Abstract
Straw and animal manure are major organic waste materials from agricultural ecosystems. Different kinds of animal manure combined with straw (AM-S) may have varying effects on the decomposition, nutrient release, and structural changes of maize straw. Using the Humic Cambisols soil as the experimental area, the straw decomposition characteristics under the co-application of animal manure were studied following the nylon net bag landfill method. The experiment involved four treatments: maize straw only (S), maize straw plus ox manure (SO), maize straw plus chicken manure (SC), and maize straw plus pig manure (SP). The treatments with AM-S accelerated the decomposition of straw and increased the release rate of nutrients and organic components (cellulose, hemicellulose, and lignin). During the 240 days of the study, straw decomposition showed a trend of increasing rapidly in the first stages and then increasing slowly in the latter stages in all the treatments. At 240 d, the straw decomposition rates and carbon release rates of the AM-S treatments were 65.25–71.87% and 64.04–69.35%, respectively. At the end of the experiment, the order for the final release rates of nitrogen (N), phosphorus (P), and potassium (K) was K (93.25–96.56%) > P (42.25–55.08%) > N (40.01–52.23%). Moreover, scanning electron microscopy showed that SP treatment had the highest degree of structural changes of the maize straw compared with the other treatments. The purpose of this study was to screen the effective animal manure that can promote straw decomposition and provide a reference for the rational use of straw and animal manure management. In conclusion, the study suggested that the co-application of animal manure and straw should be adopted in agricultural systems, especially SP treatment, as it was more conducive to promoting the decomposition of maize straw and the release of nutrients.
Highlights
Straw and animal manure contain macro- and micronutrient elements necessary for plant growth; returning them to the field is an important fertilization practice in agricultural systems [1,2,3]
The fastest straw decomposition was recorded for 0–30 days, and the decomposition rates of straw plus pig manure (SP), straw plus chicken manure (SC), and straw plus ox manure (SO) were 41.32%, 38.81%, and 35.11%, respectively, which were 32.73%, 24.67%, and 12.79%, respectively, higher than the S treatment
The main reason is that during the process of straw decomposition, the rice straw amendment cannot reconcile the requirements of nutrients between rice and soil microorganisms
Summary
Straw and animal manure contain macro- and micronutrient elements necessary for plant growth; returning them to the field is an important fertilization practice in agricultural systems [1,2,3]. Crop residues such as maize straw have a wide carbon to nitrogen (C/N) ratio and high cellulose content [4], often resulting in low nitrogen mineralization due to nitrogen immobilization in the soil.
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