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Soil Organic Matter Degradation in Long-Term Maize Cultivation and Insufficient Organic Fertilization

J. Balík, Martin Kulhánek, J. Černý, Ondřej Sedlář, Pavel Suran

2020Plants20 citationsDOIOpen Access PDF

Abstract

Soil organic matter carbon (CSOM) compounds degradation was observed in long-term field experiments with silage maize monoculture. Over a period of 26 years, the content of carbon in topsoil decreased by 22% in control unfertilized plots compared to 25% and 26% in treatments fertilized annually with mineral nitrogen. With annual wheat straw application (together with mineral N), the content of CSOM decreased by 8%. Contrary to that, the annual application of farmyard manure resulted in a CSOM increase of 16%. The ratio of carbon produced by maize related to total topsoil CSOM content ranged between 8.1–11.8%. In plots with mineral N fertilization, this ratio was always higher than in the unfertilized control plots. With the weaker soil extraction agent (CaCl2), the ratio of carbon produced by maize was determined to be 17.9–20.7%. With stronger extraction agent (pyrophosphate) it was only 10.2–14.6%. This shows that maize produced mostly unstable carbon compounds. Mineral N application resulted in stronger mineralization of original and stable organic matter compared to the unfertilized control. However, the increase of maize-produced carbon content in fertilized plots did not compensate for the decrease of “old” organic matter. As a result, a tendency to decrease total CSOM content in plots with mineral N applied was observed.

Topics & Concepts

Human fertilizationTerm (time)Degradation (telecommunications)Organic matterAgronomyEnvironmental scienceSoil organic matterSoil retrogression and degradationOrganic farmingSoil waterBiologySoil scienceAgricultureEcologyEngineeringPhysicsQuantum mechanicsTelecommunicationsCrop Yield and Soil FertilitySoil Carbon and Nitrogen Dynamics
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