Abstract:
Drought stress is a major abiotic constraint affecting nce (Oryza sativa Z.) growth,
productivity, and yield stability, particularly in rainfed regions. The present study aimed
to evaluate the morphological responses of thirteen rice accessions under drought stress
and control conditions to identify tolerant varieties suitable for breeding and cultivation
in water-limited environments. The experiment was conducted in a Completely
Randomized Design (CRD) with eight replicates per accession. Drought stress was
imposed at 50o/o field capacity, and morphological traits, including plant height, leaf
length, leaf width, number of leaves, number of tillers, and number of panicles, were
measured. The Standard Evaluation System (SES) developed by IRRI (2002) was
employed to assess drought tolerance levels.
Significant varietal variation was observed across all measured traits under drought
stress. Among the improved varieties,Bg251, Bg 381, and Ld 376 exhibited relatively
stable growth and higher tolerance to moisture stress, maintaining consistent plant
height and leaf morphology. In contrast, Bg 314 andBg377 showed reduced growth,
indicating higher drought sensitivity. Notably, Bg 252 displayed improved vegetative
traits under drought, suggesting possible osmotic adjustment and adaptive responses.
Traditionalaccessionssuchas Dahanala(Ac627),|ttriyanwee (Ac 1370), Kahatasamba
(Ac 327), and Kirimurunga (Ac 3a0) reported tolerance, maintaining or increasing leaf
area and tiller numbers under drought stress. Suwandal (Ac 579) and Masuran (Ac 776)
showed moderate adaptability, while Dahanala (Ac 627) recorded the greatest plant
height and panicle number under stress conditions, indicating robust physiological
resistance.
