The retention of organic matter in soils (original) (raw)
- 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
Google Scholar - Anderson, D.W. & E.A. Paul (1984) Organo-mineral coplexes and their study by radiocarbon dating. Soil Sci Soc Am J 48: 298–301
Google Scholar - 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
Google Scholar - 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
Google Scholar - 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
Google Scholar - 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
Google Scholar - 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
Google Scholar - 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
Google Scholar - Dickinson, N.M. (1982) Investigations and measurement of root turnover in semi-permanent grassland. Rev Ecol Biol Sol 19: 307–314
Google Scholar - Farmer, V.C. & D.L. Pisaniello S (1985) Against an aromatic structure for soil fulvic acid. Nature, London 313: 474–475
Google Scholar - Foster, R.C. (1985) In situ localization of organic matter in soils. Quaestiones entomologicae 21: 609–633
Google Scholar - Foster, R.C., A.D. Rovira & T.W. Cock (1983) Ultrastructure of the Root-soil Interface. American Phytopathological Society: St. Paul, Minnesota
Google Scholar - 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
Google Scholar - 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
Google Scholar - 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
Google Scholar - Griffiths, E. & R.G. Burns (1972) Interaction between phenolic substances and microbial polysaccharides in soil aggregation. Plant and Soil 36: 599–612
Google Scholar - 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
Google Scholar - Hansson, A. & E. Steen (1984) Methods of calculating root production and nitrogen uptake in an annual crop. Swedish J agric Res 14: 191–200
Google Scholar - 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
Google Scholar - 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
Google Scholar - Jackman, R.H. (1964) Accumulation of organic matter in some New Zealand soils under permanent pasture. NZ J agric Res 7: 445–471
Google Scholar - 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
Google Scholar - 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
Google Scholar - Jones, M.J. (1973) The organic matter content of the savanna soils of northern Nigeria. J Soil Sci 24: 42–53
Google Scholar - Kadeba, D. (1978) Organic matter status of some savanna soils of northern Nigeria. Soil Sci 125: 122–127
Google Scholar - Keith, H., J.M. Oades & J.K. Martin (1986) The input of carbon to soil from wheat plants. Soil Biol Biochem 18: 445–449
Google Scholar - 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
Google Scholar - 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
Google Scholar - 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
Google Scholar - 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
Google Scholar - 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
Google Scholar - 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
Google Scholar - Oades, J.M. (1984) Soil organic matter and structural stability: mechanisms and implications for management. Plant & Soil 76: 319–337
Google Scholar - 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
Google Scholar - 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
Google Scholar - Paul, E.A. (1984) Dynamics of organic matter in soils. Plant and Soil 76: 275–285
Google Scholar - 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
Google Scholar - Peterson, J.B., (1947) Calcium linkage, a mechanism in soil granulation. Soil Sci Soc Am Proc 12: 29–35
Google Scholar - Russell, E.J. (1956) Soil Conditions and Plant Growth, 8th edn. Longmans: London
Google Scholar - 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
Google Scholar - Schlesinger, W.H. (1977) Carbon balance in terrestrial detritus. Ann Rev Ecol Syst 8: 51–81
Google Scholar - 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
Google Scholar - 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
Google Scholar - 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
Google Scholar - 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
Google Scholar - 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
Google Scholar - 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
Google Scholar - 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
Google Scholar - Stevenson, F. (1982) Humus Chemistry, Genesis, Composition, Reactions. J. Wiley: New York
Google Scholar - Theng, B.K.G. (1976) Interactions between montmorillonite and fulvic acid. Geoderma 15: 243–251
Google Scholar - Theng, B.K.G. (1979) Formation and properties of clay-polymer complexes. Developments in Soil Science 9 Elsevier: Amsterdam
Google Scholar - 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
Google Scholar - 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
Google Scholar - Tisdall, J.M. & J.M. Oades (1979) Stabilization of soil aggregates by the root systems of ryegrass. Aust J Soil Res 17: 429–441
Google Scholar - Tisdall, J.M. & J.M. Oades (1982) Organic matter and water stable aggregates in soil. J Soil Sci 33: 141–163
Google Scholar - 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
Google Scholar - Turchenek, L.W. & J.M. Oades (1979) Fractionation of organo-mineral complexes by sedimentation and density techniques. Geoderma 21: 311–343
Google Scholar - 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
Google Scholar - 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
Google Scholar - 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
Google Scholar