生物杀灭剂对大豆栽培技术中水稻残茬分解效果的研究

V. Dudchenko, O. Markovska, O. Sydiakina
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引用次数: 1

摘要

为充分发挥大豆的生产潜力,提出了水稻轮作中利用生物制剂清除收获后残留的有效方法。该研究于2016-2018年在美国科学院水稻研究所进行。在秋季,采用Biocomplex-BTU ecowestern生物降解剂(1l/ha)联合尿素(30 kg/ha)处理收获后水稻残茬。在秋季施用尿素(30公斤/公顷)的变异为对照。bio复合物- btu ecowestern生物灭菌剂(1 l/ha)与car-bamide联合施用,土壤中病原菌和腐养真菌总数从65.5万沙/g增加到80.5万沙/g,增幅为22.9%。结果表明,菌株致病性菌群含量比对照(尿素用量为30 kg/ha)降低了21.8%,腐生菌数量增加了3.3倍。当ecowestern生物灭菌剂与尿素联合施用时,拮抗真菌数量增加了一倍,而毒素形成真菌数量减少了9.4%。与对照(尿素- 30公斤/公顷)相比,施用ecwestern生物杀虫剂和尿素联合施用的大豆产量提高了0.6吨/公顷,或17.9%。此外,该变异品种大豆播种时土壤中收获后水稻残茬含量比对照降低了1.25 g/kg,降低了20.3%,为种子萌发创造了有利条件。结果表明,由于植株密度和单株豆数的增加,产量有所增加。在收获前,由于种子的高田间发芽率,研究变异的大豆植株密度为45株/m2,比对照(41株/m2)高出9.7%。豆子数分别为24和28个/株,比对照高出16.7%;千粒重分别为156.2和157.5 g,比对照提高了0.8%。关键词:收获后剩余物,微生物,肥料,土壤,水稻,大豆,粮食产量,千粒重
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Effectiveness of the biodestructor action on the decomposition of rice residues in soybean cultivation technology
For the implementation of productive potential of soybeans, it was presented an effective method of post-harvest residue destruction with the biologics in rice crop rotation. The research was conducted at the Institute of Rice of NAAS during 2016–2018. In autumn, post-harvest rice residues were treated with the Biocomplex-BTU Ecostern biodestructor (1l/ha) in combination with carbamide (concentrated amide water-soluble fertilizer) (30 kg/ha). The variant with the carbamide application (30 kg/ha) in autumn was a control. The application of the Biocomplex-BTU Ecostern biodestructor (1 l/ha) in combination with car-bamide increased the total number of pathogenic and saprotrophic fungi in the soil from 65.5 to 80.5 thou-sand/g of soil, or 22.9 %. Thus, the pathogenic microflora content in the studied variant was lower than in the control (carbamide application at rate of 30 kg/ha) by 21.8 %, and the number of saprotrophs increased 3.3 times. When Ecostern biodestructor and carbamide were combined for application, the number of antagonistic fungi doubled, while the number of toxin-forming fungi reduced by 9.4 %. Soybean yield at the combined application of Ecostern biodestructor and carbamide increased by 0.6 t/ha, or 17.9 % compared to the control (carbamide – 30 kg/ha). In addition, in this variant, the content of post-harvest rice residues in the soil at the soybean sowing was lower by 1.25 g/kg of soil, or 20.3 % compared to the control, which created favorable conditions for seed germination. It was observed that the yield increased due to the higher plant density and the number of beans per plant. Before harvesting, the soybean plant density due to the high field germination of seeds in the studied variant was 45 pcs/m2, which is 9.7 % more than the control (41 pcs/m2). The number of beans was 24 and 28 pcs/plant, and exceeded the control by 16.7 %; the thousand grain weight was 156.2 and 157.5 g which is more than the control by 0.8 %. Key words: post-harvest residues, microorganisms, fertilizers, soil, rice, soybeans, grain yield, thou-sand grains weight.
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