Effect of long-term organic amendments on chemical and microbial properties of a luvisol

H.W. Scherer, D.J. Metker, G. Welp
2011 Plant, Soil and Environment  
We studied the long-term effect (about 45 years) of farmyard manure, sewage sludge and compost application in two increments on organic carbon (C<sub>org</sub>), the amount (C<sub>mic</sub>) and activity of the microbial biomass (soil respiration, dehydrogenase activity), total N content and N delivery of soils as compared to manuring with mineral fertilizers. The application of both increments of compost and the high sewage sludge application rate resulted in an increase in C<sub>org</sub>
more » ... e soils treated with both compost application rates and the high farmyard manure application rate showed a significant increase in C<sub>mic</sub>. C<sub>mic</sub>/C<sub>org</sub> ranged between 1.7 and 3.3. Dehydrogenase activity and soil respiration were the greatest in the soil with the highest compost and farmyard manure application rates. Total soil N content was significantly higher in both compost treatments and in the treatment with the high sewage sludge application rate. This was accompanied by the highest N uptake of ryegrass. &nbsp;
doi:10.17221/3283-pse fatcat:rbga3iq2kffixghhpok4drsxdy