Abstract
DESPITE intensive research, regional changes in lakewater chemistry in response to acidic deposition have not been adequately quantified. Palaeolimnology offers an independent means of testing the fundamental assumptions of acidification theory, but has not previously been used for regional assessment. Here we present rigorous documentation and quantification of regional lakewater acidification in the Adirondack Mountains of New York. The changes in acid-neutralizing capacity and pH that can be inferred from our palaeolimnological reconstructions indicate widespread recent acidification, but the changes are smaller than previously estimated using empirical models, and suggest that the role of watershed and/or in-lake neutralization of acidic input is more important than previously assumed1,2. Model-based estimates of future chemical change and consequent biological responses should therefore be re-evaluated in the light of these results.
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References
1. Wright, R F Predicting Acidification of North American Lakes, Report 4/1983 (Norwegian Inst for Water Res, Oslo, 1983) 2. Schmdler, D W, Kasian, S E M & Hesslein, R H Environ Sei Technol 23, 573-580 (1989) 3. Schofield C L m Proc First Intern Symp Acid Precip and Forest Ecosystems (eds Dochmger, L S & Seliga, T A ) (US Dept Agr Forest Serv Technical Report NE-2 1976) 4. Schofield, C L m Acid Ram/Fisheries (ed Johnson, R E ) 57-67 (Am Fisheries Soc, Bethesda, 1982) 5. Driscoll C T hesis Cornell Univ New York (1980) 6. Pfeiffer, M H & Festa, P J Acidity Status of Lakes in the Adirondack Region of New York in Relation to Fish Resources (New York Department of Environmental Conservation, Albany, 1980) 7. Driscoll, C T & Newton, R M Environ Sei Technol 19,1018-1024 (1985) 8. Kramer, J R et al m Acid Deposition Long-Term Trends 231-299 (Committee on Monitoring and Assessment of Trends in Acid Deposition, National Academy Press, Washington DC, 1986) 9. Asbury.C E,Vertucci,F A Mattson,M D & Likens, G E Environ Sei Technol 23,362-364 (1989) 10. Kretser, W, Gallagher, J & Nicolette, J An Evaluation of Fish Communities and Water Chemistry (Adirondack Lakes Survey Corporation, Ray Brook, New York, 1989) 11. Stensland,G L in The Acidic Deposition Phenomenon and its Effects Critical Assessment Review Papers Vol l (ed Altshuiler, A P ) 8-28 (US Environmental Protection Agency Washington DC, 1984) 12. Galloway J N Schofield C L, Hendrey, G R Peters N E & Johannes A H m Proc Int Conf Ecological Impact of Acid Precipitation (eds Drabltfs D & Tollan, A ) 264-265 (SNSF Project Oslo Aas 1980) 13. Sullivan T J et al Nature 331, 607-609 (1988) 14. Sullivan T J m Acidic Deposition and Aquatic Ecosystems Regional Case Studies (ed Charles, D F ) (Springer-Verlag, New York, in the press) 15. Kramer, J & Tessier, A Environ Sei Technol 16, 606-615 (1982) 16. Eilers, J M, Glass, G E, Pollack, ? ? & Sorensen, J A Can J Fish aquat Sei 46,1929-1944 (1989) 17. Charles, D F & Smol, J P Verh Internat Verem Limnol (in the press) 18. Church, M R et al Future Effects of Long Term Sulfur Deposition on Surface Water Chemistry in the Northeast and Southern Blue Ridge Province (US Environmental Protection Agency, Washington DC, 1989) 19. Linthurst, R A et al m Characteristics of Lakes in the Eastern United States, Report EPA/600/4-86/007a Vol I, 136, US Environmental Protection Agency Washington DC, 1986) 20. Kanciruk P et al Characteristics of lakes in the Eastern United States Report EPA-600/4-86/OOTc Vol III, 439 (US Environmental Protection Agency, Washington DC, 1986) 21. Charles D F & Whitehead D R Hydrobiologia 143, 13-20 (1986) 22. Charles D F, Battarbee R W Renberg I van Dam, H & Smol J P Acid Precipitation Vol 4 (eds Norton, S A, Lmdberg, S E & Page, A L ) 207-276 (Springer, New York, 1989) 23. Birks, H J B Line J M, Juggins, S, Stevenson ? C & ter Braak C J F Phil Trans R Soc Lond B327, 263-278 (1990) 24. Sullivan T J Historical Changes m Surface Water Acid-Base Chemistry in Response to Acidic Deposition, Report SOS/T11 (National Acid Precipitation Assessment Program, Washington, DC in revision) 25. Charles D F, Dixit, S S, Cumming, B F & Smol, J P J Paleolim (in the press) 26. Schecher W & Driscoll, C T Water Resour Res 23, 525-535 (1987) 27. Schafran, G C & Driscoll, C T Biogeochemistry 3,105-119 (1987) 28. Gran, G Analyst 77, 661-671 (1952) 29. Sullivan T J et al Nature 338, 408-410 (1989) 30. Wright R F, Lotse E & Semb, A Nature 334, 670-675 (1988) 31. Henriksen A Nature 278, 542 545 (1979) 32. Henriksen A m Proc Int Conf Ecological Impact of Acid Precipitation (eds Drablgs D & Tollan A ) 68 74 iSNSF Project Oslo Aas 1980) 33. Henriksen, A Changes in Base Cation Concentrations Due to Freshwater Acidification, Report 1/1982 50 (Norwegian Inst for Water Res Oslo 1982) 34. Eshleman K N & Kaufmann P R Environ Sei Technol 22, 685-690 (1987) 35. Brakke, D F, Henriksen A & Norton, S A Water Resour Bull 25, 247-253 (1989) 36. Altshuiler, A P & MacBean G A Second Report of the US-Canada Research Consultation Group on Long Range Transport of Air Pollutants (Environment Canada, Ottawa 1980) 37. Hendrey G R ei al Geological and Hydrochemical Sensitivity of the Eastern US to Acid Precipitation, Report EPA 600/3-80-024 (US Environmental Protection Agency, 1980)
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Sullivan, T., Charles, D., Smol, J. et al. Quantification of changes in lakewater chemistry in response to acidic deposition. Nature 345, 54–58 (1990). https://doi.org/10.1038/345054a0
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DOI: https://doi.org/10.1038/345054a0
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