelmark, 1990. A high Late Holocene treelimit and the establishment of the spruce forest-limit-a case study in northern Sweden. Boreas 19: 323-331.
Kutzbach, J. E. & T. Webb III, 1993. Conceptual basis for understanding Late-Quaternary climates. In Wright, H. E. Jr., J. E. Kutzbach, T. Webb III, W. F. Ruddiman, F. A. Street-Perrott & P. J. Bartlein (eds) Global climates since the last glacial maximum. Univ. Minnesota Press, Minneapolis: 5-11.
Lamb, H. H., 1977. Climate; present, past and future. Vol. 2. Climatic history and future. Methane & Co. Ltd, London, 833 pp.
Lappalainen, K. M., 1972. Päijänteen yhteenvetotutkimus I. Nykytila ja siihen johtanut kehitys: Fysikaalis-kemialliset selvitykset. Summary: Lake Päijänne research I. Nat. Bd of Wat., Report 27: 1-188.
Lotter, A. F., M. Sturm, J. L. Teranes & B. Wehrli, 1997. Varve formation since 1885and high-resolution analyses in hypertrophic Baldeggersee (Switzerland). Aquat. Sci. 59: 304-325.
MacDonald, G. M., T. W. D. Edwards, K. A. Moser, R. Pienitz & J. P. Smol, 1993. Rapid response of treeline vegetation and lakes to past climate warming. Nature 361: 243-246.
Mackereth, F. J. H., 1966. Some chemical observations on postglacial lake sediments. Phil. Trans. R. Soc. Lond. B 250: 165-213.
Matinvesi, J., 1995. Microbiological gas formation altering top sediment composition and its relation to the internal nutrient load in eutrophic lakes. Dissertation for the degree of Dr of Technology. Lab. of Env. Prot. Technology, Helsinki Univ. of Technology, Otaniemi, 37 pp.
Meriläinen, J., 1973. The dissolution of diatom frustules and its palaeolimnological interpretation. Univ. of Lund, Dept. of Quat. Geol. Report 3: 91-95.
Meriläinen, J. J., 1987. The profundal zoobenthos used as an indicator of the biological condition of Lake Päijänne. Biol. Res. Rep. Univ. Jyväskylä 10: 87-94.
Meriläinen, J. J., 1992. Niukkaravinteinen, kirkas Puruvesi tuottaa mesotrofisen järven profundaalifaunan. Summary: Lake Puruvesi-a nutrient poor, clear-water lake with a profundal benthos typical of a mesotrophic lake. Univ. of Joensuu, Publ. of Karelian Inst. 103: 109-116.
Meriläinen, J. J. & V. Hamina, 1993a. Recent environmental history of a large, originally oligotrophic lake in Finland: A palaeolimnological study of chironomid remains. J. Paleolim. 9: 129-140.
Meriläinen, J. J. & V. Hamina, 1993b. Changes in biological condition of the profundal area in an unpolluted, nutrient-poor lake during the past 400 years. Verh. Internat. Verein. Limnol. 25: 1079-1081.
Meriläinen, J. J. & J. Hynynen, 1988. Pohjois-Päijänteen velvoitetarkkailu vuonna 1987. Jätevesien vaikutus Pohjois-Päijänteen pohjaeläimistöön vuonna 1987. Inst. for Env. Res., Univ. of Jyväskylä, mimeogr., 13 pp.
Meriläinen, J. J. & J. Hynynen, 1991. Pohjois-Päijänteen velvoitetarkkailu vuonna 1990. Jätevesien vaikutus pohjaeläimistöön. Inst. for Env. Res., Univ. of Jyväskylä, mimeogr., 12 pp.
Meyers, P. A., 1994. Preservation of elemental and isotopic source identification of sedimentary organic matter. Chem. Geol. 114: 289-302.
Meyers, P. A. & R. Ishiwatari, 1995. Organic matter accumulation records in lake sediments. In Lerman, A., D. H. Imboden & J. R. Gat (eds) Physics and chemistry of lakes. Springer-Verlag, Berlin: 279-328.
Mortimer, C. H. 1941. The exchange of dissolved substances between mud and water in lakes, I. J. Ecol. 29: 280-329.
Mortimer, C. H. 1942. The exchange of dissolved substances between mud and water in lakes: II. J. Ecol. 30: 147-201.
Mortlock, R. A. & P. N. Froelich, 1989. A simple method for the rapid determination of biogenic opal in pelagic marine sediments. Deep Sea Res. 36: 1415-1426.
National Board of Survey, 1986. Atlas of Finland. Appendix 132, Water. Publ. Div. of the Nat. Bd of Survey, Helsinki. ISBN 951-46-9883-5.
National Board of Water and the Environment, 1998. Water quality data bank of the Nat. Bd of Wat. and the Env.
Norton, S. A., R. W. Bienert, Jr., M. W. Binford & J. S. Kahl, 1992. Stratigraphy of total metals in PIRLA sediment cores. J. Paleolim. 7: 191-214.
O'Brien, S. R., P. A. Mayewski, L. D. Meeker, D. A. Meese, M. S. Twickler & S. I. Whitlow, 1995. Complexity of Holocene climate as reconstructed from a Greenland ice core. Science 270: 1962-1964.
O'Sullivan, P. E., 1983. Annually laminated lake sediments and the study of Quaternary environmental changes-a review. Quat. Sci. Rev. 1: 245-313.
Pennington, W., 1991. Palaeolimnology in the English Lakes-some questions and answers over fifty years. Hydrobiologia 241: 9-24.
Pienitz, R. & J. P. Smol, 1993. Diatom assemblages and their relationship to environmental variables in lakes from the boreal forest-tundra ecotone near Yellowknife, Northwest Territories, Canada. Hydrobiologia 269/270: 391-404.
Pienitz, R., J. P. Smol & H. J. B. Birks, 1995. Assessment of freshwater diatoms as quantitative indicators of past climatic change in the Yukon and Northwest Territories, Canada. J. Paleolim. 13: 21-49.
Renberg, I., 1976. Palaeolimnological investigations in Lake Prästsjön. Early Norrland 9: 113-159.
Renberg, I., T. Korsman & H. J. B. Birks, 1993. Prehistoric increases in the pH of acid-sensitive Swedish lakes caused by land-use changes. Nature 362: 824-827.
Renberg, I., U. Segerström & J.-E. Wallin, 1984. Climatic reflections in varved lake sediments. In Mörner N.-A., & W. Karlén (eds) Climatic changes on a yearly to millennial basis. Reidel Publ. Comp., Dordrecht: 249-256.
Ristaniemi, O., 1987. Itämeren korkein ranta ja Ancylusraja sekä Muinais-Päijänne Keski-Suomessa. Summary: The highest shore and Ancylus limit of the Baltic Sea and the Ancient Lake Päijänne in Central Finland. Ann. Univ. Turkuensis, Ser. C, Tom. 59, 102 pp.
Ruuskanen, P. (ed), 1989. Muuramen kirja. JYY:n kotiseutusarja 27, 723 pp.
Ryan, D. F. & D. M. Kahler, 1987. Geochemical and mineralogical indications of pH in lakes and soils in central New Hampshire in the early Holocene. Limnol. Oceanogr. 32: 751-757.
Ryding, S.-O. & W. Rast (eds), 1989. The control of eutrophication of lakes and reservoirs. Man and biosphere series; 1. UNESCO, Paris, 314 pp.
Saarinen, T., 1994. Palaeomagnetic study of the Holocene sediments of Lake Päijänne (Central Finland) and Lake Paanajärvi (North-West Russia). Geol. Survey Finland Bull. 376, 87 pp.
Saarnisto, M., 1971. The upper limit of the Flandrian transgression of Lake Päijänne. Comm. Phys.-Math. 41: 149-170.
Sæther, O. A., 1975. Nearctic and Palaearctic Heterotrissocladius (Diptera: Chironomidae). Bull. Fish. Board Can. 193: 1-67.
Sæther, O. A., 1979. Chironomid communities as water quality indicators. Holarct. Ecol. 2: 65-74.
Schelske, C. L., J. A. Robbins, W. S. Gardner, D. J. Conley & R. A. Bourbonniere, 1988. Sediment record of biogeochemical responses to anthropogenic perturbations of nutrient cycles in Lake Ontario. Can. J. Aquat. Sci. 45: 1291-1303.
Shapiro, J., 1958. The core-freezer-a new sampler for lake sediments. Ecology 39: 758.
Sippola, J., 1974. Mineral composition and its relation to texture and to some chemical properties in Finnish subsoils. Ann. Agric. Fennica 13: 169-234.
Smol, J. P., I. R. Walker & P. R. Leavitt, 1991. Paleolimnology and hindcasting climatic trends. Verh. Internat. Verein. Limnol. 24: 1240-1246.
Stuiver, M. & P. J. Reimer, 1993. Extended 14C Data Base and Revised CALIB 3.0 14C Age Calibration Program. Radiocarbon 35: 215-230.
Taavitsainen, J.-P., 1990. Ancient hillforts of Finland. Problems of analysis, chronology and interpretation with special reference to the hillfort of Kuhmoinen. Suomen Muinaismuistoyhdistyksen Vuosikirja 94, 294 pp.
Tolvanen, V., 1922. Der Alt-Päijänne. Fennia 43(5): 1-49.
Vasari, Y., G. Glückert, S. Hicks, H. Hyvärinen, H. Simola & I. Vuorela, 1996. Finland. In Berglund, B. E., H. J. B. Birks, M. Ralska-Jasiewiczowa & H. E. Wright (eds) Palaeocological events during the last 15000 years. John Wiley & Sons, Chichester: 281-351.
Walker, I. R., J. P. Smol, D. R. Engstrom & H. J. B. Birks, 1991. An Assessment of Chironomidae as Quantitative Indicators of Past Climatic Change. Can. J. Fish. Aquatic. Sci. 48: 975-987.
Warwick, W. F., 1980. Palaeolimnology of the Bay of Quinte, Lake Ontario: 2800 years of cultural influence. Can. Bull. Fish. Aquatic Sci. 206: 1-117.
Wetzel, R. G., 1975. Limnology. Saunders, Philadelphia, 743 pp.
Wiederholm, T., 1980. Use of benthos in lake monitoring. J. Wat. Pollut. Cont. Fed. 52: 537-547.
Wiederholm, T. (ed.), 1983. Chironomidae of the Holarctic region. Keys and diagnoses. Part 1. Larvae. Ent. Scand. Suppl. 19: 1-457.
Yu, G., 1996. Lake-level records and paleoclimates of northern Eurasia. Lundqua Thesis 37, 17 pp.
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Itkonen, A., Marttila, V., Meriläinen, J. et al. 8000-year history of palaeoproductivity in a large boreal lake. Journal of Paleolimnology 21, 271–294 (1999). https://doi.org/10.1023/A:1008053111115
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DOI: https://doi.org/10.1023/A:1008053111115