Physiological and Anatomical Trait Integration Reveals Variability for Drought Resilience in Barley
文献类型: 外文期刊
作者: Ahmed, Hafiz Ghulam Muhu Din 2 ; Yang, Xiaomeng 2 ; Yang, Jiazhen 2 ; Akram, Muhammad Irfan 1 ; Iqbal, Rashid 4 ; Gurbanova, Lala 5 ; Ali, M. Ajmal 6 ; Elshik, Mohamed S. 6 ; Zeng, Yawen 2 ;
作者机构: 1.Islamia Univ Bahawalpur, Fac Agr & Environm, Dept Plant Breeding & Genet, Bahawalpur 63100, Pakistan
2.Yunnan Acad Agr Sci, Biotechnol & Germplasm Resources Inst, Kunming 650205, Peoples R China
3.Islamia Univ Bahawalpur, Fac Agr & Environm, Dept Entomol, Bahawalpur 63100, Pakistan
4.Islamia Univ Bahawalpur, Fac Agr & Environm, Dept Agron, Bahawalpur 63100, Pakistan
5.Western Caspian Univ, Dept Life Sci, Baku, Azerbaijan
6.King Saud Univ, Coll Sci, Dept Bot & Microbiol, PO 2455, Riyadh 11451, Saudi Arabia
关键词: barley; drought; physiology; anatomy; genotypes; resilience
期刊名称:ROMANIAN AGRICULTURAL RESEARCH ( 影响因子:1.0; 五年影响因子:0.8 )
ISSN: 1222-4227
年卷期: 2025 年 42 卷
页码:
收录情况: SCI
摘要: This study evaluated 20 barley (Hordeum vulgare L.) genotypes under well-watered and drought-induced conditions to investigate physiological and anatomical adaptations contributing to drought tolerance. Conducted using a randomized complete block design (RCBD) with three replications, the experiment quantified six key traits: Cell Membrane Thermostability (CMT), Total Chlorophyll Content (TCC), Stomata Size (SS), Stomata Frequency (SF), Leaf Venation (LV), and Epidermal Cell Size (ECS). Significant genotypic (p < 0.01), environmental (p < 0.05 or p < 0.01), and genotype x environment interaction effects (p < 0.05) were observed for all traits, highlighting both genetic diversity and environmental influence on drought responses. Under drought, mean CMT and TCC decreased from 59.85 to 54.70 and from 60.11 to 50.90, respectively, while ECS increased from 2591.80 to 2689.15, indicating adaptive anatomical reconfiguration. Principal Component Analysis explained 96.42% and 97.17% of the total variation under normal and drought conditions, respectively, underscoring robust multivariate trait discrimination. Genotypes G8, G13, and G17 consistently outperformed others, exhibiting superior CMT (60.62, 60.56, 60.55), TCC (56.66, 56.43, 56.63), and ECS (2780.32 each), along with optimal stomatal and venation traits, indicating enhanced physiological resilience. Conversely, G7, G11, and G19 exhibited inferior performance across all traits. These findings affirm the utility of integrative physiological and anatomical trait analysis in identifying drought-resilient barley genotypes and provide a strong empirical basis for their incorporation into breeding programs aimed at climate adaptation and yield stability.
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