Development of Drought Tolerant Rice Breeding Lines of an Elite Indian Rice (Oryza sativa L.) Variety Improved White Ponni through Molecular Breeding

F. D. Prisca Seeli, S. Manonmani, M. Raveendran, P. Jeyakumar, R. Pushpam
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Abstract

Changes in climatic conditions especially unpredictable drought occurrences are challenging for food security. The present investigation was carried out to improve the grain yield in Improved White Ponni (IWP) rice under reproductive stage drought stress. This variety is well known for its grain quality. Physiological changes, grain yield and related traits under drought were evaluated in the advanced breeding lines of Improved White Ponni X Apo containing qDTY 3.1. The experiment was conducted at the Department of Rice, Centre for Plant Breeding and Genetics, Tamil Nadu Agricultural university, Coimbatore during 2020. Two superior backcross inbred lines of IWP X Apo, donor parent and recipient parent were raised under water stress in rain out shelter as well as in well irrigated conditions in replications. Soil moisture content was reduced to 12.7% in drought field showing the stress severity. Physiological parameters such as photosynthetic rate, transpiration rate, stomatal conductance, chlorophyll content and relative water content, Yield and related traits such as days to fifty percent flowering, productive tillers, spikelet fertility, grain yield and grain weight were recorded in the BILs and parents during flowering stages. Reduction was observed in all these traits under water stress. However, in comparison with IWP (94.6%) which lacks qDTY 3.1, BILs with qDTY 3.1 showed less reduction in grain yield (63%) and other traits. Earliness was also observed in qDTY 3.1 containing BILs under drought stress (BILs - 106 days, IWP-117 days) and controlled conditions (BILs- 83 days, IWP-107 days) when compared to IWP. Grain quality estimates in the BILs showed similarity to IWP. These BILs need to be evaluated further for confirmation of drought tolerance and they are effective resources for utilisation in drought breeding programmes.
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印度优质水稻(Oryza sativa L.)耐旱品种的选育分子选育改良白锦鲤品种
气候条件的变化,特别是不可预测的干旱,对粮食安全构成挑战。本试验旨在提高育成期干旱胁迫下改良白锦江水稻的产量。这个品种以其谷物品质而闻名。以含qDTY 3.1的改良白锦江X Apo高级选品系为材料,评价了干旱条件下的生理变化、产量及相关性状。该实验于2020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水稻系进行。对IWP X Apo 2个优良回交自交系,供体亲本和受体亲本在雨棚和灌水条件下进行了重复培养。干旱地区土壤含水量降至12.7%,表现出胁迫的严重程度。记录了植株和亲本在花期的光合速率、蒸腾速率、气孔导度、叶绿素含量和相对含水量等生理参数、产量以及开花天数至50%、有效分蘖、小穗育性、籽粒产量和粒重等相关性状。这些性状在水分胁迫下均有所降低。但与缺乏qDTY 3.1的IWP(94.6%)相比,qDTY 3.1的BILs在籽粒产量和其他性状上的降低幅度较小(63%)。与IWP相比,干旱胁迫(BILs- 106天,IWP-117天)和对照条件(BILs- 83天,IWP-107天)下含有BILs的qDTY 3.1的早熟性也有所提高。BILs对粮食品质的估计与IWP相似。这些bil需要进一步评估,以确认其耐旱性,它们是干旱育种计划中利用的有效资源。
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