Litcius/Paper detail

UV-C seed priming improves tomato plant growth against salt stress

Khalid H. Alamer, Houneïda Attia

2022Journal of Taibah University for Science19 citationsDOIOpen Access PDF

Abstract

The study aimed to evaluate the impact of UV-C dry seed priming at two doses (0.85 and 3.42 kJ.m−2), on tomato under salt stress (NaCl, 100 mM). Results show that salinity causes a regression of tomato growth by 63%, an accumulation of Na+ causing a reduction in K+ uptake and therefore an increase of photosynthetic processes (28, 28 and 23% for Chl. a, Chl. tot and Car., respectively), also an augmentation in soluble protein contents and a decrease or an increase in oxidative stress indicators and secondary metabolites depending on organs. UV-C seed priming has been shown to improve tomato growth by reducing the adverse effects of salinity on physiological and biochemical parameters. This research revealed that UV-C seed applications are an efficient approach to controlling the aggressiveness of salt stress on tomato roots and leaves. Specific doses of UV-C are required to trigger the physiological control of plants against salt stress.

Topics & Concepts

SalinityPriming (agriculture)PhotosynthesisSalt (chemistry)Oxidative stressHorticultureChemistryChlorophyllPlant growthBotanyBiologyFood scienceBiochemistryGerminationPhysical chemistryEcologyLight effects on plantsMagnetic and Electromagnetic EffectsSeed Germination and Physiology