短期饲料作物轮作中非传统作物后冬小麦产量的变化

О. Tkachuk
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摘要

时事性。冬小麦是乌克兰主要的粮食和粮食作物,在种植时往往不考虑对其前身的要求。该作物被广泛应用于短期轮作中,在非传统的前代作物之后,在获得高而稳定的冬小麦产量方面出现了一些问题。目的。确定冬小麦产量在专门饲料短期作物轮作后,非传统的前辈小农场。方法。2018-2021年,在Vinnytsia地区对腐殖质含量为4.2%的浸出中壤土黑钙土进行了田间试验。冬小麦是继饲料用甜菜、南瓜和土豆之后播种的。结果。从收获马铃薯到播种冬小麦的最长周期为49 d。收获南瓜后,还需要16天才能播种冬小麦。从收获饲料甜菜到播种冬小麦的最短周期为6 d。马铃薯处理后冬小麦的植株密度比南瓜处理后高12.0%,比饲料甜菜处理后高17.7%。在春季再生期,冬小麦植株密度最高,仅次于马铃薯,比南瓜高11.9%,比食用甜菜高18.4%。在生长季结束时,冬小麦植株的高产茎数最高,仅次于马铃薯(773根/平方米),其次是饲料甜菜(低7.8%),其次是南瓜(低42.2%)。结论。马铃薯后栽培冬小麦实际产量最高,达7.63 t/ hm2。饲料用甜菜后,冬小麦产量比马铃薯后低11.3%,为6.77 t/公顷。南瓜处理后冬小麦产量比马铃薯处理后低40.6%,比饲料用甜菜处理后低33.1%。关键词:冬小麦,产量,前辈,饲料甜菜,南瓜,土豆
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Yield of winter wheat after non-traditional predecessors in short-term forage crop rotations
Topicality. Winter wheat is the leading grain and food crop in Ukraine, which is often grown without considering requirements for its predecessors. This crop is widely used in short-term crop rotations, in which there are a number of problems arise in obtaining a high and stable winter wheat yield after non-traditional predecessors. Purpose. To determine the winter wheat yield in specialised fodder short-term crop rotation after the non-traditional predecessors for small farms. Methods. In 2018–2021, field trials were conducted in the Vinnytsia region on leached medium loam chernozems with a humus content of 4.2 %. Winter wheat was sown after three predecessors: fodder beet, pumpkin and potato. Results. The longest period from harvesting potato to sowing winter wheat was 49 days. After harvesting the pumpkin, 16 days remained before sowing winter wheat. The shortest period from harvesting fodder beet to sowing winter wheat was 6 days. The plant density of winter wheat after the potato was by 12.0 % higher than after the pumpkin and by 17.7 % higher than after the fodder beet. During the spring regrowth, the highest plant density of winter wheat was observed after the potato, which was 11.9 % more than after the pumpkin and 18.4 % more than after the fod-der beet. At the end of the growing season, the highest number of productive stems was formed by winter wheat plants after the potato –773 pcs/m2, after fodder beet – by 7.8 % less productive stems, and after the pumpkin – by 42.2 % less than after potato. Conclusions. The highest actual grain yield of winter wheat grown after potato amounted to 7.63 t/ha. After fodder beet, the winter wheat yield was 11.3 % lower than after potato and amounted to 6.77 t/ha. The winter wheat yield after the pumpkin was 40.6 % lower than after potato and 33.1 % lower than after fodder beet. Key words: winter wheat, yield, predecessors, fodder beets, pumpkins, potatoes
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