Abstract
Current applications of the critical loads concept are geared primarily toward targeting emission control strategies at a national and international level. Maps of critical loads for freshwaters have been produced in grid form based on water samples of representative sites within each grid square. However, the water chemistry data required to calculate freshwater critical loads are not always readily available at a national level and maps are therefore limited to catchments where such data exist. This paper describes the development of an approach that uses nationally available secondary data to predict freshwater critical loads for catchments lacking the appropriate water chemistry information. An empirical statistical model is calibrated using data from 78 catchments throughout Scotland. Water chemistry for each catchment has been determined. Each catchment is characterized according to a number of attributes. Redundancy analysis of these data shows clear relationships between catchment attributes and the critical load derived from the water chemistry. The key variables that explain most of the variation in critical load relate to soil, geology and land use within the catchment. Using these variables as predictors in a regression analysis, the critical load can be predicted across a broad gradient of sensitivity (R2 adj=0.81). The predictive power of the model was maintained when different combinations of explanatory variables were used. This accords the approach a degree of flexibility in that model parameterization can be geared toward availability of secondary data. There are limitations with the model as presently calibrated. However, the approach offers considerable scope for environmental managers to undertake national inventories of catchment sensitivity and specific assessments of individual catchments.
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Allott, T.E.H., Curtis, C.J., Hall, J., Harriman, R. and Battarbee, R.W.: 1995, Water, Air Soil Pollut. 85, 297.
Battarbee, R.W., Allott, T.E.H., Juggins, S. and Kreiser, A: 1996, Ambio 25, 366.
Billet, M.F. and Cresser, M.S.: Environ. Pollut. 77, 263.
Boorman, D.B., Hollis, J.M. and Lilly, A.: 1995, Hydrology of Soil types: A Hydrologically-based Classification of the Soils of the United Kingdom Report No. 26, Institute of Hydrology, Wallingford.
Bull, K.R.: 1995, Water, Air Soil Pollut. 85, 201.
Brakke, D.F., Henriksen, A., Norton, S.A.: 1990, Verh. Internat. Verein. Limnol. 24, 146.
Christopherson, N., Seip, H.M. and Wright, R.F.: 1992. Water Resour. Res. 18, 977.
CLAG: 1995, Critical Loads of Acid Deposition for United Kingdom Freshwaters-Critical Loads Advisory Group, Sub-group Report on Freshwater, Department of Environment, UK.
Cosby, B.J., Wright, R.F., Hornberger, G.M. and Galloway, J.N.: 1995 Water Resour. Res. 21, 51.
Edmunds, W.M. and Kinniburgh, D.G.: 1986, J. Geol. Soc. 143, 707
Downing, R.J., Hettelingh, J.P. and de Smet, P.A.M.: 1993, Calculation and Mapping of Critical Loads in Europe: Status Report 1993. CCE, RIVM, Report 259101003. Bilthoven.
Duarte, C.M. and Kalff, J.: 1989, Arch. Hydrobiol. 115, 27.
Forsius, M., Kämäri, J., and Posch, M.: 1992, Environ. Pollut. 77, 185.
Hall, J.R., Wright, S.M., Sparks, T.H., Ullyet, J., Allott, T.E.H. and Hornung, M.: 1995, Water, Air Soil Pollut. 85, 2521.
Harriman, R., Allott, Battarbee, R.W., Curtis, C., Jenkins, A. and Hall, J.R.: 1995, Mapping and Modelling of Critical Loads Report of a Workshop held at Grange-over-Sands, Cumbria.
Henriksen, A., Kämäri, J., Posch, M., Lövblad, G., Forsius, M. and Wilander, A.: 1990, in Intra and Inter-Grid Variability of Critical Loads and their Exceedances Miljörapport 1990:17. Nordic Council of Ministers.
Hornung, M., Le-Grice, S., Brown, N. and Norris, D.: 1990a, in R.W. Edwards, Gee, A.S. and J.H. Stoner (eds.), Acid Waters in Wales, Kluwer Academic Publishers, Dordrecht.
Hornung, M., Brown, S.J., and Ranson, A.: 1990b, in R.W. Edwards, Gee, A.S. and J.H. Stoner (eds.), Acid Waters in Wales. Kluwer Academic Publishers, Dordrecht.
Hornung, M., Bull, K., Crosser, M., Hall, J.R., Loveland, P.J., Langan, S.J., Reynolds, B. and Robertson, W.H.: 1994, in R.W. Battarbee (ed.), Acid Rain and its Impact: The Critical Loads Debate. Proceedings of a Conference held at the Environmental Change Research Centre, London.
Hornung, M., Bull, K., Crosser, M., Ullyet, J., Hall, J.R., Langan, S., Loveland, P.J. and Wilson, M.J.: 1995, Environ. Pollut. 87, 204.
Hunsaker, C.T., Levine, D.A., Timmins, S.P., Jackson, B.I. and O'Neill, R.V.: 1991 Landscape Characterisation for Assessing Regional Water Quality. Report to the U.S. Government. Contract No. DE-ACOS-840R21400
Israëls, A.: 1992, Stat. Applic. 4, 531.
Kernan, M.: 1995, Water, Air Soil Pollut. 85, 2479.
Kramer, J.: 1976. Proceedings of the 1st International Symposium on Acid Precipitation and the Forest Ecosystem, US Department of Agriculture Forest Service.
Kreiser, A., Patrick, S.T., and Battarbee, R.W.: 1993, in Hornung, M. and Skeffington, R.A., (eds.), Critical Loads: Concepts and Applications. ITE Symposium No. 28, London.
Langan, S.J. and Wilson, M.J.: 1992, J. Hydrol. 138, 515.
Manly, B.J.F.: 1992, The Design and Analysis of Research Studies. Cambridge University Press, Cambridge.
Nilsson, J. and Grennfelt, P.: 1988, Critical Loads for Sulphur and Nitrogen. UNECE/Nordic Council Workshop Report, Skokloster, Sweden
Økland, R.H. and Eilertson, O.: 1994, J. Veget. Sci. 5, 117.
Patrick, S.T., Juggins, S., Waters, D. and Jenkins, A.: 1991, The United Kingdom Acid Waters Monitoring Network Site Description and Methodology Report, Report to DoE and DoE (NI)
Rees, R.M., Parker-Jervis, F. and Cresser, M.: 1989, Water Res. 23, 511.
Reuss, J.O. and Johnson, D.W.: 1986, Acid Deposition and the Acidification of Soils and Waters. Springer Verlag, New York.
Reuss, J.O., Cosby, B.J. and Wright, R.F.: 1987, in S.A. Norton., S.E. Lindberg and A.L. Page (eds.), Acid Precipitation Volume 4: Soils, Aquatic Processes and Lake Acidification. Springer Verlag, New York
SAS Institute Inc.: 1993, SAS/INSIGHT® User's Guide, Version 6, Second Edition, Cary, NC.
Stoddard, J.L.: 1994, in L.A. Baker, (ed.), Environmental Chemistry of Lakes and Rivers. American Chemical Society, No. 237.
Sverdrup, H. and Warfvinge, P.: 1988, Water, Air Soil Pollut. 38, 387.
Sverdrup, H., Warfvinge, P., Rabenhorst, M., Janicki, A., Morgan, R. and Bowman M.: 1992, Environ. Pollut. 77, 195.
ter Braak, C.J.F.: 1987, CANOCO ä a FORTRAN Program for CANOnical Community Ordination by [Partial [Detrended [Canonical Correspondence Analysis, Principle Components Analysis (Version 3.1).
ter Braak, C.J.F.: 1990, Update Notes: CANOCO Version 3.10. Agricultural Mathematics Group, Wageningen.
Van den Wollenburg, A.L.: 1977, Psychometrika 42, 207.
Whittaker, J.: 1984, Appl. Stat. 33, 52.
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Kernan, M., Allott, T. & Battarbee, R. Predicting Freshwater Critical Loads of Acidification at the Catchment Scale: An Empirical Model. Water, Air, & Soil Pollution 105, 31–41 (1998). https://doi.org/10.1023/A:1005085021429
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DOI: https://doi.org/10.1023/A:1005085021429