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Seed priming with cold plasma improved early growth, flowering, and protection of Cichorium intybus against selenium nanoparticle

Sara Abedi, Alireza Iranbakhsh, Zahra Oraghi Ardebili, Mostafa Ebadi

2020Journal of theoretical and applied physics34 citationsDOIOpen Access PDF

Abstract

Plasma as a rapidly evolving technology has been succeeded to widely exploit in various industrial fields. We attempt to address the short- and long-time effects of seed priming with cold plasma in Cichorium intybus. The seeds were subjected to plasma (dielectric barrier discharge). The post-reactions of the plasma-primed seedlings were monitored in response to different concentrations (0, 2, and 10 mgl−1) of selenium nanoparticle (nSe). The plasma treatments enhanced seedling early growth in both shoot and roots. Besides, the simultaneous treatments of nSe of 2 mgl−1 and plasma synergistically improved seedling growth (mean = 78%). The plasma treatments mitigated the nSe10-associated phytotoxicity. The plasma and/or nSe treatments induced the enzyme activities of catalase (mean = 35%) and peroxidase (mean = 30%). In a complementary experiment, the long-time effects of plasma priming were monitored in plants grown under soil condition. The seed priming with cold plasma led to significant increases in shoot fresh mass (mean = 32%) and root biomass (mean = 26.8%). Moreover, the plasma-primed seedlings produced higher numbers of flowers (mean = 41.5%) and enhanced flower fresh weights (mean = 24%). The findings underline this hypothesis that exposure to plasma may associate with the activation of plant defense machinery and long-time modification in plant growth and development.

Topics & Concepts

CichoriumSeedlingCatalasePriming (agriculture)PlasmaShootHorticultureSeleniumChemistryBiologyBotanyAntioxidantBiochemistryPhysicsOrganic chemistryQuantum mechanicsPlant Stress Responses and ToleranceSeed Germination and PhysiologyPlasma Applications and Diagnostics