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"Kyu Jin Sa†"

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"Kyu Jin Sa†"

Research Article
Drought Tolerance Screening of Maize Inbred Lines at an Early Growth Stage
Bishnu Adhikari†, Kyu Jin Sa†, Ju Kyong Lee
Plant Breed. Biotech. 2019;7(4):326-339.   Published online December 1, 2019
DOI: https://doi.org/10.9787/PBB.2019.7.4.326

Drought is one of the major abiotic factors that have a serious effect on the production of cereals crops including maize, which is grown widely in the world. Screening based on drought facilitates selection of inbred lines and an understanding of drought-tolerant traits. The effect of drought stress and rescue after stress on maize inbred lines was investigated in this study. Different plant growth attributes namely plant height, leaf area and weight, stem weight, root length, shoot and root fresh and dry weight, and total leaf chlorophyll content were measured. Six flint inbred lines (FLD 12, FLD 23, FLD 24, FLD 33, FLD 35, and FLD 37) were screened as drought-tolerant lines, whereas another six flint inbred lines (FLD 01, FLD 13, FLD 16, FLD 18, FLD 29, and FLD 31) were screened as drought susceptible lines. Growth attributes under different drought conditions were subjected to a correlation test and analysis of variance and showed highly significant relationships with each other. The drought effect differed with different inbred lines, indicating a wide variability of drought response at the early growth stage of maize plants. The results obtained from this study will be useful for selecting maize inbred lines in future breeding programs for enhancing drought tolerance.

Citations

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  • Review on Effects of Drought Stress on Maize Growth, Yield and Its Management Strategies
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    Communications in Soil Science and Plant Analysis.2025; 56(1): 123.     CrossRef
  • Drought tolerance screening of maize accessions at early growth stage in the mid-hills of Nepal
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    Cogent Food & Agriculture.2024;[Epub]     CrossRef
  • Breeding Drought-Tolerant Maize (Zea mays) Using Molecular Breeding Tools: Recent Advancements and Future Prospective
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    Agronomy.2023; 13(6): 1459.     CrossRef
  • Evaluation of water deficit tolerance in maize genotypes using biochemical, physio-morphological changes and yield traits as multivariate cluster analysis
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    Notulae Botanicae Horti Agrobotanici Cluj-Napoca.2022; 50(1): 12572.     CrossRef
  • Overexpressing OsPYL/RCAR7 Improves Drought Tolerance of Maize Seedlings by Reducing Stomatal Conductance
    Joon Ki Hong, Yeon-Hee Lee, Beom-Gi Kim, Gang Seob Lee, Hee Jeung Jang, Giha Song, Eun Jung Suh, Sang Ryeol Park
    Agriculture.2022; 12(12): 2140.     CrossRef
  • Association Study for Drought Tolerance of Flint Maize Inbred Lines Using SSR Markers
    Kyu Jin Sa, Hyeon Park, Zhenyu Fu, So Jung Jang, Ju-Kyong Lee
    Plant Breeding and Biotechnology.2022; 10(4): 257.     CrossRef
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