Abstract
Aims
Applying manure to row-crop systems can reduce inorganic fertilizer dependence and enhance soil biology and crop yields. However, it remains unclear whether low manure application rates or semi-annual application rates can provide these benefits. Our objective was to evaluate the effects of variable rates and timing of manure application on soil microbial processes and crop performance in a potato-corn cropping system.
Methods
We tested the effects of five manure application rates of 0.0 (Ctrl), 1.54 (T1), 3.08 (T2), 6.16 (T3), and 12.32 (T4) Mg C ha−1 on potato productivity, severity of common scab, and soil biological processes.
Results
The highest rates of manure application consistently increased crop yields but even the lowest rate (1.54 Mg C ha−1) increased potato and corn yields. The severity of common scab incidence on daughter tubers was reduced by treatments T2, T3, and T4 in year one but was unaffected by any treatment in year two. Yield increases and reduced common scab severity were related to increased activities of C- and N-acquiring enzymes and microbial biomass C and N.
Conclusions
Manure application rates of <2 Mg C ha−1 can provide crop and soil benefits that appear to increase with multiple applications, while higher application rates provide stronger and more consistent effects on yields, and especially soil biological properties related to nutrient cycling and organic matter dynamics.
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Acknowledgments
We appreciate the support for this work provided by the Michigan Agricultural Experiment Station and the Vietnamese Agricultural Technology Project, ADB. Herbruck's Poultry Ranch supplied the manure used in this study.
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Responsible Editor: Hans Lambers.
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Ninh, H.T., Grandy, A.S., Wickings, K. et al. Organic amendment effects on potato productivity and quality are related to soil microbial activity. Plant Soil 386, 223–236 (2015). https://doi.org/10.1007/s11104-014-2223-5
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DOI: https://doi.org/10.1007/s11104-014-2223-5