Abstract
Three soils which had been amended for several years with pig slurry, cattle slurry, and sewage sludge were dry-sieved to obtain microaggregates in the size range of 250–125, 125–50, and <50 μm. With amendments, aggregate size distribution of whole soils was shifted to larger sizes, especially for the most fragile soil, whereas percent content of microaggregates decreased except for the lower size aggregates of the fragile soil. Particle size distribution of microaggregates revealed an increase in percent sand and a reduction of percent silt and clay in the <50 μg size fraction for all soils. These results showed the aggregation effect induced by the organic waste additions. Aggregate stability of microaggregates revealed significant correlation with humic substances content (humic acids alone and humic plus fulvic acids) and non significant with total organic matter substantiating the belief that humic substances are the predominant binding agents in this aggregation range. Molecular weight distribution of humic acids extracted from microaggregates of unamended soils demonstrated that the lower the soil aggregate size distribution, the larger the contribution of the high molecular weight fraction. All microaggregates from amended soils showed a progressive increase of the high molecular weight humic acids with decreasing size, reaching a maximum in the <50 μm fraction. In this aggregate size a parallel enhancement of the aggregate stability was also evident. It is concluded that a close relationship exists between aggregate stability and high molecular weight humic substances. Additions to soils of organic material containing high molecular weight constituents would represent a useful management practice to improve aggregate stability.
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References
Acton C J, Rennie D A and Paul E A 1963 The relationship of polysaccharides to soil aggregation. Can. J. of Soil Sci. 43, 201–209.
Brown M J and Lester J N 1979 Metal removal in activated sludge-the role of bacterial extracellular polymers. Water Res. 13, 817–837.
Chakraborty G, Banerjee S K and Gupta S K 1979 Molecular weights and total acidities of humic acids extracted from soil aggregates of different sizes. J. Indian Soc. Soil Sci. 27, 129–132.
Chakraborty G, Gupta S K and Banerjee S K 1982 Acidic functional groups of humic acids of different molecular complexity extracted from soil aggregates of varying sizes. J. Indian Soc. Soil Sci. 30, 378–380.
Chaney K and Swift R S 1984 The influence of organic matter on the stability of some British soils. J. Soil Sci. 35, 223–230.
Chaney K and Swift R S 1986 Studies on aggregate stability. I. Re-formation of soil aggregates. J. Soil Sci. 37, 331–336.
Chaney K and Swift R S 1986 Studies on aggregate stability. II. The effect of humic substances on the stability of re-formed aggregates. J. Soil Sci. 37, 337–343.
Chen Y, Senesi N and Schnitzer M 1977 Information provided on humic substances by E4/E6 ratio. Soil Sci. Soc. Am. J. 41, 352–358.
Christensen B T 1986 Straw incorporation and soil organic matter in microaggregates and particle size fractions. J. Soil Sci. 37, 125–135.
Dell'Agnola G and Ferrari G 1971 Molecular sizes and functional groups of humic substances extracted by O.1M pyrophosphate from soil aggregates of different stability. J. Soil Sci. 22, 342–349.
Dormaar J F 1983 chemical properties of soil and water-stable aggregates after sixty seven years of cropping to spring wheat. Plant and Soil 75, 51–61.
Hamblin A P 1977 Structural features of aggregates in some East Anglian soils. J. Soil Sci. 28, 23–28.
Hamblin A P and Davies D B 1977 Influence of organic matter on the physical properties of some East Anglican soils of high silt content. J. Soil Sci. 28, 11–22.
Hamblin A P and Greenland D J 1977 Effect of organic constituents and complexed metal ions on aggregate stability of some East Anglian soils. J. Soil Sci. 28, 410–416.
Edwards A P and Bremner J M 1967 Microaggregates in soil. J. Soil Sci. 18, 64–73.
Foster S M 1979 Microbial aggregation of sand in an embryo dune system. Soil Biol. Biochem. 11, 537–543.
Foster S M and Martin J K 1981 In situ analysis of soil components of biological origin. In Soil Biochemistry, Vol. 5. Eds. E APaul and J NLadd. pp 000–000. Marcel Dekker, New York, Basel.
Griffiths E and Burns R G 1972 Interaction between phenolic substances and microbial polysaccharides in soil aggregation. Plant and Soil 36, 599–612.
Kemper W D and W SChepil 1965 Size Distribution of Aggregates. In Methods of Soil Analysis, part 2. Ed. C ABlack. pp 499–510. American Society of Agronomy, Madison, WI.
Ladd J N, Oades J M and Amato M 1981 Microbial biomass formed from 14C, 15N-labelled plant material decomposing in soils in the field. Soil Biol. Biochem. 14, 407–412.
Mbagwu J S C and Piccolo A 1989 Changes in soil aggregate stability induced by amendments with humic substances. Soil Technol. 2, 49–57.
McGill W B, Paul E A, Shields J A and Lower W E 1973 Turnover of microbial populations and their metabolites in soil. Bull. Ecol. Res. Comm. (Stockholm) 17, 293–301.
McGill W B, Hunt H W, Woodmansee R G and Reuss J O 1981 Phoenix, a model of the dynamics of carbon and nitrogen in grassland soils. In Terrestrial Nitrogen Cycles. Eds. F E Clark and T Rosswall. Ecol. Bull. (Stockholm) 33, 49–115.
Martin J P and Haider K 1971 Microbial activity in relation to soil humus formation. Soil Sci. 111, 54–63.
Martin J P, Ervin J O and Shepherd R A 1965 Composition and binding action of polysaccharides from Azotobacter indicus (Beijerincka) and other bacteria in soil. Soil Sci. Soc. Am. Proc. 29, 397–400.
Mehta N C, Streuli H, Muller M and Deuel H 1960 Role of polysaccharides in soil aggregation. J. Sci. Food Agric. 11, 40–47.
Middleton H E 1930 Properties of soils which influence soil erosion. U.S. Department of Agriculture Technical Bulletin 178.
Oades J M 1984 Soil organic matter and structural stability: Mechanisms and implications for management. Plant and Soil 76, 319–337.
Pagliai M, Guidi G, LaMarca M, Giachetti M and Lucamante G 1981 Effects of sewage sludges and composts on soil porosity and aggregation. J. Environ. Qual. 10, 556–561.
Piccolo A 1988 Characteristics of soil humic extracts obtained by some organic and inorganic solvents and purified by the HCl-HF treatment. Soil Sci. 146, 418–426.
Piccolo A and Mirabella A 1987 Molecular weight distribution of peat humic substances extracted with different inorganic and organic solutions. The Sci. Total Environ. 62, 39–46.
Piccolo A and Mbagwu J S C 1989 Effects of humic substances and surfactants on the stability of soil aggregates. Soil Sci. 147, 47–54.
Spallacci P and Boschi V 1984 Long term effects of the land spreading of pig and cattle slurries on the accumulation and availability of soil nutrients. In Long-Term Effects of Sewage Sludge and Farm Slurries Applications. Eds J HWilliams, GGuidi and PL'Hermite. pp 33–44. Elsevier Applied Science Publishers, London.
Shanmuganathan R T and Oades J M 1983 Influence of anions on dispersion and physical properties of the A horizon of a red-brown earth. Geoderma 29, 257–277.
Shields J A and Paul E A 1973 Decomposition of 14C-labelled plant material in soil under field conditions. Can. J. Soil Sci. 53, 279–306.
Stevenson F J 1982 Humus Chemistry: Genesis, Composition, Reactions. John Wiley and Sons, New York, 435 p.
Swift R S and Posner A M 1971 Gel chromatography of humic acids. J. Soil Sci. 22, 237–249.
Theng B K G 1979 Interactions between montmorillonite and fulvic acid. Geoderma 15, 243–251.
Tiessen H and Stewart J W B 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.
Tisdall J M and Oades J M 1982 Organic matter and water-stable aggregates in soils. J. Soil Sci. 33, 141–163.
Watson J R 1971 Ultrasonic vibration as a method of soil dispersion. Soils and Fertilizers 34, 127–134.
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Piccolo, A., Mbagwu, J.S.C. Effects of different organic waste amendments on soil microaggregates stability and molecular sizes of humic substances. Plant Soil 123, 27–37 (1990). https://doi.org/10.1007/BF00009923
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DOI: https://doi.org/10.1007/BF00009923