Genetic Diversity Among some of Rice Genotypes under Water Shortage

Sedeek, S. E. M.; Mazal, Tahany M.; Osman, Mervat M. A.; Hefeina, A.; El-Kallawy, W.; Bleih, Eman

doi:10.21608/jpp.2023.178703.1197

Cited by 2 publications

(4 citation statements)

References 19 publications

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“…However, the reduction in grain yield as affected by water stress conditions may be due to the reduction in dry matter production, number of panicles -1 and number of filled grains panicle -1 . A similar trend was found by Gewaily et al (2019) and Sedeek et al (2022). Rice crop production has significant challenges from salt dangers.…”

Section: Discussionsupporting

confidence: 86%

“…Giza 183 is suitable to mechanization harvest due to its short stature compared to Sakha 104 and Sakha 102. Sedeek et al (2022) reported that the reduction in plant height may be due to reduction in cell turgor which induces reduction in cell enlargement, and turn into decreases shoots enlargement and plant height. The study of interaction infection resulted that Giza 183 could easily have performed better under continuous flooding, continuous saturation and cyclic irrigation every 5 days and the reduction in grain yield with prolonging irrigation every 10 and 15 days were (9.83, 9.50, 8.47 and 8.50 t/ha) in both seasons of study, respectively (Table 6).…”

Section: Discussionmentioning

confidence: 99%

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Giza 183 Egyptian rice variety: a step to confront climate change challenges

Barakat

2023

Egyptian Journal of Agricultural Research

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Climate change is one of the biggest threats to plant species around the world. As one of the most important crops worldwide, rice is an awfully climate-sensitive agro-ecosystem. Therefore, Giza 183 will be released in 2023 as a high-yielding variety that has been adapted to mitigate climate change. This new variety is the product of cross-breeding between Giza 178 and SKC 23893 in 2010. The first generation, "F1," of this cross was evaluated in 2011 and planted as the F2 generation in 2012. Sequentially, the next generations from F3 to F6 were evaluated in the pedigree trails from 2013 to 2016, under cross number "GZ 10848." Five promising sister lines of GZ 10848 were selected and evaluated in the preliminary yield trail (

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Section: Discussionsupporting

confidence: 86%

Section: Discussionmentioning

confidence: 99%

Giza 183 Egyptian rice variety: a step to confront climate change challenges

Barakat

2023

Egyptian Journal of Agricultural Research

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“…About onethird of total cultivated area is exposed to water shortage annually in Egypt Abdallah et al, (2016). Hence, irrigation water is the most limiting factor for expanding rice cultivation area in Egypt Sedeek et al, (2022) and Shehab et al, (2023).…”

Section: Introductionmentioning

confidence: 99%

“…Low water availability is one of the major causes for crop yield reductions affecting the majority of the farmed regions around the world El-Agoury et al, (2023). As water resources for agronomic uses become more limiting, the development of drought-tolerant lines becomes increasingly more important Daher (2018), Sedeek et al, (2022) and Shehab et al, (2023).…”

Section: Introductionmentioning

confidence: 99%

Studies on Combining Ability and Heterosis for Yield, Its Components and Some Grain Quality Traits in Rice Using Line X Tester Under Normal and Water Deficit

El-Naem,

Daher,

Ghazy

et al. 2024

Menoufia Journal of Plant Production

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Combining ability and heterosis were studied on 15 F1 hybrids and their parents to understand the inheritance of yield, its components and some grain quality traits for selecting superior genotypes. A line x tester mating design was conducted during 2021and 2022rice seasons at the Experimental Farm, of Sakha Research Station Kafr El-Sheikh, Egypt. The results revealed that GCA and SCA were highly significant for all studied traits except grain shape under both conditions. 11 L236 genotype was the best general combiner for number of days to 50% heading, number of filled grains/panicle, sterility% and grain yield/plant under normal and water deficit conditions. Also Giza 178 was the best general combiner for number of panicles/plant, grain yield/plant and hulling % under both conditions while, IR6500-127, Giza 178 and GZ1368-S-5-4 for head rice % and for amylose content Lines 11 L236 and tester Nerica7 under both conditions were good combiners for this trait. Crosses IR 69432 x Nerica7, IR 69432 x GZ1368-S-5-4, IR 12G3213 x Giza178, IR 12G3222 x Giza178 and IR 12G3222 x Nerica7 had high and significant SCA in desirable direction for most studied traits under both condition. Crosses IR6500-127 x Nerica7, 11 L236 x GZ1368-S-5-4, IR69432 x Nerica7, IR 12G3213 x Nerica7, IR 12G3222 x GZ1368-S-5-4 and IR 12G3222 x Nerica7 exhibited highly significant and desirable estimates of heterosis as a deviation from mid and better parent for most studied traits under both conditions.

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Genetic Diversity Among some of Rice Genotypes under Water Shortage

Cited by 2 publications

References 19 publications

Giza 183 Egyptian rice variety: a step to confront climate change challenges

Giza 183 Egyptian rice variety: a step to confront climate change challenges

Studies on Combining Ability and Heterosis for Yield, Its Components and Some Grain Quality Traits in Rice Using Line X Tester Under Normal and Water Deficit

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