AUTUMN GROWTH AND DEVELOPMENT OF WINTER WHEAT PLANTS ON THE IRRIGATED LANDS DEPENDING ON HYDROTHERMAL CONDITIONS, VARIETIES AND TERMS OF SOWING

S. Zaiets
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引用次数: 1

Abstract

Actuality. For the last few years the instability in grain productions in the Steppe zone has been observed that is mainly connected with the fluctuations of agrometeorological conditions and global climatic change. Climate change made corrections in terms of sowing of winter crops, which are one of the main factors of technological process, which productivity of the crops depends on. Goal. To determine the influence of agrometeorological conditions, varieties and terms of sowing on the growth and development of plants during the autumn period of vegetation when cultivating winter wheat varieties on irrigated lands. Methods. The researches were conducted at the Institute of Irrigated Agriculture NAAS using the methodology of field and laboratory experiments on irrigated lands (IOZ  NAAS, 2014). Results. During the study period it was determined that the hydrothermal conditions and the duration of the autumn period for winter wheat vegetation were significantly different. When sowing on the 20th of September, on the 1st of October, and on the 10th of October, the duration of the autumn vegetation period in 2016 was 56, 46 and 36 days, in 2015 - 100, 90 and 80 days and in 2017 - 114, 104 and 94 days respectively. When sowing on the 20th of October, winter wheat plants vegetated during 26, 70 and 84 days, respectively. Sowing terms affected winter wheat sprout population in different ways - when sowing on the 20th of September, it averaged to 372 plants/m2, on the 1st of October - 407 plants/m2, on the 10th of October – 386 plants/m2 and on the 20th of October - 392 plants/m2. It was determined that at different terms of sowing the plants entered in winter period with uneven growth and development. When sowing on the 20th of September all the varieties in autumn tillered, and in average for three years they created 4.1-5.0 shoots, developed more herbage mass of 713-761 g/m2 in comparison to other terms of sowing. The later wheat was sown, the less the plant tillering was, therefore, less herbage mass was formed. Conclusions. Agrometeorological conditions of autumn period and terms of sowing significantly affect the population of sprouts and growth processes of the plants of current winter wheat varieties. The highest plant population of all the varieties was formed when sowing on the 1st of October, the least one was formed by the varieties Mariia and Kokhana at early sowing on the 20th of September, and variety Ovidii – at early sowing on the 20th of September, and at late sowing on the 20th of October. That is, the Ovid variety is more responsive to the terms of sowing and to the deviation from the optimal (October 1) and leads to a decrease in the sprouting density. When sowing on the 20th of September and on the 1st of October all the varieties tillered intensively in autumn time, and they formed 4.1-5.0 and 3.3-3.7 shoots, respectively, developed more herbage mass comparatively to other terms of sowing -  713-761 and 313-381 g/m2 respectively. Having these terms of sowing the most intensive tillering was observed on the varieties Mariia and Kokhana, and when sowing in delayed terms no one variety had an advantage over the others.
根据水热条件、品种和播种条件,灌溉地上冬小麦植株的秋季生长和发育
现状。在过去几年中,已经观察到草原地区粮食生产的不稳定,这主要与农业气象条件的波动和全球气候变化有关。气候变化在冬季作物播种方面做出了修正,这是作物生产力所依赖的技术过程的主要因素之一。的目标。在灌溉地栽培冬小麦品种时,确定秋季植被期农业气象条件、品种和播种条件对植物生长发育的影响。方法。这项研究是在灌溉农业研究所进行的,采用了灌溉土地的田间和实验室试验方法(IOZ NAAS, 2014)。结果。研究期间,冬小麦植被的热液条件和秋期持续时间存在显著差异。在9月20日、10月1日、10月10日播种时,2016年秋季植被期分别为56、46、36天,2015年为100、90、80天,2017年为114、104、94天。10月20日播种时,冬小麦植株的植被期分别为26天、70天和84天。播期对冬小麦芽数量的影响不同,9月20日播种时平均为372株/m2, 10月1日播种时平均为407株/m2, 10月10日播种时平均为386株/m2, 10月20日播种时平均为392株/m2。结果表明,不同播期植株进入冬季,生长发育不均匀。9月20日播种时,各秋分蘖品种平均3年出芽4.1 ~ 5.0个,产草量713 ~ 761 g/m2,高于其他播种期。小麦播种越晚,植株分蘖越少,因此形成的牧草质量越少。结论。秋期和播期的农业气象条件对现有冬小麦品种的发芽种群和植株生长过程有显著影响。各品种在10月1日播种时形成的种群数量最多,9月20日早播时形成的种群数量最少,9月20日早播和10月20日晚播时形成的种群数量最少。也就是说,奥维德品种对播种条件和偏离最优(10月1日)的响应更大,导致出芽密度下降。在9月20日和10月1日播种时,所有品种在秋季分蘖密集,分蘖量分别为4.1 ~ 5.0和3.3 ~ 3.7个,产草量分别为713 ~ 761和313 ~ 381 g/m2,高于其他播种期。在这些播种条件下,在玛丽亚和科哈纳品种上观察到最密集的分蘖,当延迟播种时,没有一个品种比其他品种有优势。
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