Comparative metabolomic and physiological analysis uncovers distinct drought tolerance mechanisms in four rice cultivars
Nagy S. Radwan, Sobhi F. Lamlom, Abdul-Hamid Emwas, Mariusz Jaremko, Nader R. Abdelsalam

TL;DR
This study compares how four rice varieties respond to drought stress, revealing different metabolic strategies that could help breed more drought-tolerant rice.
Contribution
The study identifies distinct drought tolerance mechanisms in rice cultivars through combined morpho-physiological and metabolomic analyses.
Findings
Giza 179 showed the highest biomass maintenance and broad metabolic activation under drought stress.
Hassawi exhibited targeted metabolic responses, including trehalose upregulation, to conserve resources.
Y EGY showed extensive root metabolic disruption and the lowest stress tolerance index.
Abstract
Drought stress is a major abiotic challenge threatening global food security by negatively affecting rice morphology, physiology, and biochemistry. This study explored the morpho-physiological and metabolomic responses of four rice cultivars (Giza 179, Hassawi, Super 300, and Y EGY) to drought stress induced by 15% PEG for 14 days. Measurements included fresh weight, relative water content (RWC), proline content, and plant height, while leaf and root tissues underwent detailed GC-MS metabolomic profiling followed by multivariate analyses such as PCA, VIP scoring, volcano plots, and pathway enrichment. Results showed Y EGY experienced the greatest decline in fresh weight, whereas Giza 179 maintained higher biomass. Stress tolerance indices ranked the cultivars as Giza 179 (85.2%), Super 300 (65.5%), Hassawi (61.7%), and Y EGY (52.2%). Metabolomic analysis identified 114 leaf and 97 root…
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Taxonomy
TopicsPlant responses to water stress · Plant Stress Responses and Tolerance · Plant nutrient uptake and metabolism
