Identification of drought tolerant inbred lines and assessment of combining ability in maize (Zea mays L.)

IF 1.5 4区 农林科学 Q2 AGRONOMY Plant Breeding Pub Date : 2024-05-27 DOI:10.1111/pbr.13183
D. S. Shailaja, Hirenallur Chandappa Lohithaswa, M. S. Sowmya, Mallana Gowdra Mallikarjuna, Santhoshkumari Banakara, T. R. Likhithashree, R. Kirankumar, G. Basanagouda, Nagesh Patne, B. S. Vivek
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Abstract

Maize is an important agricultural crop ensuring food and nutritional security throughout the globe. It is highly sensitive to many of the biotic and abiotic stresses, and among them, drought is the most severe abiotic stress limiting maize production. Climate change tends to worsen this scenario by changing precipitation patterns and decreasing water availability. Hence, the present study was undertaken to identify drought‐tolerant inbred lines under well‐irrigated and managed stress conditions in the field toward developing drought‐resilient maize hybrids. The initial in vitro screening of 65 agronomically elite maize inbred lines was undertaken at 15%, 20%, and 25% polyethylene glycol (PEG) concentrations. Subsequently, the 15 inbreds selected for their promising performance under varying concentrations of PEG were evaluated in the pot (100%, 60%, and 40% of field capacity [FC]) and managed field experiments (moisture stress). Various physiological, biochemical, and yield attributing traits were measured among the inbreds to assess their drought tolerance potential. The analysis of variance in the pot and field experiments indicated significant genotypic differences among the inbreds and genotype × treatment interaction for different traits considered. In the pot experiment, the phenotypic correlation analysis showed a significant positive association of shoot fresh weight with plant height (r = .71), number of leaves (r = .58), relative water content (r = .60), root fresh weight (r = .58), shoot dry weight (r = .60), and SPAD meter readings under (r = .71) moisture stress condition. In the field experiment, the grain yield had a significant positive association with plant height, relative water content, SPAD before stress, ear length, ear girth, kernel rows per ear, kernels per row, and per day productivity under stress. Proline accumulation in inbreds during stress was found to be higher compared to nonstress conditions. The inbred lines CML 505, CML 444, CML 451, CML 504, QM 11408, and MAI 214 were promising for most of the drought tolerance imparting traits. These six inbreds along with four inbreds having low DRI (SKV 50, MAI E2‐163, MAI 16, and MAI E2‐241) were crossed in half diallel manner, and crosses involving low × high or high × low DRI inbreds showed higher grain yield. The current study also revealed the need of combining various physiological and yield attributing traits in drought breeding programmes.
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玉米(Zea mays L.)耐旱近交系的鉴定和组合能力评估
玉米是确保全球粮食和营养安全的重要农作物。它对许多生物和非生物胁迫高度敏感,其中干旱是限制玉米产量的最严重的非生物胁迫。气候变化会改变降水模式,减少水的供应,从而使这种情况进一步恶化。因此,本研究旨在田间灌溉条件和管理胁迫条件下鉴定耐旱近交系,以开发抗旱玉米杂交种。在聚乙二醇(PEG)浓度分别为 15%、20% 和 25% 的条件下,对 65 个农艺精英玉米近交系进行了初步体外筛选。随后,在盆栽(100%、60% 和 40% 的田间能力 [FC])和田间管理实验(水分胁迫)中对筛选出的 15 个在不同 PEG 浓度下表现良好的近交系进行了评估。对这些品种的各种生理、生化和产量性状进行了测定,以评估其耐旱潜力。盆栽和田间试验的方差分析表明,不同性状的近交种之间存在显著的基因型差异和基因型 × 处理交互作用。在盆栽试验中,表型相关性分析表明,在水分胁迫条件下,芽鲜重与株高(r = .71)、叶片数(r = .58)、相对含水量(r = .60)、根鲜重(r = .58)、芽干重(r = .60)和 SPAD 仪读数(r = .71)呈显著正相关。在田间试验中,谷物产量与株高、相对含水量、胁迫前的 SPAD、穗长、穗围、每穗籽粒行数、每行籽粒数以及胁迫下的日产量均呈显著正相关。与非胁迫条件相比,胁迫期间近交系的脯氨酸积累量更高。近交系 CML 505、CML 444、CML 451、CML 504、QM 11408 和 MAI 214 在大多数抗旱性状方面表现良好。这 6 个品种与 4 个低 DRI 的品种(SKV 50、MAI E2-163、MAI 16 和 MAI E2-241)进行了半拨式杂交,低 × 高或高×低 DRI 品种的杂交结果表明谷物产量更高。目前的研究还揭示了在干旱育种计划中结合各种生理和产量特征的必要性。
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来源期刊
Plant Breeding
Plant Breeding 农林科学-农艺学
CiteScore
4.40
自引率
5.00%
发文量
74
审稿时长
3.0 months
期刊介绍: PLANT BREEDING publishes full-length original manuscripts and review articles on all aspects of plant improvement, breeding methodologies, and genetics to include qualitative and quantitative inheritance and genomics of major crop species. PLANT BREEDING provides readers with cutting-edge information on use of molecular techniques and genomics as they relate to improving gain from selection. Since its subject matter embraces all aspects of crop improvement, its content is sought after by both industry and academia. Fields of interest: Genetics of cultivated plants as well as research in practical plant breeding.
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