Abd-El-Aty Mohamed S, Abo-Youssef Mahmoud I, Bahgt Mohamed M, Ibrahim Omar M, Faltakh Hana, Nouri Hela, Korany Shereen Magdy, Alsherif Emad A, AbdElgawad Hamada, El-Tahan Amira M
Agronomy Department, Faculty of Agriculture, Kafr El-Sheikh University, Kafr El-Sheikh, Egypt.
Rice Research and Training Center, Field Crops Research Institute, Agricultural Research Center, Egypt.
Front Plant Sci. 2023 Mar 31;14:1108977. doi: 10.3389/fpls.2023.1108977. eCollection 2023.
Water scarcity is a crucial environmental stress that constrains rice growth and production. Thus, breeding for developing high-yielding and drought-tolerant rice genotypes is decisive in sustaining rice production and ensuring global food security, particularly under stress conditions. To this end, this study was conducted to evaluate the effects of water deficit on 31 genotypes of rice (seven lines, viz., Puebla, Hispagran, IET1444, WAB1573, Giza177, Sakha101, and Sakha105, and three testers, viz., Sakha106, Sakha107, and Sakha108) and their 21 crosses produced by line × tester mating design under normal and water deficit conditions; this was to estimate the combining ability, heterosis, and gene action for some traits of physiological, biochemical, and yield components. This study was performed during the summer seasons of 2017 and 2018. The results showed that water deficit significantly decreased relative water content, total chlorophyll content, grain yield, and several yield attributes. However, osmolyte (proline) content and antioxidant enzyme activities (CAT and APX) were significantly increased compared with the control condition. Significant mean squares were recorded for the genotypes and their partitions under control and stress conditions, except for total chlorophyll under normal irrigation. Significant differences were also detected among the lines, testers, and line × tester for all the studied traits under both irrigation conditions. The value of the σ²GCA variance was less than the value of the σ²SCA variance for all the studied traits. In addition, the dominance genetic variance (σD) was greater than the additive genetic variance (σA) in controlling the inheritance of all the studied traits under both irrigation conditions; this reveals that the non-additive gene effects played a significant role in the genetic expression of the studied traits. The two parental genotypes (Puebla and Hispagran) were identified as good combiners for most physiological and biochemical traits, earliness, shortness, grain yield, and 1,000-grains weight traits. Additionally, the cross combinations Puebla × Sakha107, Hispagran × Sakha108, and Giza177 × Sakha107 were the most promising. These results demonstrated the substantial and desirable specific combining ability effects on all the studied traits, which suggested that it could be considered for use in rice hybrid breeding programs.
水资源短缺是一种关键的环境胁迫因素,制约着水稻的生长和产量。因此,培育高产且耐旱的水稻基因型对于维持水稻生产和确保全球粮食安全具有决定性意义,尤其是在胁迫条件下。为此,本研究旨在评估水分亏缺对31个水稻基因型(7个品系,即普埃布拉、希斯帕格兰、IET1444、WAB1573、吉萨177、萨哈101和萨哈105,以及3个测验种,即萨哈106、萨哈107和萨哈108)及其通过系×测验种交配设计产生的21个杂交组合在正常和水分亏缺条件下的影响;目的是估算一些生理、生化和产量构成性状的配合力、杂种优势和基因作用。本研究于2017年和2018年夏季进行。结果表明,水分亏缺显著降低了相对含水量、总叶绿素含量、籽粒产量以及若干产量构成因素。然而,与对照条件相比,渗透调节物质(脯氨酸)含量和抗氧化酶活性(CAT和APX)显著增加。在对照和胁迫条件下,除正常灌溉下的总叶绿素外,基因型及其分组的均方显著。在两种灌溉条件下,所有研究性状的品系、测验种以及系×测验种之间也检测到显著差异。所有研究性状的σ²GCA方差值均小于σ²SCA方差值。此外,在两种灌溉条件下,控制所有研究性状遗传的显性遗传方差(σD)均大于加性遗传方差(σA);这表明非加性基因效应在研究性状的遗传表达中起重要作用。两个亲本基因型(普埃布拉和希斯帕格兰)被确定为大多数生理和生化性状、早熟性、矮生性、籽粒产量和千粒重性状的优良配合者。此外,杂交组合普埃布拉×萨哈107、希斯帕格兰×萨哈108和吉萨177×萨哈107最具潜力。这些结果证明了对所有研究性状具有显著且理想的特殊配合力效应,这表明其可考虑用于水稻杂交育种计划。
