Abstract
The consequences of fire on water chemistry are important considering that major changes in the frequency and intensity of forest fires are anticipated as a result of global warming. Due to the important differences in succesionnal vegetative trends after fire between mixed-wood and coniferous-dominated forests in Quebec (Canada), we undertook a long-term paleoecological study of the impact of fires on the biogeochemistry of Lac à la Pessière, a small lake located in a conifer-dominated boreal forest ecoregion (Picea mariana-moss domain). The paleolimnological study was carried out using diatom assemblages (class:Bacillariophyceae) to reconstruct changes in environmental variables of limnological interest [pH, total phosphorus (TP), total nitrogen (TN), dissolved organic carbon (DOC) and, epilimnetic carbon dioxide (CO2)] potentially associated with fire over the last 1200 calendar years. Diatom composition and related reconstructed limnological variables were compared before and after fire events. No significant changes were systematically observed in lake chemistry associated with fire events. However, diatom-inferred epilimnetic CO2showed a clear decreasing trend over the last ∼ 400 cal. yrs BP. The results suggest that fire-induced changes in lake chemistry are limited in catchments dominated by black spruce (Picea mariana). We hypothesize that this fact result of excess moisture associated to the thick humus layer, which likely limits the mobilization of nutrients and major ions even during a fire event.
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References
Attiwil P.M. 1994. The disturbance of forest ecosystems: the ecological basis for conservative management. For. Ecol. Manag. 63: 247-300.
Barber D.C., Dyke A., Hillaire-Marcel C., Jennings A.E., Andrews J.T., Kerwin M.W. et al. 1999. Forcing of the cold event of 8,200 years ago by catastrophic drainage of Laurentide lakes. Nature 400: 344-348.
Bennion H., Appleby P.G. and Phillips G.L. 2001. Reconstructing nutrient histories in the Norfolks Broads, UK: implications for the role of diatom-total phosphorus transfer functions in shallow lake management. J. Paleolim. 26: 181-204.
Bergeron Y. and Archambault S. 1993. Decreasing frequency of forest fires in the southern boreal zone of Quebec and its relation to global warming since the end of the ''Little Age''. Holocene 3: 255-259.
Bergeron Y. and Flannigan M.D. 1995. Predicting the effects of climate change on fire frequency in the southeastern Canadian boreal forest. Water Air Poll. 82: 437-444.
Bergeron Y., Leduc A., Harvey B. and Gauthier S. 1999. Forest management guidelines based on natural disturbances dynamics: stands-and forest-level considerations. Forest Chron 75: 49-54.
Bergeron Y., Leduc A., Harvey B. and Gauthier S. 2000. Natural fire regime: A guide for sustainable forest management of the boreal forest. SFM Network 2000-13, Edmonton, Alberta, 31 pp.
Birks H.J.B., Maddy D. and Brew J.S. (eds) 1995. Quantitative paleoenvironmental reconstuctions. In: Statistical Modeling of Quaternary Science Data. Quaternary Research Association, Cambridge, England Technical Guide 5., pp. 161-264.
Birks H.J.B., Line J.M, Juggins S., Stevenson A.C. and Ter Braak C.J.F. 1990. Diatoms and pH reconstruction. Phil. Trans. Roy. Soc., Lond. B 327: 263-278.
Briffa K.R., Osborn T.J., Schweingruber F.H., Harris I.C., Jones P.D., Shiyatov S.G. et al. 2001. Low-frequency temperature variations from a northern tree ring density network. J. Geophys. Res. 106: 2929-2941.
Camburn K.E., Kingston J.C., Charles D.F., Anderson D.S., Ford J., Sweets P.R. et al. 1984-1986. In: Department of Biology, indiania university, Bloomongton, Ind., PIRLA diatom iconograph., PIRLA unpublished reports series No 3.
Canadian Council of Forest Ministers (CCFM) 1995. Defining sustainable forest management: a Canadian approach to criteria and indicators, Canadian Forest Service, Natural Resources Canada, Ottawa. 22 p.
Carcaillet C. and Richard P.J.H. 2000. Holocene changes in seasonal precipitation highlighted by fire incidence in eastern Canada. Clim. Dynam. 16: 549-599.
Carcaillet C, Bergeron Y., Richard P.J.H., Fréchette B., Gauthier S. and Prairie Y.T. 2001a. Change of fire frequency in the eastern Canadian boreal forests during the Holocene: does vegetation composition or climate trigger the fire regime? J. Ecol. 89: 930-946.
Carcaillet C., Bouvier M., Frechette B., Larouche A.C. and Richard P.H.J. 2001b. Comparison of pollen-slide and sieving methods in lacustrine charcoal analyses for local and regional fire history. Holocene 11: 467-476.
Carcaillet C., Almquist H., Asnong H., Bradshaw R.H.W., Carrión J.S., Gaillard M.-J. et al. 2002. Holocene biomass burning and global dynamics of the carbon cycle. Chemosphere 49: 845-863.
Carignan R., D'Arcy P. and Lamontagne S. 2000. Comparative impacts of fire and forest harvesting on water quality in Boreal Shield lakes. Can. J. Fish. Aquat. Sci. 57(Suppl. 2): 105-117.
Carleton T.J. and MacLellan P. 1994. Woody vegetation responses to fire versus clear-cutting: a comparative survey in the central Canadian boresl forest. Ecoscience 1: 141-152.
Cole J.J., Caraco N.F., Kling G.W. and Kratz T.K. 1994. Carbon dioxide supersaturation in the surface waters of lakes. Science 265: 1568-1570.
Clark J.S. and Royall P.D. 1996. Local and regional sediment charcoal evidence for fire regimes in presettlement north-eastern North America. J. Ecol. 84: 365-382.
Dapples F., Lotter A.F., Van Leeuwen J.F.N., Van der Knaap W.O., Dimitriadis S and Oswald D. 2002. Paleolimnological evidence for increased landslide activity due to forest clearing and land use since 3600 cal BP in the western Swiss Alps. J. Paleolim. 27: 239-248.
De Grandpré L., Morissette J. and Gauthier S. 2000. Long-term post-fire changes in northeastern boreal forest of Quebec. J.Veg. Sci. 11: 791-798.
Dixit S.S., Dixit A.S. and Smol J.P. 2002. Diatom and chrysophyte transfer functions and inferences of post-industrial acidification and recent recovery trends in Killarney lakes (Ontario, Canada). J. Paleolim. 27: 69-96.
Dyrness C.T., Cleve K., Van Levison J.D. and Van Cleve K. 1989. The effect of wild fire on soil chemistry in four forest types in interior Alaska. Can. J. For. Res. 19: 1389-1396.
Ehnes J.W. 1998. The influence of site conditions, age, and disturbance by wild fire or winter logging on the species composition of naturally regenerated boreal plant communities and some implications for community resilience, PhD, University of Manitoba, Winnipeg, Manitoba.
Enache M. and Prairie Y.T. 2000. Paleolimnological reconstruction of forest fire induced changes in lake biogeochemistry (Lac Francis, Abitibi, Quebec, Canada). Can. J. Fish. Aquat. Sci. 57(Suppl. 2): 146-154.
Enache M. and Prairie Y.T. 2002. WA-PLS diatom-based pH, TP and DOC inference models from 42 lakes in the Abitibi clay belt area (Quebec, Canada). J. Paleolim. 27: 151-171.
Faegri K., Kaland P.E. and Krzywinski K. (eds) 1989. Textbook of Pollen Analysis. 4th edn. John Wiley & Sons, London, U.K. 2000. Freshwater diatoms from northern Québec and Labrador (Canada): Species-environmental relationships in lakes of boreal forest, forest-tundra and tundra regions. In: Fallu M.A., Allaire N. and Pienitz R. Cramer J. (ed.), Bibliotheca, Band 45. Stuttgart, 200 pp.
Flannigan M.D., Bergeron Y., Engelmark O. and Wotton B.M. 1998. Future wildfire in circumboreal forests in relation to global warming. J. Veg. Sci. 9: 469-476.
Flannigan M.D., Campbell I., Wotton B.M., Carcaillet C., Richard P.H.J. and Bergeron Y. 2001. Future fire in Canada's boreal forest: palaeoecology results and general circulation model-regional circulation model simulations. Can. J. For. Res. 31: 854-864.
Foster D.R. 1985.Vegetation development following fire in Picea mariana (black spruce)-Pleuroziumforests of south-eastern Labrador, Canada. J. Ecol. 73: 517-534.
Fritz S.C. 1996. Paleolimnological records of climatic change in North America. Limnol. Oceanogr. 41: 882-889.
Garralla S. and Gajewski K. 1992. Holocene vegetation history of the boreal forest near Chibougamau, Central Québec. Can. J. Bot. 70: 1364-1368.
Gauthier S., De Grandpré L. and Bergeron Y. 2000. Differences in forest composition in two boreal ecoregions of Quebec. J.Veg. Sci. 11: 781-790.
Glew J.R. 1988. A portable extruding device for close interval sectioning of unconsolidated core samples. J. Paleolim. 1: 235-239.
Guiot J. and Goeury C. 1996. PPPBase, a software for statistical analysis of paleoecological and paleoclimatological data. Dendrochronologia 14: 295-300.
Heinselman M.K. 1981. Forest succession concepts and application. In: West D.C., Shugart H.H. and Botkin D.B. (eds), Fire and Succession in the Conifer Forests of North America. Springer Verlag, New York, pp. 374-405.
Hilfinger M.F. IV, Mullins H.T., Burnett A. and Kirby M.E. 2001. A 2500 year sediment record from anthropogenic impacts and historic isotope shift. J. Paleolim. 26: 296-305.
Hustedt F. 1930-1966. Die Kieselalgen: Deutschland, Österreich und der Schweiz unter Berücksichtigung der übrigen Länder Europas sowie der angrenzenden Meeresgebiete. Otto Koeltz Science, Koenigstein, Germany, Reprinted 1991, Teil 1 (1930, 920 pp.), 2 (1959, 845 pp.), 3 (1961-1966, 816 pp.).
Johnson E.A, Miyanishi K. and Weir J.M.H. 1998. Wildfires in the western Canadian boreal forest: landscape patterns and ecosystem management. J. Veg. Sci. 9: 603-610.
Jones P.D., Osborn T.J. and Briffa K.R. 2001. The evolution of climate over the last millenium. Science 292: 662-667.
Jongman R.H.G., Ter Braak C.J.F. and Van Tongeren O.F.R. 1995. Data Analysis in Community and Landscape Ecology. Pudoc, Wageningen, 299 pp.
Kirk J.T.O. 1994. Light and Photosynthesis in Aquatic Systems. 2nd edn. Cambridge University Press, 508 pp.
Korhola A., Virkanen J., Tikkanen M. and Blom T. 1996. Fire-induced pH rise in a naturally acid hill-top lake, southern Finland: a palaeoecological survey. J. Ecol. 84: 257-265.
Korsman T. and Segerström U. 1998. Forest fire and lake-water acidity in a northern Swedish boreal area: Holocene changes in lake-water quality in Makkassjon. J. Ecol. 86: 113-124.
Korsman T., Renberg I. and Anderson N.J. 1994. A paleolimnological test of the influence of Norway spruce (Picea abies) immigration on lake-water acidity. Holocene 4: 132-140.
Krammer K. and Lange-Bertalot H. 1986-1991. Bacillariophyceae. In: Süsswasserflora von Mitteleuropa Vol. 2(1-4). Gustav Fischer Verlag Publisher, Stuttgart, Germany.
Laird K.R. and Cumming B. 2001. A regional assessment of the impact of clear-cutting on lakes from the central interior of British Columbia. Can. J. Fish. Aquat. Sci. 58: 479-491.
Laird K.R., Cumming B. and Nordin R. 2001. A regional paleolimnological assessment of the impact of clear-cutting on lakes from the west coast of Vancouver Island, British Columbia. Can. J. Fish. Aquat. Sci. 58: 479-505.
Lamontagne S., Carignan R., D'Arcy P., Prairie Y.T. and Paré D. 2000. Element export in runoff from eastern Canadian Boreal Schield drainage basins following forest harvesting and wildfires. Can. J. Fish. Aquat. Sci. 57(Suppl. 2): 118-128.
Larsen J.A. 1980. The Boreal Ecosystem. Academic Press, New York, 500 pp.
Luckman B.H., Briffa K.R., Jones P.D. and Schweingruber F.H. 1997. Tree-ring based reconstruction of summer temperatures at the Columbia Icefield, Alberta, Canada, AD 1073-1983. Holocene 7: 375-389.
Mackereth F.J.H. 1948. A portable core sampler for lake deposits. Limnol. Oceanogr. 3: 181-191.
Moore T.R. 1981. Controls on the decomposition of organic matter in subarctic spruce-lichens woodland soils. Soil Sci. 131: 107-113.
Moser K.A., Smol J.P., MacDonald G.M. and Larsen C.P.S. 2002. 19th century eutrophication of a remote boreal lake: a consequence of climate warming? J. Paleolim. 28: 269-281.
Noble M.G., DeBoer L.K., Johnson K.L., Coffin B.A., Fellows L.G. and Christensen N.A. 1977. Quantitative relationships among somePinus banksiana and Picea mariana forests subjected to wildfire and post-logging treatments. Can. J. For. Res. 7: 368-377.
Økland R.H. 2000. Understorey vegetation development in North FinnishPicea forests after disturbance: re-analysis of Siren's data. J. Veg. Sci. 11: 533-546.
Ollinger S.V., Smith M.L., Martin M.E., Hallett R.A., Goodhale C.L. and Aber J.D. 2002. Regional variation in foliar chemistry and N cycling among forests of diverse history and composition. Ecology 83: 339-355.
Overpeck J.T., Webb T. III. and Prentice I.C. 1985. Quantitative interpretation of fossil pollen spectra: dissimilarity coefficients and the method of modern analogs. Quat. Res. 23: 87-108.
Overpeck J., Hughen K., Hardy D., Bradley R., Case R., Douglas M. et al. 1997. Arctic environmental change of the last four centuries. Science 278: 1251-1256.
Paré D. and Bergeron Y. 1996. Effect of colonizing tree species on soil nutrient availability in a clay soil of the boreal mixed-wood. Can. J. For. Res. 26: 1022-1031.
Paré D., Meyer W.L. and Camire C. 1993. Nutrient availability and' foliar nutrient status of sugar maple saplings following fertlization. Soil. Sci. Soc. Am. J. 57: 1107-1114.
Paterson A.M., Cumming B.F., Smol J.P., Blais J.M and France R.L. 1998. Assessment of the effects of logging, forest fires and drought on lakes in northwestern Ontario: a 30-year paleolimnological perspective. Can. J. For. Res. 28: 1546-1556.
Philibert A. 2002. Étude fondamentale et nouveaux concepts en paléolimnologie. Reconstitution à long terme à partir des diatomées, des impacts provoqués par les feux et els coupes forestières sur la biogéochimie des lacs dans les provinces d'Alberta et du Quebec, PhD, Université du Québec à Montréal, Montréal, Canada.
Philibert A. and Prairie Y.T. 2002a. Diatom-based transfer functions in western Quebec lakes (Abitibi and Haute Mauricie): the possible role of epilimnetic CO2 concentration in influencing diatom assemblages. J. Paleolim. 27: 465-480.
Philibert A. and Prairie Y.T. 2002b. Is the introduction of benthic species necessary for open-water chemical reconstruction in diatom-based transfer functions? Can. J. Fish. Aquat. Sci. 59: 938-951.
Planas D., Desrosiers M., Groulx S.R., Paquet S. and Carignan R. 2000. Pelagic and benthic algal responses in eastern Canadian Boreal Shield lakes following harvesting and wildfires. Can. J. Fish. Aquat. Sci. 57(Suppl. 2): 136-145.
Prairie Y.T., Bird D.F. and Cole J.J. 2002. The summer metabolic balance in the epilimnion of southeastern Quebec lakes. Limnol. Oceanogr. 47: 316-321.
Racca J.M.J., Philibert A., Racca R. and Prairie Y.T. 2001. A comparison between diatom-based pH inference models using artificial neural networks (ANN), weighted averaging (WA) and weighted averaging partial least squares (WA-PLS) regressions. J. Paleolim. 26: 411-422.
Rhodes T.E. and Davis R.B. 1995. Effects of late Holocene forest disturbance and vegetation change on acidic mud pond, Maine, USA. Ecology 76: 734-746.
Rosenmeier M.F., Hodel D.A., Brenner M., Curtis J.H., Martin J.B., Anselmetti F.S. et al. 2002. Influence of vegetation change on watershed hydrology: implications for paleoclimatic interpretation of lacustrine δ18O records. J. Paleolim. 27: 117-131.
Rumelmart D.E., Hinton G.E. and Williams R.J. 1986. Learning representations by back-propagationg errors. Nature 323: 533-536.
1998. One element in the hierarchical land classification system developed by the Ministère des Resources naturelles du Québec. In: Saucier J.P., Bergeron Y., Grondin P. and Robitaille A., The land regions of southern Québec (3rd version).Internal report, Ministère des Resources naturelles de Québec, Québec.
Sims R.A., Kershaw H.M. and Eickware G.M. 1990. The autecology of major species in the North Central region of Ontario.
Ontario Ministry of Natural Resources, NW Ont. Forestry Techical Dev. Unit, Thunder Bay, Ont. TDU Tech. Report No. 48 /COFRDA Rep. No. 3302.
Stocks B.J., Fosberg M.A., Lynham T.J., Mearns L., Wotton B.M., Yang Q. et al. 1998. Climate change and forest fire potential in Russian and Canadian boreal forest. Clim. Change 38: 1-13.
Ter Braak C.J.F. and Juggins S. 1993. Weighted averaging partial least square regression (WA-PLS): an improved method for reconstructing environmental variables from species assemblages. Hydrobiologia 269/270: 485-502.
Veillette J.J. 1994. Evolution of paleohydrology of glacial lakes Barlow and Ojibway.Quat. Sci. Rev. 13: 945-971.
Vierek L.A. and Schandelmeir L.A. 1980. Effects of fire in Alaska an in Adjacent Canada-a literature review. U.S. Department of the Interior, Bureau of Land Mangement, Alaska State Office, Anchorage, AK, Technical Report 6, 124 p.
Willis K.J., Braun M., Sümegi P. and Tòth A. 1997. Does soil change cause vegetation change or vice versa? A temporal perspective from Hungary. Ecology 78: 740-750.
Wilson S.E., Cumming B.F. and Smol J.P. 1996. Assessing the reliability of salinity inference models from diatom assemblages: an examination of a 219-lake data set from western North America. Can. J. Fish. Aquat. Sci. 53: 1580-1594.
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Philibert, A., Prairie, Y. & Carcaillet, C. 1200 years of fire impact on biogeochemistry as inferred from high resolution diatom analysis in a kettle lake from the Picea mariana-moss domain (Quebec, Canada). Journal of Paleolimnology 30, 167–181 (2003). https://doi.org/10.1023/A:1025526200880
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DOI: https://doi.org/10.1023/A:1025526200880