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Effects of Acute and Chronic Gamma Irradiation on the Cell Biology and Physiology of Rice Plants

Hong‐Il Choi, Sung Min Han, Yeong Deuk Jo, Min Jeong Hong, Sang Hoon Kim, Jin‐Baek Kim

2021Plants52 citationsDOIOpen Access PDF

Abstract

L.). Rice plants at the tillering stage were exposed to gamma rays for 8 h (acute irradiation) or 10 days (chronic irradiation), with a total irradiation dose of 100, 200, or 300 Gy. Plants exposed to gamma irradiation were then analyzed for DNA damage, oxidative stress indicators including free radical content and lipid peroxidation, radical scavenging, and antioxidant activity. The results showed that all stress indices increased immediately after exposure to both acute and chronic irradiation in a dose-dependent manner, and acute irradiation had a greater effect on plants than chronic irradiation. The photosynthetic efficiency and growth of plants measured at 10, 20, and 30 days post-irradiation decreased in irradiated plants, i.e., these two parameters were more severely affected by acute irradiation than by chronic irradiation. In contrast, acutely irradiated plants produced seeds with dramatically decreased fertility rate, and chronically irradiated plants failed to produce fertile seeds, i.e., reproduction was more severely affected by chronic irradiation than by acute irradiation. Overall, our findings suggest that acute gamma irradiation causes instantaneous and greater damage to plant physiology, whereas chronic gamma irradiation causes long-term damage, leading to reproductive failure.

Topics & Concepts

Gamma irradiationPhysiologyBiologyIrradiationPhysicsNuclear physicsPlant Genetic and Mutation StudiesGABA and Rice ResearchAgriculture, Soil, Plant Science
Effects of Acute and Chronic Gamma Irradiation on the Cell Biology and Physiology of Rice Plants | Litcius