干直播水稻TGMS杂交品种的遗传稳定性

N. Rudresh, P. Jayamani, E. Vijayakumar, S. Manonmani, M. Gangashetti, P. Jeyakumar, K. R. Latha
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摘要

水稻是一种喜水作物,传统上在苗圃播种,然后移植到水坑和淹水的主田。由于气候变化、水资源短缺和劳动力短缺问题,水稻现在采用干式直接播种法种植。由于杂交水稻在提高水稻产量和生产力方面的潜力,许多国家正在着重利用这一技术的好处。温敏雄性不育(TGMS)杂交是突破水稻产量平台期的有效方法。在E1 - Allahabad、E2 - Lucknow、E3 - Dhamtari和E4 - Raipur 4个地点对41个TGMS杂交种和9个检验进行了稳定性和适应性评价。通过GGE稳定性模型预测,TGMS杂交种G44具有高产、环境性能稳定的理想杂交种。其次是杂交品种G10、G14、G34、G11、G20和G47,表现稳定,产量较高。因此,这些TGMS杂交种在各种环境下都是高产稳产品种,适合于旱地直接播种稻生态系统。在环境中,E1(阿拉哈巴德)和E4(赖布尔)被认为是有利的环境,因为它们具有最高的辨别能力。本研究鉴定的杂交种可用于突破水稻产量障碍,并可推荐用于边缘和旱作地区的旱作直接播种。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Genetic Stability of TGMS Hybrids in Dry Direct Seeded Rice
Rice is a water-loving crop and traditionally sown in the nursery and then transplanted to the puddled and waterlogged main field. Owing to climate change, water scarcity and labour shortage problems, rice is now cultivated in the dry direct seeded method. Owing to potential of hybrid rice in increasing both rice production and productivity, many countries are focusing on exploiting the benefits of this technology. To break the yield plateau in rice cultivation, Thermosensitive Genetic Male Sterile (TGMS) hybrids were found to be very effective. In the present study, 41 TGMS hybrids and 9 checks were evaluated for their stability and adaptability by dry direct seeded method in four locations viz., E1 - Allahabad, E2 - Lucknow, E3 - Dhamtari and E4 - Raipur. The TGMS hybrid G44 was predicted as an ideal hybrid by the GGE stability model that possessed high grain yield and stable performance over environments. It was followed by hybrids viz., G10, G14, G34, G11, G20 and G47 that had a stable performance with high yield. Hence, these TGMS hybrids were identified as high and stable yielders across environments and suitable for dry direct seeded rice ecosystems. Among the environments, E1 (Allahabad) and E4 (Raipur) were considered favourable environments as they possessed the highest discriminating power. The hybrids identified in the study can be utilized for breaking the yield barriers in rice and can be recommended for dry direct seeding in marginal and rainfed areas.
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