DROUGHT TOLERANCE OF THE NEW SELF-POLLINATED LINES OF MAIZE AND THE METHODS OF ITS ESTIMATION

G. Krivosheev, N. Shevchenko, A. S. Ignatiev
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Abstract

More than half of the maize crops in the Russian Federation are located in areas with insufficient and unstable moisture. With this in mind, Z. mays breeding for drought tolerance is extremely important. The purpose of the current study is: investigate the drought tolerance of self-pollinated maize lines by various methods, identify the best samples for further breeding, establish indirect criteria for estimating drought tolerance. The study was conducted at the Agricultural Research Center “Donskoy” located in the southern part of the Rostov region, which is characterized by unstable moisture. The years of the study turned out to be dry (Selyaninov Hydrothermal Coefficient (HTC) = 0.32–0.89). The new self-pollinated lines of maize were used as initial material and studied for resistance to water stress (41 pcs. in 2011–2013, 39 pcs. in 2015–2017, 25 pcs. in 2018–2020). According to the guidelines for maize breeding, the following indicators of productivity were taken into account: number of ears per plant, weight of one ear, 1000-grain weight, number of grains per ear, etc. In 2011–2013, based on the comprehensive estimation, new middle-early drought-tolerant self-pollinated lines of maize ‘DK47111’, ‘SP203’, ‘KS211’, ‘S204’ and ‘S238’ were identified. They were characterized by the low values of residual water deficit both in the flowering (6.9 – 12.8%) and milk-wax (9.0 – 13.4%) stage, high drought tolerance index (68.6 – 85.6%), deep root system (force of uprooting the plants from the ground was 54.0–67.7 kgf), minimum gap in the flowering of male and female inflorescences (1–2 days). In 2015–2017, according to the method of residual water deficit (RWD), the following lines were identified ‘KV334’, ‘RD6’, ‘DS498/217-4’, ‘DS257/85-3’, ‘DS257/85-1’, ‘DS257/85-6’, ‘DS257/85-4’. In 2018–2020, the new self-pollinated lines of maize ‘KS317A’, ‘KV240’, ‘LSh16’, ‘S86’, ‘LSh17’ and ‘LSh2’ showed high resistance to water stress. We recommend the following selection criteria when creating new lines: absence of infertility and kernel percentage of the ears.
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玉米自花新品系的耐旱性及其评价方法
俄罗斯联邦一半以上的玉米作物生长在水分不足和不稳定的地区。考虑到这一点,Z. mays的耐旱育种是极其重要的。本研究的目的是:通过各种方法研究自花授粉玉米品系的耐旱性,确定进一步选育的最佳样品,建立估计抗旱性的间接标准。这项研究是在位于罗斯托夫地区南部的农业研究中心“顿斯科伊”进行的,该地区的特点是湿度不稳定。研究的年份被证明是干燥的(Selyaninov热液系数(HTC) = 0.32-0.89)。以玉米自花授粉新品系为初始材料,对其抗水分胁迫能力进行了研究。2011-2013年,39件。2015-2017年,25件。在2018 - 2020年)。根据玉米育种指南,考虑了以下生产力指标:单株穗数、单穗重、千粒重、每穗粒数等。2011-2013年,在综合估算的基础上,鉴定出了玉米‘DK47111’、‘SP203’、‘KS211’、‘S204’和‘S238’中早抗旱自交新品系。其特点是花期(6.9 ~ 12.8%)和乳蜡期(9.0 ~ 13.4%)剩余水分亏缺值低,耐旱性指数高(68.6 ~ 85.6%),根系深(离地拔根力54.0 ~ 67.7 kgf),雌雄花序开花间隔最小(1 ~ 2 d)。2015-2017年,根据剩余水分亏缺(RWD)方法,鉴定出以下品系:KV334、RD6、DS498/217-4、DS257/85-3、DS257/85-1、DS257/85-6、DS257/85-4。2018-2020年,玉米自花新品系‘KS317A’、‘KV240’、‘LSh16’、‘S86’、‘LSh17’和‘LSh2’对水分胁迫表现出较高的抗性。在创建新品系时,我们推荐以下选择标准:无不育和穗粒百分比。
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