Exogenous phosphite application alleviates the adverse effects of heat stress and improves thermotolerance of potato (Solanum tuberosum L.) seedlings

Phosphite (Phi), an analog of phosphate (Pi) anion, is emerging as a potential biostimulator, fungicide and insecticide. Here, we reported that Phi also significantly enhanced thermotolerance in potatoes under heat stress. Potato plants with and without Phi pretreatment were exposed to heat stress a...

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Published in:Ecotoxicology and environmental safety 2020-03, Vol.190, p.110048, Article 110048
Main Authors: Xi, Yupei, Han, Xiaoyun, Zhang, Zhizhong, Joshi, Jyoti, Borza, Tudor, Mohammad Aqa, Mohammadi, Zhang, Beibei, Yuan, Huimin, Wang-Pruski, Gefu
Format: Article
Language:English
Subjects:
Defense response
DNA Damage
Heat stress
Heat-Shock Response - drug effects
Metabolic alternations
Oxidative Stress
Phosphite application
Phosphites - pharmacology
Photosynthesis - drug effects
Photosystem II Protein Complex - metabolism
Potato
RNA-Seq
Seedlings - drug effects
Seedlings - genetics
Seedlings - immunology
Seedlings - metabolism
Solanum tuberosum - drug effects
Solanum tuberosum - genetics
Solanum tuberosum - immunology
Solanum tuberosum - metabolism
Thermotolerance - drug effects
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Summary:Phosphite (Phi), an analog of phosphate (Pi) anion, is emerging as a potential biostimulator, fungicide and insecticide. Here, we reported that Phi also significantly enhanced thermotolerance in potatoes under heat stress. Potato plants with and without Phi pretreatment were exposed to heat stress and their heat tolerance was examined by assessing the morphological characteristics, photosynthetic pigment content, photosystem II (PS II) efficiency, levels of oxidative stress, and level of DNA damage. In addition, RNA-sequencing (RNA-Seq) was adopted to investigate the roles of Phi signals and the underlying heat resistance mechanism. RNA-Seq revealed that Phi orchestrated plant immune responses against heat stress by reprograming global gene expressions. Results from physiological data combined with RNA-Seq suggested that the supply of Phi not only was essential for the better plant performance, but also improved thermotolerance of the plants by alleviating oxidative stress and DNA damage, and improved biosynthesis of osmolytes and defense metabolites when exposed to unfavorable thermal conditions. This is the first study to explore the role of Phi in thermotolerance in plants, and the work can be applied to other crops under the challenging environment. •Phosphite (Phi) functions as a biostimulator for better plant performance under heat stress.•Phi maintains photosynthetic efficiency, and reduces oxidative stress and DNA damage of plant under heat stress.•Phi effectively regulates heat stress responses by redirecting gene activities influencing many key cellular functions.•Phi induces accumulation of stress proteins and changes in metabolic processes under heat stress.
ISSN:0147-6513
1090-2414
DOI:10.1016/j.ecoenv.2019.110048