确定有机物矿化过程的方法论方面↔农田综合

IF 0.4 Q4 AGRICULTURE, MULTIDISCIPLINARY Agricultural Science and Practice Pub Date : 2019-05-14 DOI:10.15407/AGRISP6.01.003
V. Volkohon, O. Pyrig, K. Volkohon, S. Dimova
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引用次数: 5

摘要

的目标。测定不同作物施肥制度下土壤氮、氧、一氧化碳排放的特点。方法。现场实验,气相色谱法。结果。马铃薯、春大麦、豌豆和冬小麦轮作淋溶黑钙土的永久田间试验数据表明,绝对氮(N[2])和特定氮(相对碳损失СО[2])的损失与作物施肥制度有关。以牛粪或羽扇豆(绿肥)形式引入土壤的原始有机物质导致CO bb0排放水平增加。然而,氮的特定损失以N-[2]的形式(g N-N[2]o /kg c - co[2])保持在控制水平。施用矿质肥料(在没有有机原料的情况下)引发了N[2]的排放和更强烈的CO[2]的产生(在最高剂量的矿质肥料(N[120]P[120]K[120] kg/ha活性成分)的变异中高达67%),这可能是由腐殖质化合物的矿化引起的。在有机无机施肥系统中,氮氧化物的比损失没有超过控制和休耕。在此基础上,作者提出了测定农业土壤有机质“矿化-合成”指数的方法,以估计作物不同生长条件下生物过程的走向。结论。系统施用矿质肥料而不引入有机原料会导致土壤中矿化和合成过程的失衡。在这种条件下,有机质的矿化作用占优势。有机肥和有机无机肥的使用平衡了土壤中的这些过程。所提出的测定矿化-合成指数的方法是基于g N-N[2]O/kg C-СО[2]与参考值的排放比,可以客观地观察土壤中矿化(负比值值)和合成(正比值值)过程的趋势。它为农作物施肥或引进某些农艺技术的决策原则提供了依据。
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Methodological aspects of determining the processes of organic matter mineralization↔synthesis in croplands
Aim. To determine the peculiarities of N[2]O and CO[2] soil emissions under different systems of crop fertilization. Methods. Field experiment, gas chromatography. Results. The data obtained during the permanent fi eld experiment on leached chernozem with crop rotation including potatoes, spring barley, peas and winter wheat have shown that both absolute (N[2]O) and specifi c (relative to carbon losses in the form of СО[2] ) losses of nitrogen depend on crop fertilization system. The introduction of raw organic material to the soil in the form of cattle manure or lupine (green manure) has led to the increased CO[2] emission levels. However, specifi c nitrogen losses in the form of N[2]O (g N-N[2]O/kg C-CO[2] ) have remained at the control level. The application of mineral fertilizers (under the absence of raw organic material) have triggered N[2]O emissions and more intense production of CO[2] (up to 67 % in the variant with the highest dose of mineral fertilizers (N[120]P[120]K[120] kg/ha of active ingredient), which can be caused by the mineralization of humus compounds. In organo-mineral fertilization system the specifi c losses of nitrous oxide have not exceeded the control and fallow. Based on the obtained results the authors propose the method of determining the “mineralization-synthesis” indices of organic matter in agricultural soils for estimation of the orientation of biological processes under different crop growing conditions. Conclusions. Systemic application of mineral fertilizers without introduction of raw organic material leads to the misbalance of mineralization and synthesis processes in soils. Under such conditions the mineralization of organic matter is prevailing. The use of organic and organo-mineral fertilizers has balanced these processes in the soil. The proposed methodological approach for determination of mineralization-synthesis indices is based on the emission ratio of g N-N[2]O/kg C-СО[2] compared to the reference values and can provide an objective view of the tendency of mineralization (negative ratio values) and synthesis (positive ratio values) processes in the soils. It provides grounds to the decision-making principles of agricultural crops fertilization or introduction of certain agronomic techniques.
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来源期刊
Agricultural Science and Practice
Agricultural Science and Practice AGRICULTURE, MULTIDISCIPLINARY-
自引率
25.00%
发文量
6
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