Abstract
Mapping of the pH of surface soils for Queensland showed acidity was extensive and indicated a trend for lower pH values to be associated with higher rainfall areas. The indicated pH-rainfall trend was further investigated by dividing Queensland into five zones using rainfall isohyets and into tropical and subtropical regions.
Based on 7650 surface soil pHw (1:5 soil:deionised water) values from a database, highly significant (F = 850; p>0.001) differences in pHw were found to occur among the five rainfall zones, with a consistent increase in acidity with increasing rainfall. Some of this trend can be attributed to areal occurrence and distribution of soil types. For example Inceptisols, Oxisols and Spodosols only occur in the higher rainfall areas and are mainly medium to strongly acid. However, a major finding is that most individual soil orders have significant differences in mean pHw between rainfall zones, implicating a rainfall influence on soil pH, even within soil orders.
Additionally, tropical soils are significantly (F = 206; p>0.001) more acid than subtropical ones, although this trend is not consistent for all soil orders. Thus, climate is shown to influence the pH of surface soils in Queensland.
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Ahern C R, Isbell R F and Weinand M M G 1995 Acid surface soil distribution and extent in Queensland, Australia. In Plant-Soil Interactions at Low pH: Principles and Management. Eds. R A Date, N J Grundon, G E Rayment and M E Probert. Kluwer Academic Publishers, Dordrecht, The Netherlands.
Ahern C R, Weinand M M G and Murtha G G 1992 Surface soil pH in non-arid Queensland. Aust. J. Soil Water Cons. 5, 38–43.
Buckney R T and Taylor P A 1973 Chemistry of Tasmanien inland waters. Int. Revue Gesamten Hydrobiol. 58, 61–68.
Davies J L 1965 Atlas of Tasmania. Lands and Surveys Department, Hobart. 128 p.
Helyar K R, Gregan P D and Godyn D L 1990 Soil acidity in New South Wales—current pH values and estimates of acidification rates. Aust. J. Soil Res. 28, 523–537.
Krug E C 1989 Assessment of the theory and hypotheses of the acidification of watersheds. Illinois State Water Survey Contract Rept 457, USA.
Northcote K H 1979 A factual key for the recognition of Australian soils. Rellim Technical Publications, Glenside, SA, Australia. 124 p.
Rosenthal K M, Ahern C R and Cormack R S 1986 WARIS: A computer based storage and retrieval system for soils and related data. Aust. J. Soil Res. 24, 441–456.
Soil Survey Staff 1975 Soil Taxonomy: A Basic System of Soil Classification for Making and Interpreting Soil Surveys. U.S. Dept of Agriculture Handbook, No. 436. 736 p.
Walker P H 1980 Soil morphology, genesis and classification in Australia. In National Soils Conference 1980 Review Papers. Eds. T S Abbott, C A Hawkins and P G E Searle. pp 1–26. Australian Society of Soil Science Inc., Canberra.
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Ahern, C.R., Weinand, M.M.G. (1995). Does climate influence the pH of Queensland surface soils?. In: Date, R.A., Grundon, N.J., Rayment, G.E., Probert, M.E. (eds) Plant-Soil Interactions at Low pH: Principles and Management. Developments in Plant and Soil Sciences, vol 64. Springer, Dordrecht. https://doi.org/10.1007/978-94-011-0221-6_22
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DOI: https://doi.org/10.1007/978-94-011-0221-6_22
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