Abstract
The turnover of C in soils is controlled mainly by water regimes and temperature, but is modified by factors such as size and physicochemical properties of C additions in litter or root systems, distribution of C throughout the soil as root systems, or addition as litter, distribution of C within the soil matrix and its interaction with clay surfaces.
Soil factors which retard mineralization of C in soils are identified from correlations of C contents of soils with other properties such as clay content and base status. The rate and extent of C mineralization depends on the chemistry of the added organic matter and interaction with clays of the microbial biomass and metabolites.
The organomineral interactions are shown to depend on cation bridges involving mainly Ca in neutral to alkaline soils, Al in acid soils and adsorption of organic materials on iron oxide surfaces. The various organomineral interactions lead to aggregations of clay particles and organic materials, which stabilizes both soil structure and the carbon compounds within the aggregates.
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References
Ahmed, M. (1981) Microbial biomass and carbon metabolism in soils. PhD thesis, Univ Adelaide, South Australia
Aiken, G.R., D.M. McKnight, R.L. Wershaw & P. MacCarthy (1985) Humic Substances in Soil, Sediment and Water. Wiley Interscience: New York
Anderson, D.W. & E.A. Paul (1984) Organo-mineral coplexes and their study by radiocarbon dating. Soil Sci Soc Am J 48: 298–301
Balesdent, J., A, Mariotti & B. Guillet (1986) Natural13C abundance as a tracer for soil organic matter studies. Soil Biol Biochem (in press)
Bolin, B. (1983) The carbon cycle. In: The Major Biogeochemical Cycles and Their Interactions (pp. 41–43). J. Wiley: Chichester; SCOPE 21
Bolin, B., E.T. Degens, P. Duvigneaud & S. Kempe (1979) The global biogeochemical cycle. In: B. Bolin, E.T. Degens, S. Kempe & P. Ketner (Eds) The Global Carbon Cycle (pp. 1–56). J. Wiley: Chichester, SCOPE 13
Campbell, C.A. (1978) Soil organic carbon, nitrogen and fertility. In: M. Schnitzer & S.V. Khan (Eds) Soil Organic Matter (pp. 173–271). Elsevier: Amsterdam
Cole, D.W. & M. Rapp (1980) Elemental cycling in forest ecosystems. In: D.E. Reichle (Ed) Dynamic Properties of Forest Ecosystems (pp. 341–409). Cambridge University Press: Malta, Biological Programme 23
Dalal, R.C. & R.J. Mayer (1986a) Long-term trends in fertility of soils under continuous cultivation and cropping in southern Queensland. II. Total organic carbon and its rate of loss from the profile. Aust J Soil Res 24: 293–300
Dalal, R.C. & R.J. Mayer (1986b) Long-term trends in fertility of soils under continuous cultivation and cropping in southern Queensland. 111. Distribution and kinetics of soil organic carbon in particle size fractions. Aust J Soil Res 24: 293–300
Dickinson, N.M. (1982) Investigations and measurement of root turnover in semi-permanent grassland. Rev Ecol Biol Sol 19: 307–314
Farmer, V.C. & D.L. Pisaniello S (1985) Against an aromatic structure for soil fulvic acid. Nature, London 313: 474–475
Foster, R.C. (1985) In situ localization of organic matter in soils. Quaestiones entomologicae 21: 609–633
Foster, R.C., A.D. Rovira & T.W. Cock (1983) Ultrastructure of the Root-soil Interface. American Phytopathological Society: St. Paul, Minnesota
Gaiffe, M., B. Duqyet, H. Tavant, Y. Tavant & S. Bruckert (1984) Stabilite biologique et comportement physique d'un complexe argilo-humique place dan differentes conditions de saturation en calcium ou en potassium. Plant and Soil 77: 271–284
Gray, T.R.G., P. Baxby, I.R. Hill & M. Goodfellow (1968) Direct observation of bacteria in soil. In: T.R.G. Gray & D. Parkinson (Eds) The Ecology of Soil Bacteria (pp. 171–197). Liverpool Univ Press: Liverpool
Grier, G.C., K.A. Vogt, M.R. Keyes & R.L. Edmonds (1981) Biomass distribution and above and below ground production in young and mature Abies amabilis zone ecosystems of the Washington Cascades. Can J For Res 11: 155–167
Griffiths, E. & R.G. Burns (1972) Interaction between phenolic substances and microbial polysaccharides in soil aggregation. Plant and Soil 36: 599–612
Haider, K. & J.P. Martin (1975) Decomposition of specifically carbon-l4 labeled benzoic acid and cinnamic acid derivates in soil. Soil Sci Soc Am J 39: 657–662
Hansson, A. & E. Steen (1984) Methods of calculating root production and nitrogen uptake in an annual crop. Swedish J agric Res 14: 191–200
Harris, W.F., R.A. Goldstein & G.S. Henderson (1973) Analysis of forest biomass pools, annual primary production and turnover of biomass for a mixed deciduous forest watershed. In: H.E. Young (Ed) IUFRO Biomass Studies: Mensuration, Growth and Yield (pp. 44–64). University of Maine Press: Orono, Maine
Hatcher, P.G., I.A. Breger, L.W. Dennis & G.E. Maciel (1983) Solid state13C-NMR of sedimentary humic substances, new revelations on their chemical composition. In: R.F. Christman & T. Gjessing (Eds) Aquatic and Terrestrial Humic Materials (pp. 37–81). Ann Arbor Science: Ann Arbor
Jackman, R.H. (1964) Accumulation of organic matter in some New Zealand soils under permanent pasture. NZ J agric Res 7: 445–471
Jenkinson, D.S. & J.N. Ladd (1981) Microbial biomass in soil: measurement and turnover. In: E.A. Paul & J.N. Ladd (Eds) Soil Biochemistry Vol 5 (pp. 415–471). Marcel Dekker Inc: New York
Jenkinson, D.S. & J.H. Rayner (1977) The turnover of soil organic matter in some of the Rothamsted classical experiments. Soil Sci 123: 298–305
Jenny, H., A.E. Salem & J.R. Wallis (1968) Interplay of soil organic matter and soil fertility with state factors and soil properties. In: Study Week on Organic Matter and Soil Fertility (pp. 5–36). Pontificae Academiae Scientiarum Scripta Varia 31. North Holland Publishing Co: Amsterdam
Jones, M.J. (1973) The organic matter content of the savanna soils of northern Nigeria. J Soil Sci 24: 42–53
Kadeba, D. (1978) Organic matter status of some savanna soils of northern Nigeria. Soil Sci 125: 122–127
Keith, H., J.M. Oades & J.K. Martin (1986) The input of carbon to soil from wheat plants. Soil Biol Biochem 18: 445–449
Keyes, M.R. & C.C. Grier (1981) Above and below ground net production in 4-year old Douglas-fir stands on low and high productivity sites. Can J For Res 11: 599–605
Kilbertus, G. (1980) Etudes des microhabitats contenus dans les agregats du sol, leur relatio avec la biomasse bacterienne et la taille des procaryotes presents. Rev Ecol Biol Sol 17: 545–557
Ladd, J.N. M. Amato & J.M. Oades (1985) Decomposition of plant material in Australian soils. III. Residual organic and microbial biomass C and N from isotope labelled plant material and organic matter decomposing under field conditions. Aust J Soil Res 23: 603–611
Ladd, J.N., J.M. Oades & M. Amato (1981) Microbial biomass formed from14C-,15N-labelled plant material decomposing in soils in the field. Soil Biol Biochem 13: 119–126
Ladd, J.N., J.W. Parsons & M. Amato (1977) Studies of nitrogen immobilization and mineralization in calcareous soils. II. Mineralization of immobilized nitrogen from soil fractions of different particle size and density. Soil Biol Biochem 9: P 319–325
Ma'shum, M., M.E. Tate, J.P. Jones & J.M. Oades (1987) Extraction and characterization of water-repellent materials from Australian soils. J Soil Sci (submitted)
Martin, J.P., H. Zunino, P. Peirano, M. Caiozzi & K. Haider (1982) Decomposition of14C-labeled lignins, model humic acid polymers, and fungal melanins in allophanic soils. Soil Biol Biochem 14: 289–293
Oades, J.M. (1984) Soil organic matter and structural stability: mechanisms and implications for management. Plant & Soil 76: 319–337
Oades, J.M. (1987) An introduction to organic matter in mineral soils. In: J.B. Dixon & S.B. Weed (Eds) Minerals in Soil Environments. Amer Soc Soil Sci (in press)
Oades, J.M. & J.N. Ladd (1977) Biochemical properties: carbon and nitrogen metabolism. In: J.S. Russell & E.L. Greacen (Eds) Soil Factors in Crop Production in a Semi-arid Environment. Univ Queenslands Press: St. Lucia, Queensland
Oades, J.M. & E. Tipping (1987) Interactions of humic substances with oxides. In: M.H.B. Hayes, R.L. Malcolm, P. MacCarthy & R.S. Swift (Eds) Humic Substances in Soil Sediment and Water: Structure, Size, Interactions and Spectroscopic Studies. Proc 2nd Conf Intern Humic Substances Soc. J. Wiley (in press)
Oades, J.M. A.M. Vassallo, A.G. Water & M.A. Wilson (1987) Characterization of organic matter in particle size and density fractions from a Red-brown earth by solid state13C N.M.R. Aust J Soil Res (in press)
O'Brien, B.J. (1984) Soil organic carbon fluxes and turnover rates estimated from radiocarbon enrichments. Soil Biol Biochem 16: 115–220
Paul, E.A. (1984) Dynamics of organic matter in soils. Plant and Soil 76: 275–285
Paul, E.A. & H. van Veen (1978) The use of tracers to determine the dynamic nature of organic matter. 11th Congress Int Soc Soil Science, Edmonton 3: 61–102
Peterson, J.B., (1947) Calcium linkage, a mechanism in soil granulation. Soil Sci Soc Am Proc 12: 29–35
Russell, E.J. (1956) Soil Conditions and Plant Growth, 8th edn. Longmans: London
Scharpenseel, H.W. (1971) Radiocarbon dating of soils—problems, troubles, hopes. In: D.H. Yaalon (Ed) Paleopedology (pp. 77–96). ISSS and Israel Univ Press: Jerusalem
Schlesinger, W.H. (1977) Carbon balance in terrestrial detritus. Ann Rev Ecol Syst 8: 51–81
Schultz, J.E. (1974) Root development of wheat at the flowering stage under different cultural practices. Agric Record Dept Agric, South Australia 1: 12–17
Sims, P.L. & R.T. Coupland (1979) Producers. Chapter 5. In: R.T. Coupland (Ed) Grassland Ecosystems of the World: Analysis of Grasslands and Their Uses (pp. 49–72). Cambridge Univ Press: Cambridge, UK
Singh, J.S. & M.C. Joshi (1979) Primary production. Chapter 17. In: R.T. Coupland (Ed) Grassland Ecosystems of the World: Analysis of Grasslands and their Uses (pp. 199–218). Cambridge Univ Press: Cambridge, UK
Singh, J.S. & P.S. Yadava (1974) Seasonal variation in composition, plant biomass, and net primary productivity of a tropical grassland at Kurukshetra, India. Ecological Monographs 44: 351–376
Soil Biochemistry, Vols 1–5. A.D. McLaren & G.H. Peterson Vol 1 (1967); A.D. McLaren & J. Skujins Vol 1 (1971); E.A. Paul & A.D. McLaren Vol 3 (1975); E.A. Paul & A.D. McLaren Vol 4 (1975); E.A. Paul & J.N. Ladd Vol 5 (1981)
Sorensen, L.H. (1975) The influence of clay on the rate of decay of amino acids metabolites synthesised in soils during decomposition of cellulose. Soil Biol Biochem 7: 171–177
Sorensen, L.H. (1981) Carbon-nitrogen relationships during the humification of cellulose in soils containing different amounts of clay. Soil Biol Biochem 13: 313–321
Spain, A.V., R.F. Isbell & M.E. Probert (1983) Soil organic matter. In: Soils, An Australian Viewpoint (pp. 551–563). CSIRO: Melbourne Academic Press: London
Stevenson, F. (1982) Humus Chemistry, Genesis, Composition, Reactions. J. Wiley: New York
Theng, B.K.G. (1976) Interactions between montmorillonite and fulvic acid. Geoderma 15: 243–251
Theng, B.K.G. (1979) Formation and properties of clay-polymer complexes. Developments in Soil Science 9 Elsevier: Amsterdam
Theng, B.K.G. (Ed)(1980) Soils with Variable Charge. NZ Soc Soil Science: Wellington
Theng. B.K.G. & H.W. Scharpenseel (1975) The adsorption of14C-labelled humic acid by montmorillonite. Proc Intern Clay Conf Mexico City (pp. 643–653)
Tiessen, H. & J.W.B. Stewart (1983) Particle size fractions and their use in studies of soil organic matter. II. Cultivation effects on organic matter composition in size fractions. Soil Sci Soc Am J 47: 509–514
Tiessen, H., J.W.B. Stewart & H.W. Hunt (1984) Concepts of soil organic matter transformations in relation to organo-mineral particle-size fractions. Plant and Soil 76: 287–295
Tisdall, J.M. & J.M. Oades (1979) Stabilization of soil aggregates by the root systems of ryegrass. Aust J Soil Res 17: 429–441
Tisdall, J.M. & J.M. Oades (1982) Organic matter and water stable aggregates in soil. J Soil Sci 33: 141–163
Turchenek, L.W. & J.M. Oades (1978) Organo-mineral particles in soils. In: W.W. Emerson, R.D. Bond & A.R. Dexter (Eds) Modification of Soil Structure (pp. 137–144). J. Wiley: Chichester
Turchenek, L.W. & J.M. Oades (1979) Fractionation of organo-mineral complexes by sedimentation and density techniques. Geoderma 21: 311–343
Van Veen, H., J.N. Ladd & M. Amato (1985) Turnover of carbon and nitrogen through the microbial biomass in a sandy loam and a clay soil incubated with [14C(U)] glucose and [15SN](NH44)2SO44 under different moisture regimes. Soil Biol Biochem 17: 747–756
Wojick, Z. (1979) Producers. Chapter 29. In: R.T. Coupland (Ed) Grassland Ecosystems of the World: Analysis of Grasslands and Their Uses (pp. 305–308). Cambridge Univ Press: Cambridge, UK
Zunino, H., F. Borie, S. Aquilera, J.P. Martin & K. Haider (1982) Decomposition of14C-labelled glucose, plant and microbial products and phenols in volcanic ash derived soils of Chile. Soil Biol Biochem 14: 37–43
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Oades, J.M. The retention of organic matter in soils. Biogeochemistry 5, 35–70 (1988). https://doi.org/10.1007/BF02180317
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DOI: https://doi.org/10.1007/BF02180317