17 Imen Klay Leila Riahi Hajer Slim-Amara Abderrazak Daaloul Journal of Animal and Plant Sciences JAPS 20242024/08/25 34 4 1020-1030 1018-7081 https://doi.org/10.36899/JAPS.2024.4.0784 <p><span lang="EN-GB">Wheat is one of the most widely cultivated and important cereal crops globally, serving as a staple food for millions of people worldwide. However, wheat production is increasingly challenged by environmental stresses, particularly soil salinity. Developing salt-tolerant varieties is essential to enhance wheat yields in saline-prone regions, thereby ensuring food security and agricultural sustainability. This study evaluated the variations in</span><span lang="EN-GB">&nbsp;salt stress tolerance among eight wheat genotypes</span><span lang="EN-GB">,</span><span lang="EN-GB">&nbsp;representing common wheat, durum wheat</span><span lang="EN-GB">,</span><span lang="EN-GB">&nbsp;and wild wheat</span><span lang="EN-GB">,</span><span lang="EN-GB">&nbsp;under&nbsp;<em>in vitro</em>&nbsp;culture conditions. Wheat calli, induced from immature embryos, were subjected to increasing NaCl concentrations in the culture&nbsp;</span><span lang="EN-GB">media&nbsp;</span><span lang="EN-GB">(0, 50, 100, 150 mM NaCl). Callogenesis rates</span><span lang="EN-GB">,</span><span lang="EN-GB">&nbsp;recorded after one month of&nbsp;<em>in vitro</em>&nbsp;culture during the induction phase</span><span lang="EN-GB">,</span><span lang="EN-GB">&nbsp;varied between 33</span><span lang="EN-GB">%</span><span lang="EN-GB">&nbsp;and 100</span><span lang="EN-GB">%,</span><span lang="EN-GB">&nbsp;with</span><span lang="EN-GB">&nbsp;a</span><span lang="EN-GB">&nbsp;significant effect of genotype. The Aegilops accessions showed the lowest callus weights at the end of the induction phase</span><span lang="EN-GB">,</span><span lang="EN-GB">&nbsp;while Vaga and Jenah Khotifa&nbsp;</span><span lang="EN-GB">genotypes exhibited</span><span lang="EN-GB">&nbsp;the highest biomass.</span><span lang="EN-GB">&nbsp;Significant variations</span><span lang="EN-GB">&nbsp;in callus growth and regeneration&nbsp;</span><span lang="EN-GB">rates&nbsp;</span><span lang="EN-GB">were&nbsp;</span><span lang="EN-GB">observed among</span><span lang="EN-GB">&nbsp;the studied genotypes under increasing salt stress levels. The&nbsp;</span><span lang="EN-GB">obtained results indicated</span><span lang="EN-GB">&nbsp;that the durum wheat variety Om&nbsp;</span><span lang="EN-GB">Rabiaa</span><span lang="EN-GB">, the common wheat variety Salambo</span><span lang="EN-GB">,</span><span lang="EN-GB">&nbsp;and the two wild accessions</span><span lang="EN-GB">,</span><span lang="EN-GB">&nbsp;especially MZ116</span><span lang="EN-GB">,</span><span lang="EN-GB">&nbsp;exhibited the highest salt stress tolerance potential among the studied wheat genotypes.&nbsp;</span><span lang="EN-GB">Further investigations at transcriptomic and genomic levels are required to elucidate the molecular basis of their high tolerance to salt stress.&nbsp;</span><span lang="EN-GB">These genotypes could be&nbsp;</span><span lang="EN-GB">utilized</span><span lang="EN-GB">&nbsp;to develop salt-tolerant cultivars,&nbsp;</span><span lang="EN-GB">which is crucial&nbsp;</span><span lang="EN-GB">in the context of global climate&nbsp;</span><span lang="EN-GB">change</span><span lang="EN-GB">, either through wheat breeding as donor parents or through genetic transformation strategies.</span></p> Triticum, Aegilops, Salt stress, Callogenesis, Plant regeneration, Selection Pakistan Agricultural Scientists Forum https://thejaps.org.pk/AbstractView.aspx?mid=2023-JAPS-1437