Influence of microbial populations and residue quality on aggregate stability

[1]  K. Paustian,et al.  Soil structure and organic matter: I. Distribution of aggregate-size classes and aggregate-associated carbon. , 2000 .

[2]  K. Paustian,et al.  Bacterial and fungal abundance and biomass in conventional and no-tillage agroecosystems along two climatic gradients , 1999 .

[3]  T. Parkin,et al.  Reduced CO2 release from decomposing wheat straw under N‐limiting conditions: simulation of carbon turnover , 1998 .

[4]  D. Coleman,et al.  Influences of mycelial fungi on soil aggregation and organic matter storage in conventional and no-tillage soils , 1997 .

[5]  P. Nannipieri,et al.  Methods in Applied Soil Microbiology and Biochemistry , 1996 .

[6]  R. Horton,et al.  Nitrogen effects on conservation of carbon during corn residue decomposition in soil , 1995 .

[7]  A. Roldán,et al.  AN INCUBATION EXPERIMENT TO DETERMINE FACTORS INVOLVING AGGREGATION CHANGES IN AN ARID SOIL RECEIVING URBAN REFUSE , 1994 .

[8]  T. Anderson,et al.  Changes in composition of soil polysaccharides and aggregate stability after carbon amendments to different textured soils , 1994 .

[9]  E. T. Elliott,et al.  Carbon and Nitrogen Distribution in Aggregates from Cultivated and Native Grassland Soils , 1993 .

[10]  J. Oades The role of biology in the formation, stabilization and degradation of soil structure , 1993 .

[11]  C. Chenu,et al.  The role of roots, fungi and bacteria on clay particle organization. An experimental approach , 1993 .

[12]  D. Coleman,et al.  Microbial and Faunal Interactions and Effects on Litter Nitrogen and Decomposition in Agroecosystems , 1992 .

[13]  Anthony R. Dexter,et al.  Advances in characterization of soil structure , 1988 .

[14]  R. M. Hodges,et al.  The Role of Microorganisms in a Sustainable Agriculture , 1988 .

[15]  E. R. Page,et al.  Contributions by fungi and bacteria to aggregate stability of cultivated soils , 1987 .

[16]  E. T. Elliott Aggregate structure and carbon, nitrogen, and phosphorus in native and cultivated soils , 1986 .

[17]  E. Ingham Review of the effects of 12 selected biocides on target and non-target soil organisms , 1985 .

[18]  B. Lundgren,et al.  Decrease in soil microbial activity and biomasses owing to nitrogen amendments , 1983 .

[19]  A. Dexter,et al.  Changes in soil aggregate water stability induced by wetting and drying cycles in non-saturated soil , 1982 .

[20]  J. Tisdall,et al.  Organic matter and water‐stable aggregates in soils , 1982 .

[21]  Anthony William Aldridge Brown,et al.  Ecology of pesticides , 1979 .

[22]  J. Zeikus,et al.  Ligninolytic enzyme system of Phanaerochaete chrysosporium: synthesized in the absence of lignin in response to nitrogen starvation , 1978, Journal of bacteriology.

[23]  A. J. Low,et al.  Micro-structural differences between arable and old grassland soils as shown in the scanning electron microscope , 1974 .

[24]  R. F. Harris,et al.  AGGREGATE STABILIZATION BY FILAMENTOUS MICROORGANISMS , 1971 .

[25]  B. Singh,et al.  Ionic Effect of Salts on Mineral Nitrogen Release in an Allophanic Soil1 , 1971 .

[26]  F. Broadbent Effect of Fertilizer Nitrogen on the Release of Soil Nitrogen 1 , 1965 .

[27]  E. Paul,et al.  THE INFLUENCE OF NITROGEN ON THE DECOMPOSITION OF CROP RESIDUES IN THE SOIL , 1962 .

[28]  J. Quirk EFFECT OF INITIAL WATER CONTENT ON STABILITY OF SOIL AGGREGATES IN WATER , 1957 .

[29]  H. Tukey On the persistence of 2,4-D in plant tissue. , 1950, Science.

[30]  J. Tisdall,et al.  Aggregation of soil by fungal hyphae , 1997 .

[31]  D. Coleman,et al.  Reduction of microbial and faunal groups following application of streptomycin and captan in Georgia no-tillage agroecosystems , 1991 .

[32]  Ag Waters,et al.  Aggregate hierarchy in soils , 1991 .

[33]  B. D. Kay,et al.  Rates of Change of Soil Structure Under Different Cropping Systems , 1990 .

[34]  Keith L. Bristow,et al.  Predicting Rates of Wheat Residue Decomposition , 1989 .

[35]  C. Chenu Influence of a fungal polysaccharide, scleroglucan, on clay microstructures , 1989 .

[36]  E. R. Page,et al.  The Contributions of Fungi, Bacteria and Physical Processes in the Development of Aggregate Stability of a Cultivated Soil , 1986 .

[37]  R. Burns,et al.  The Microbiology of Soil Structure , 1986 .

[38]  J. Lynch,et al.  Microorganisms and Soil Aggregate Stability , 1985 .

[39]  G. S. Campbell,et al.  Role of available carbon and nitrogen in determining the rate of wheat straw decomposition , 1984 .

[40]  Sokal Rr,et al.  Biometry: the principles and practice of statistics in biological research 2nd edition. , 1981 .

[41]  D. Wolf,et al.  Effect of sodium chloride on CO2 evolution, ammonification, and nitrification in a Sassafras sandy loam , 1980 .

[42]  H. Nōmmik Mineralization of Carbon and Nitrogen in Forest Humus as Influenced by Additions of Phosphate and Lime , 1978 .