Biological Processes and Soil Fertility

Section 1: Cycling of nitrogen in soil-plant systems.- 1.1 Cycling of nitrogen in modern agricultural systems.- 1.2 Nitrogen relationships in intensively managed temperate grasslands.- 1.3 Components of the nitrogen cycle measured for cropped and grassland soil-plant systems.- 1.4 The uptake of soil and fertilizer-nitrogen by barley growing under Scottish climatic conditions.- 1.5 Leaching losses of nitrogen from a clay soil under grass and cereal crops in Finland.- 1.6 Tillage effects on nitrogen uptake by maize from fine textured soils in the northwestern Corn Belt, USA.- Section 2: Microbial and animal effects on soil fertility.- 2.1 The role of microorganisms in mediating and facilitating the uptake of plant nutrients from soil.- 2.2 Earthworms and soil fertility.- 2.3 Effect of lime, phosphorus and mycorrhizal fungi on growth, nodulation and nitrogen fixation by white clover (Trifolium repens) grown in UK hill soils.- 2.4 Effect of liming on spore germination, germ tube growth and root colonization by vesicular-arbuscular mycorrhizal fungi.- Section 3: Measurements of microbial populations and biomass: their roles in soil processes.- 3.1 Biological and biochemical analysis of soils.- 3.2 Extractable N and P in relation to microbial biomass in UK acid organic soils.- 3.3 Mineralization dynamics in fallow dryland wheat plots, Colorado.- 3.4 Dynamics of soil microbial biomass N under zero and shallow tillage for spring wheat, using 15N urea.- 3.5 Mineralization of C and N from microbial biomass in paddy soil.- 3.6 Influence of plant roots on C and P metabolism in soil.- 3.7 Response of soil microflora to moorland reclamation for improved agriculture.- Section 4: Anaerobic processes in soils and gaseous losses of nitrogen.- 4.1 Anaerobic processes in soil.- 4.2 Denitrification in field soils.- 4.3 Total denitrification and the ratio between N2O, and N2 during the growth of spring barley.- 4.4 Nitrite: a key compound in N loss processes under acid conditions?.- Section 5: Dynamics and models of organic carbon, nitrogen and phosphorus transformations in cultivated soils.- 5.1 The biological transformation of P in soil.- 5.2 Modelling C and N turnover through the microbial biomass in soil.- 5.3 Dynamics of organic matter in soils.- 5.4 Concepts of soil organic matter transformations in relation to organo-mineral particle size fractions.- 5.5 A simple method for calculating decomposition and accumulation of ‘young’ soil organic matter.- Section 6: Interaction effects of organisms, organic matter and management on soil structure.- 6.1 Interactions between biological processes, cultivation and soil structure.- 6.2 Soil organic matter and structural stability: mechanisms and implications for management.- 6.3 Influence of soil type, crop and air drying on residual carbohydrate content and aggregate stability after treatment with periodate and tetraborate.- 6.4 Changes in soil structure and biological activity on some meadow hay plots at Cockle Park, Northumberland.- 6.5 The effects on topsoil of long-term storage in stockpiles.- Section 7: Effects of noxious materials on biological processes in soils.- 7.1. Effects of pesticides and heavy metals on biological processes in soil.- 7.2 Microbial populations in trifluralin-treated soil.- 7.3 Chemical disinfestation and metabolic integrity of soil.- Index of key words.