多年生豆科牧草后冬小麦栽培技术的生态、经济和生物能源评价

О. Tkachuk
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To investigate the indicators of ecological, economic and bioenergy efficiency of winter wheat cultivation after six species of perennial legume grasses as predecessors, such as meadow clover, alfalfa, sand esparcet, white sweet clover, bird's-foot-trefoil, eastern galega, and also after the maize for silage (control). Methods. Field studies with subsequent calculation of economic efficiency of winter wheat cultivation based on technological charts and costs, as well as the energy efficiency of the technologies under study according to the methods of O.K. Medvedovskyi, P.I. Ivanenko and VASKHNIL were conducted. Results. The highest grain yield was 6.52 t/ha when winter wheat was cultivated after maize for silage with high rates of mineral fertilizers and pesticides. When winter wheat was cultivated after perennial legume grasses, the rates of mineral fertilizers and pesticides were significantly lower. Accordingly, the grain yield of winter wheat grown after perennial legume grasses was by 11.1–38.2 % lower than after silage maize, and it was 4.03–5.80 t/ha. The highest grain yield was observed after meadow clover, and the lowest – after bird's-foot-trefoil. The highest level of profitability (90.7 %) is provided by the cultivation of winter wheat after the predecessor meadow clover. When winter wheat was grown after such predecessors as meadow clover, white sweet clover, sand esparcet and eastern galega with limited rates of pesticides and mineral fertilizers, the level of profitability was 5.7–46.8 % higher than indicator for winter wheat after silage maize with high rates of mineral fertilizers and pesticides At the same time, winter wheat profitability after bird's-foot-trefoil and alfalfa equaled to the indicator for silage maize. Conclusions. 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Field studies with subsequent calculation of economic efficiency of winter wheat cultivation based on technological charts and costs, as well as the energy efficiency of the technologies under study according to the methods of O.K. Medvedovskyi, P.I. Ivanenko and VASKHNIL were conducted. Results. The highest grain yield was 6.52 t/ha when winter wheat was cultivated after maize for silage with high rates of mineral fertilizers and pesticides. When winter wheat was cultivated after perennial legume grasses, the rates of mineral fertilizers and pesticides were significantly lower. Accordingly, the grain yield of winter wheat grown after perennial legume grasses was by 11.1–38.2 % lower than after silage maize, and it was 4.03–5.80 t/ha. The highest grain yield was observed after meadow clover, and the lowest – after bird's-foot-trefoil. The highest level of profitability (90.7 %) is provided by the cultivation of winter wheat after the predecessor meadow clover. 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引用次数: 0

摘要

时事性。经济危机对现代冬小麦栽培技术提出了以经济可行、节能环保为原则的要求。问题。畜牧业的变化导致了饲料作物的分化,这些作物被用作冬小麦的前身。现在,其他类型的多年生豆科草与它的传统前身草甸三叶草一起生长。然而,作为冬小麦的前身,非传统多年生豆科牧草在生态、经济和生物能源方面的可行性研究尚缺乏结果,需要进行研究和计算。的目标。探讨以草甸三叶草、紫花苜蓿、沙雀花、白甜三叶草、鸟脚三叶草、东方galega等6种多年生豆科牧草为前期和以玉米青贮(对照)后冬小麦栽培的生态、经济和生物能源效率指标。方法。在田间进行了研究,并根据技术图表和成本计算了冬小麦栽培的经济效益,以及根据O.K. Medvedovskyi、P.I. Ivanenko和VASKHNIL的方法计算了所研究技术的能源效率。结果。玉米后青贮栽培冬小麦,矿肥和农药用量高,籽粒产量最高,为6.52 t/ hm2。在多年生豆科牧草后种植冬小麦时,矿质肥料和农药用量显著降低。因此,多年生豆科牧草后的冬小麦产量比青贮玉米后低11.1 - 38.2%,为4.03-5.80 t/ha。草甸三叶草后产量最高,鸟脚三叶草后产量最低。在前代草甸三叶草之后种植冬小麦可提供最高的盈利水平(90.7%)。在农药和矿质肥料用量有限的情况下,在草甸三叶草、白甜三叶草、沙雀花和东方豆菜等前代作物之后种植冬小麦,其盈利水平比矿质肥料和农药用量较高的青贮玉米之后种植冬小麦的指标高出5.7 ~ 46.8%,同时,在鸟脚三叶草和苜蓿之后种植冬小麦的盈利水平与青贮玉米的指标相当。结论。草甸三叶草后冬小麦栽培技术效益最佳,能耗最小,能量系数最高,为4.96。关键词:经济评价,生物能源评价,栽培技术,冬小麦,前人。
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Ecological, economic and bioenergy assessment of technologies for winter wheat cultivation after the perennial legume grasses
Topicality. The economic crisis requires modern winter wheat cultivation technologies based on the principles of financial feasibility, energy saving and environmental safety. Issues. Changes in animal husbandry have led to the differentiation of fodder crops, which are used as predecessors of winter wheat. Now, other types of perennial legume grasses are grown along with its traditional predecessor meadow clover. However, it is necessary to carry out research and calculations due to the lack of results of the ecological, economic and bioenergy feasibility of non-traditional perennial legume grasses as predecessors of winter wheat. Aim. To investigate the indicators of ecological, economic and bioenergy efficiency of winter wheat cultivation after six species of perennial legume grasses as predecessors, such as meadow clover, alfalfa, sand esparcet, white sweet clover, bird's-foot-trefoil, eastern galega, and also after the maize for silage (control). Methods. Field studies with subsequent calculation of economic efficiency of winter wheat cultivation based on technological charts and costs, as well as the energy efficiency of the technologies under study according to the methods of O.K. Medvedovskyi, P.I. Ivanenko and VASKHNIL were conducted. Results. The highest grain yield was 6.52 t/ha when winter wheat was cultivated after maize for silage with high rates of mineral fertilizers and pesticides. When winter wheat was cultivated after perennial legume grasses, the rates of mineral fertilizers and pesticides were significantly lower. Accordingly, the grain yield of winter wheat grown after perennial legume grasses was by 11.1–38.2 % lower than after silage maize, and it was 4.03–5.80 t/ha. The highest grain yield was observed after meadow clover, and the lowest – after bird's-foot-trefoil. The highest level of profitability (90.7 %) is provided by the cultivation of winter wheat after the predecessor meadow clover. When winter wheat was grown after such predecessors as meadow clover, white sweet clover, sand esparcet and eastern galega with limited rates of pesticides and mineral fertilizers, the level of profitability was 5.7–46.8 % higher than indicator for winter wheat after silage maize with high rates of mineral fertilizers and pesticides At the same time, winter wheat profitability after bird's-foot-trefoil and alfalfa equaled to the indicator for silage maize. Conclusions. The technology of winter wheat cultivation after meadow clover, which provided the highest energy coefficient 4.96, is the most profitable and the least energy-intensive. Key words: economic assessment, bioenergy assessment, cultivation technology, winter wheat, predecessors.
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