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Critical Loads' Sensitivity to Climate Change

Published online by Cambridge University Press:  24 August 2009

Robert L. Wilby
Affiliation:
Department of Geography, University of Derby, Kedleston Road, Derby DE22 1GB, England, UK.

Abstract

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Type
Short Communications & Reports
Copyright
Copyright © Foundation for Environmental Conservation 1995

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References

Battarbee, R.W., Flower, R.J., Stevenson, A.C., Jones, V.J., Harriman, R. & Appleby, P.G. (1988). Diatom and chemical evidence of reversibility of acidification of Scottish lochs. Nature (London), 332, pp. 530–2.Google Scholar
Bull, K.R. (1991). The critical loads/levels approach to gaseous pollutant emission control. Environ. Pollution, 69, pp. 105–23.Google Scholar
Caritat, P. de (1995). Intensifying groundwater acidification at Birkenes, southern Norway. J. Hydrol., 170, pp. 4762.Google Scholar
Cosby, B.J., Hornberger, G.M. & Galloway, J.N. (1985). Modelling the effects of acid deposition: assessment of a lumped parameter model of soil water and streamwater chemistry. Wat. Resour. Res., 21, pp. 5163.Google Scholar
Cosby, B.J., Wright, R.F. & Gjessing, E. (1995). An acidification model (MAGIC) with organic acids evaluated using whole catchment manipulations in Norway. J. Hydrol., 170, pp. 101–22.Google Scholar
Davies, T.D., Kelly, P.M., Brimblecombe, P., Farmer, G. & Barthelmie, R.J. (1986). Acidity of Scottish rainfall influenced by climatic change. Nature (London), 232, pp. 359–61.Google Scholar
Dillon, P.J., Reid, R.A. & Girad, R. (1986). Changes in the chemistry of lakes near Sudbury, Ontario following reductions in SO2 emissions. Water Air Soil Pollution, 31, pp. 5965.Google Scholar
Mitchell, J.F.B., Johns, T.C., Gregory, J.M. & Tett, S.F.B. (1995). Climate response to increasing levels of greenhouse gases and sulphate aerosols. Nature (London), 376, pp. 501–4.Google Scholar
Psenner, R. & Schmidt, R. (1992). Climate-driven pH control of remote alpine lakes and effects of acid deposition. Nature (London), 356, pp. 781–3.Google Scholar
Rowntree, P.R., Murphy, J.M. & Mitchell, J.F.B. (1993). Climatic change and future rainfall predictions. J. IWEM, 7, pp. 464–70.Google Scholar
Webster, K.E., Newell, A.D., Baker, L.A. & Brezonik, P.L. (1990). Climatically induced rapid acidification of a softwater seepage lake. Nature (London), 347, pp. 374–6.Google Scholar
Wesselink, L.G. et al. (1995). Long-term changes in water and soil chemistry in spruce and beech forests, Soiling, Germany. Env. Sci. Technol., 29, pp. 51–8.Google Scholar
Whitehead, P.G., Black, V., Jenkins, A., Wright, R. & Cosby, J. (1993). Modelling acidification at Beacon Hill — a low rainfall, high pollutant deposition site in central England. Environ. Pollut., 79, pp. 277–81.Google Scholar
Whitehead, P.G., Neal, C. & Neale, R. (1986). Modelling the effects of hydrological changes on stream water acidity. J. Hydrol., 84, pp. 353–64.Google Scholar
Wilby, R.L. (1991). The Influence of Climate on the Hydrogen-ion Budget of Upland Catchments: a Hydrological Approach. Upublished Ph.D. thesis, Loughborough University of Technology, Loughborough, England, UK: [not available for checking].Google Scholar
Wilby, R.L. (1994). Exceptional weather in the Midlands, UK, during 1988–1990 results in the rapid acidification of an upland stream. Environ. Pollut., 86, pp. 15–9.Google Scholar
Wilby, R.L. (1995). Modelling the impact of extreme weather on surface water acidity regimes. Pp. 1524 in Man's Influence on Freshwater Ecosystems and Water Use (Ed. G.E. Petts). IAHS Publication Nr 230. [Not available for checking.]Google Scholar
Wright, R.F., Lotse, E. & Semba, A. (1988). Reversibility of acidification shown by whole-catchment experiments. Nature (London), 334, pp. 670–5.Google Scholar