Abstract
The parent material of a soil determines the original supply of those nutrient elements that are released by weathering and influences the balance between nutrient loss and retention. Organic acids and exudates produced by microorganisms and plants enhance the weathering of minerals and the release of nutrients. Nutrients may be stored in organic cycles or as ions adsorbed to clay and organic matter. Nutrients are lost mainly by leaching, both as dissolved ions and when associated with soluble organic components. Soil formation evidently affects these processes and modifies the environment at different depths as soil horizons develop. Strong interactions between mineral and organic colloids occur where most residues are added below ground, as in grasslands, or mixed with mineral soil by faunal activity, as in some forests. These systems tend to be nutrient conserving. The addition of organic residues to the soil surface often results in slow decomposition, the tie-up of many nutrients in biologically resistant humic materials, and the generation of organic acids that are active in leaching and chelation. These soils tend to lose nutrients by leaching and become strongly acidic with time. Leaching is strongest in uplands with net downward flows to deep water tables, and may be dampened or obviated in lowlands with strong upward fluxes due to artesian pressure or capillary rise from a water table that is close to the surface. Pedogenic features such as clayeyB horizons or duripans may alter water flow. Simonson's concepts that all basic soil-forming processes occur to some degree in all soils are critical to developing models describing soil formation and nutrient cycles.
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References
Aandahl, A.R. (1982) Soils of the Great Plains. Univ of Nebraska Press, Lincoln, NB
Ahmad, N. (1983) Vertisols. In: L.P. Wilding, N.E. Smeck & G.F. Hall (Eds) Pedogenesis and Soil Taxonomy. II. The Soil Orders (pp. 91–119). Elsevier, New York
Alban, D.H. (1982) Effects of nutrient accumulation by aspen, spruce and pine on soil properties. Soil Science Society of America Journal 46: 853–861
Allen, B.L. & D.S. Fanning (1983) Composition and soil genesis. In: L.P. Wilding, N.E. Smeck & G.F. Hall (Eds) Pedogenesis and Soil Taxonomy. I. Concepts and Interactions (pp. 141–192). Elsevier, New York
Anderson, D.W. (1977) Early stages of soil formation on glacial till mine spoils in a semi-arid climate. Geoderma 19: 11–19
Anderson, D.W. & E.A. Paul (1984) Organo-mineral complexes and their study by radiocarbon dating. Soil Science Society of America Journal 48: 298–301
Arshad, M.A. & R.J. St. Arnaud (1980) Occurrence and characteristics of ferromanganiferous concretions in some Saskatchewan soils. Canadian Journal of Soil Science 60: 685–695
Batsula, A.A. & G.M. Krivonosova (1973) Phosphorus in the humic and fulvic acids of some Ukrainian soils. Soviet Soil Science 347–350
Bettany, J.R., H.H. Janzen & J.W.B. Stewart (1983) Sulfur deficiency in the prairie provinces of Canada. In: A.I. More (Ed) Proceedings of the International Sulphur '82 CConference. Vol 2 (pp. 787–799). British Sulphur Corp., London
Bettany, J.R., J.W.B. Stewart & S. Saggar (1979) The nature and forms of sulfur in organic matter fractions of soils selected along an environmental gradient. Soil Science Society of America Journal 43: 981–985
Birkeland, P.W. (1974) Pedology, Weathering and Geomorphological Research. Oxford University Press, New York
Borchardt, G.A. (1977) Montmorillonite and other smectite minerals. In: Minerals and the Soil Environment (pp. 293–330). Soil Science Society of America, Madison, Wis.
Brewer, R. & J.R. Sleeman (1970) Some trends in pedology. Earth Science Review 6: 297–335
Boyle, J.R. & G.K. Voigt (1973) Biological weathering of silicate minerals, implications for tree nutrition and soil genesis. Plant and Soil 38: 191–201
Christensen, B.T. & L.H. Sorensen (1985) The distribution of native and labelled carbon between soil particle size fractions isolated from long-term incubation experiments. Journal of Soil Science 36: 219–229
Crompton, E. (1960) The significance of the weathering/leaching ratio in the differentiation of major soil groups, with particular reference to some very strongly leached Brown Earths on the Hills of Britain. Transactions of the 7th International Congress of Soil Science V57: 406–412
Crompton, E. (1962) Soil formation. Outlook on Agriculture 3: 209–218 (Reprinted in SSSA Spec. Publ. 1, Selected Papers in Soil Formation and Classification)
Daniels, R.B., E.E. Gamble & L.A. Nelson (1971) Relations between soil morphology and water-table levels on a dissected North Carolina coastal plain surface. Soil Science Society of America Proceedings 35: 781–784
de Jong, E. & K.B. MacDonald (1975) The soil moisture regime under grassland. Geoderma 14: 207–222
Dijkerman, J.C. (1974) Pedology as a science: The role of data, models and theories in the study of natural ecosystems. Geoderma 11: 73–93
Dokuchaev, V.V. (1883) Russian Chernozem. Israel Program for Scientific Publication (1967)
Dormaar, J.F. & G.R. Webster (1963) Status of organic phosphorus in some Alberta soils. Canadian Journal of Soil Science 43: 27–34
Everett, K. R. & J. Brown (1982) Some recent trends in the physical and chemical characterization and mapping of tundra soils, Arctic slope of Alaska. Soil Science 133: 264–280
Fahey, T.J., J.B. Yavitt, J.A. Pearson & D.H. Knight (1985) The nitrogen cycle in lodgepole pine forests, southeastern Wyoming. Biogeochemistry 1: 257–275
Ferguson, H. & T. Bateridge (1982) Salt status of glacial till soils of north-central Montana as affected by the crop-fallow system of dryland farming. Soil Science Society of America Journal 46: 807–810
Fortescue, J.A.C. (1980) Environmental Geochemistry. Springer-Verlag, New York
Fox, R.L. & R.C. Lipps (1960) Distribution and activity of roots in relation to soil properties. Seventh International Congress of Soil Science. Vol III (pp. 260–267)
Fuller, R.D., M.B. David & C.T. Driscoll (1985) Sulfate adsorption relationships in forested Spodosols of the northeastern USA. Soil Science Society of America Journal 49: 1034–1040
Geis, J.W., W.R. Boggess & J.D. Alexander (1970) Early effects of forest vegetation and topographic position on dark-colored, prairie-derived soils. Soil Science Society of America Proceedings 34: 105–111
Greenland, D.J. (1965) Interactions between clays and organic compounds in soils. Soils and Fertilizers 28: 415–425 and 521–532
Henry, J.L., P.R. Bullock, T.J. Hogg & L.D. Luba (1985) Groundwater discharge from glacial and bedrock aquifers as a soil salinization factor in Saskatchewan. Canadian Journal of Soil Science 65: 749–768
Hole, F.D. & J.B. Campbell (1985) Soil Landscape Analysis. Routledge & Kegan Paul, London
Howitt, R.W. & S. Pawluk (1985) The genesis of a Gray Luvisol within the Boreal Forest Region. II. Dynamic pedology. Canadian Journal of Soil Science 65: 9–19
Hue, N.V., F. Adams & C.E. Evans (1985) Sulfate retention by an acid BE horizon of an Ultisol soil. Soil Science Society of America Journal 49: 1196–1200
Jenny, H. (1941) Factors of Soil Formation. McGraw-Hill, New York
Jenny, H. (1980) The Soil Resource, Origin and Behavior. Springer-Verlag, New York
Jenny, H. (1984) My friend the soil. Journal of Soil and Water Conservation 39: 158–161
Joffe, J.S. (1936) Pedology (pp. 419–486). Rutgers University Press, New Brunswick, New Jersey
Kachanoski, G.R. & E. de Jong (1982) Comparison of the soil water cycle in clear-cut and forested sites. Journal of Environmental Quality 11: 545–549
King, G.J., D.F. Acton & R.J. St. Arnaud (1983) Soil-landscape analysis in relation to soil distribution and mapping at a site within the Weyburn Association. Canadian Journal of Soil Science 63: 657–670
Le Mare, P.H. (1981) Phosphorus sorption and release. In: D.J. Greenland (Ed) Characterization of Soils (pp. 97–134). Clarendon Press, Oxford
Lewis, D.T. (1977) Subgroup designations of three Udolls in southeastern Nebraska. Soil Science Society of America Journal 41: 940–945
Liebhardt, W.C., L.V. Svec & M.R. Teel (1976) Yield of corn as affected by potassium on a Coastal Plain soil. Communications in Soil Science and Plant Analysis 7: 265–277
Likens, G.E. & F.H. Bormann (1975) An experimental approach to nutrient-hydrological interactions in New England landscapes. In: A.D. Hasler (Ed) Coupling of Land and Water Systems (pp. 7–29). Springer-Verlag, New York
Maynard, D.G., J.W.B. Stewart & J.R. Bettany (1985) The effects of plants on soil sulfur transformations. Soil Biology and Biochemistry 17: 127–134
McDaniel, P.A. & L.C. Munn (1985) Effect of temperature on organic carbon-texture relationships in Mollisols and Aridisols. Soil Science Society of America Journal 49: 1486–1489
McKeague, J.A., M.V. Cheshire, F. Andreux & J. Berthelin (1986) Organo-mineral complexes in relation to pedogenesis. In: P.M. Huang (Ed) Interactions of Soil Minerals with Natural Organics and Microbes. Soil Science Society of America Special Publication No. 17: 549–592
Mermut, A.R. & D.F. Acton (1985) Surficial rearrangement and cracking in swelling clay soils of the Glacial Lake Regina basin in Saskatchewan. Canadian Journal of Soil Science 65: 317–328
Mermut, A.R. & R.J. St. Arnaud (1986) Quantitative evaluation of feldspar weathering in two Boralf (Grey Luvisols) from Saskatchewan. Soil Science Society of America Journal 50: 1073–1080
Miller, B.J. (1984) Ultisols. In: L.P. Wilding, N.E. Smeck & G.F. Hall (Eds) Pedogenesis and Soil Taxonomy. II. The Soil Orders (pp. 283–324). Elsevier, New York
Nettleton, W.D. & F.F. Peterson (1984) Aridisols. In: L.P. Wildings, N.E. Smeck & G.F. Hall (Eds) Pedogenesis and Soil Taxonomy. II. The Soil Orders (p. 165–215). Elsevier, New York
Nichols, J.D. (1984) Relation of organic carbon to soil properties in the southern Great Plains. Soil Science Society of America Journal 48: 1382–1384
Nikiforoff, C.C. (1959) Reappraisal of the soil. Science 129: 186–196
Ollier, C. (1984) Weathering. Longman's Inc., New York
Olson, C.G. & C.R. Hupp (1986) Coincidence and spatial variability of geology, soils and vegetation, Mill Run Watershed, Virginia. Earth Surface Processes and Landforms 11: 619–630
Paul, E.A. & J. van Veen (1978) The use of tracers to determine the dynamic nature of organic matter. Transactions of the 11th International Congress of Soil Science 3: 61–102
Pettijohn, F.W. (1957) Sedimentary Rocks (pp. 99–109). Harper and Row, New York
Polynov, B.B. (1951) Modern ideas of soil formation and development. Soils and Fertilizers 14: 95–101
Riekirk, H. (1971) The mobility of phosphorus, potassium and calcium in a forest soil. Soil Science Society of America Proceedings 35: 350–356
Roberts, T.L. (1985) Sulfur and its relationship to carbon, nitrogen and phosphorus in a climo-toposequence of Saskatchewan soils. Ph.D. thesis, University of Saskatchewan, Saskatoon
Roberts, T.L. & J.R. Bettany (1985) The influence of topography on the nature and distribution of soil sulfur across a narrow environmental gradient. Canadian Journal of Soil Science 65: 429–434
Roberts, T.L., J.W.B. Stewart & J.R. Bettany (1985) The influence of topography on the distribution of organic and inorganic soil phosphorus across a narrow environmental gradient. Canadian Journal of Soil Science 65: 651–666
Ronov, A.B. & A.A. Yaroshevsky (1972) Earth's crust geochemistry. In: F.W. Fairbridge (Ed) Encyclopedia of Geochemistry and Environmental Sciences. Vol. IVA (pp. 243–254). Van Nostrand Reinhold, New York
Runge, E.C.A. & F.F. Riecken (1966) Influence of natural drainage on the distribution and forms of phosphorus in some Iowa prairie soils. Soil Science Society of America Proceedings 30: 624–630
Sanborn, P. & S. Pawluk (1983) Process studies of a Chernozemic pedon, Alberta (Canada). Geoderma 31: 205–237
Santos, M.C.D. (1984) Pedogenesis of Luvisolic soils in east-central Saskatchewan. Ph.D. thesis, University of Saskatchewan, Saskatoon
Santos, M.C.D., A.R. Mermut, D.W. Anderson & R.J. St. Arnaud (1985) Micromorphology of three Gray Luvisols in east-central Saskatchewan. Canadian Journal of Soil Science 65: 717–726
Schlesinger, W.H. (1982) Carbon storage in the caliche of arid soils: A case study from Arizona. Soil Science 133: 247–255
Schlichting, E. & V. Schweikle (1980) Interpedon translocations and soil classification. Soil Science 130: 200–204
Schoenau, J.J. & J.R. Bettany (1987) Organic matter leaching as a component of carbon, nitrogen, phosphorus and sulfur cycles in a forest, grassland and gleyed soil. Soil Science Society of America Journal 51: 646–651
Severson, R.C. & H.F. Arneman (1973) Soil characteristics of the forest-prairie ecotone in northwestern Minnesota. Soil Science Society of America Proceedings 37: 593–599
Simonson, R.W. (1959) Outline of a generalized theory of soil genesis. Soil Science Society of America Proceedings 23: 152–156
Simonson, R.W. (1980) Loss of nutrient elements during soil formation. In: O.P. Engelstad (Ed) Nutrient Mobility in Soils (pp. 21–46). Soil Science Society of America Special Publication No. 4, Madison, Wis
Sims, Z.R. & G.A. Nielsen (1986) Organic C in Montana soils as related to clay content and climate. Soil Science Society of America Journal 50: 1269–1271
Smeck, N.E. (1985) Phosphorus dynamics in soils and landscapes. Geoderma 36: 185–199
Smeck, N.E. & E.C.A. Runge (1971) Phosphorus availability and redistribution in relation to profile development in an Illinois landscape segment. Soil Science Society of America Proceedings 35: 952–959
Sobecki, T.M. & L.P. Wilding (1983) Formation of calcic and argillic horizons in selected soils of the Texas Coast Prairie. Soil Science Society of America Journal 47: 707–715
Spiers, G.A., S. Pawluk & M.J. Dudas (1984) Authigenic mineral formation by solodization. Canadian Journal of Soil Science 64: 515–532
St. Arnaud, R.J. (1986) The Pedogenic Index—its application to mineral weathering and soil fertility. Transactions of the XIII Congress of Soil Science. Vol III (pp. 1042–1043)
Syers, J. K., R. Shah & T.W. Walker (1969) Fractionation of phosphorus in two alluvial soils and particle size separates. Soil Science 108: 283–289
Thomas, G.W. (1970) Soil and climatic factor which affect mobility. In: O.P. Engelstad (Ed) Nutrient Mobility in Soils: Accumulation and Losses (pp. 1–20). Soil Science Society of America Special Publication No. 4, Madison, Wis
Tiessen, H., J.W.B. Stewart & C.V. Cole (1984) Pathways of phosphorus transformations in soils of differing pedogenesis. Soil Science Society of America Journal 48: 853–858
Torrent, J. & W.D. Nettleton (1978) Feedback processes in soil genesis. Geoderma 20: 281–287
Trudgill, S. (1977) Soil and Vegetation Systems. Oxford University Press, Oxford
Walker, T.W. & A.F.R. Adams (1959) Studies on soil organic matter. 2. Influence of increased leaching at various stages of weathering on levels of carbon, nitrogen, sulfur and organic and total phosphorus. Soil Science 87: 1–10
Walker, T.W. & J.K. Syers (1976) The fate of phosphorus during pedogenesis. Geoderma 15: 1–19
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Anderson, D.W. The effect of parent material and soil development on nutrient cycling in temperate ecosystems. Biogeochemistry 5, 71–97 (1988). https://doi.org/10.1007/BF02180318
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DOI: https://doi.org/10.1007/BF02180318