Rapid Screening of Small Millet Varieties for Seedling Stage Drought Stress Tolerance

N. Francis, R. Ravikesavan, K. Iyanar, M. Raveendran, T. Chitdeshwari, A. Senthil
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Abstract

Aim: Drought is one of the most important abiotic stresses that affect the yield of crops globally. The present investigation was conducted to identify small millet genotypes tolerant to seedling stage drought stress. Study Design: The experiment was laid out in Completely Randomized Design (CRD) with three replications with genotypes and stress treatments as factors. Place and Duration of Study: It was carried out at Department of millets, Centre for plant breeding and genetics, Tamil Nadu Agricultural University, Coimbatore, during 2019. Methodology: Ten varieties of various small millets, CO 7 (foxtail millet), CO 4 and ATL 1 (little millet), CO 15 and CO 9 (finger millet), ATL 1 and CO (PV) 5 (proso millet), MDU 1 and CO 2 (barnyard millet) and CO 3 (kodo millet), were used for the study. In vitro screening of the seedlings in Polyethylene Glycol (PEG)-induced water stress at four levels (0, -3, -5 and -7 bars) were carried out based on germination percent, shoot and root length, plant height stress tolerance index (PHSI), root length stress tolerance index (RLSI) and seedling vigour index (SVI). Results: Analysis of variance of the genotypes and PEG treatments revealed significant variation for genotypes, treatments and genotype x treatment interactions at P< 0.001. A declining trend for germination percent, shoot length and root length was observed as the stress levels were increased. However, at mild and moderate stress root length was slightly increased. Under mild (-3 bars) and high stress (-7 bars), CO 7 (foxtail millet) recorded the highest SVI percent over control values (165% and 65% respectively). Under moderate stress CO 4 (little millet) recorded the highest SVI (191%). The lowest SVI values under high stress, 4% and 8%, were recorded for ATL 1 (little millet) and CO 3 (kodo millet) respectively. Conclusion: Based on invitro screening of small millet varieties for seedling stage water stress, foxtail millet variety CO 7 and kodo millet variety CO 3 can be concluded as the tolerant and susceptible varieties respectively. Further a controlled field experiment may be carried out to understand the field level tolerance of the varieties and their growth stages to drought.
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小谷子苗期抗旱品种快速筛选
目的:干旱是影响全球作物产量的最重要的非生物胁迫之一。本研究旨在鉴定耐苗期干旱胁迫的小谷子基因型。试验设计:采用完全随机设计(CRD), 3个重复,以基因型和应激处理为影响因素。研究地点和时间:研究于2019年在哥印拜陀泰米尔纳德邦农业大学植物育种和遗传中心谷子系进行。方法:以10个不同品种的小小米为研究对象,分别为co7(谷子)、co4和ATL 1(小谷子)、co15和co9(指谷子)、ATL 1和CO (PV) 5(小谷子)、mdu1和CO 2(稗子)和co3(小谷子)。以萌发率、茎长和根长、株高抗逆性指数(PHSI)、根长抗逆性指数(RLSI)和幼苗活力指数(SVI)为指标,对聚乙二醇(PEG)诱导的4个水平(0、-3、-5和-7 bar)下的幼苗进行体外筛选。结果:基因型和PEG处理的方差分析显示,基因型、治疗和基因型x治疗相互作用的差异显著,P< 0.001。随着胁迫水平的增加,萌发率、茎长和根长均呈下降趋势。而在轻度和中度胁迫下,根长略有增加。在轻度胁迫(-3 bar)和高胁迫(-7 bar)下,谷子co7的SVI比对照最高,分别为165%和65%。中等胁迫下,co4(小谷子)SVI最高,达191%。高胁迫下,ATL 1(小谷子)和CO 3(古多谷子)的SVI值最低,分别为4%和8%。结论:通过对小谷子品种苗期水分胁迫的体外筛选,谷子co7和谷子co3分别为耐水分胁迫品种和敏感品种。此外,还可以进行田间对照试验,以了解品种的田间水平耐旱性及其生育阶段。
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