Abstract
Potential role of triacontanol applied as a foliar treatment to ameliorate the adverse effects of salinity on hot pepper plants was evaluated. In this pot experiment, hot pepper plants under 75 mM NaCl stress environment were subjected to foliar application of 25, 50, and 75 µM triacontanol treatments; whereas, untreated plants were taken as control. Salt stress had a significant impact on morphological characteristics, photosynthetic pigments, gas exchange attributes, MDA content, antioxidants activities, electrolytes leakage, vitamin C, soluble protein, and proline contents. All triacontanol treatments significantly mitigated the adversative effects of salinity on hot pepper plants; however, foliar application triacontanol at 75 µM had considerably improved the growth of hot pepper plants in terms of plant height, shoot length, leaf area, plant fresh/dry biomasses by modulating above mentioned physio-biochemical traits. While, improvement in gas exchange properties, chlorophyll, carotenoid contents, increased proline contents coupled with higher SOD and CAT activities were observed in response to 75 µM triacontanol followed by 50 µM triacontanol treatment. MDA and H2O2 contents were decreased significantly in hot pepper plants sprayed with 75 µM triacontanol followed by 50 µM triacontanol foliar treatment. Meanwhile, root and shoot lengths were maximum in 50 µM triacontanol sprayed hot pepper plants along with enhanced APX activity on exposure to salt stress. In crux, exogenous application triacontanol treatments improved hot pepper performance under salinity, however,75 µM triacontanol treatment evidently was more effective in mitigating the lethal impact of saline stress via controlling the ROS generation and increment in antioxidant enzyme activities.
Highlights
Potential role of triacontanol applied as a foliar treatment to ameliorate the adverse effects of salinity on hot pepper plants was evaluated
It is evident from results that salt stress influenced plant growth and physio-biochemical attributes of hot pepper; while, maximum shoot length, root length, fresh/ dry biomass, and length were recorded in unstressed control plants
75 μM triacontanol proved to be most effective followed by 50 μM and 25 to μM triacontanol in enhancing the shoot length and other growth parameters including plant fresh/dry biomasses and leaf area; whereas, root length was relatively longer in case of 50 μM triacontanol treatment (Table 1)
Summary
Potential role of triacontanol applied as a foliar treatment to ameliorate the adverse effects of salinity on hot pepper plants was evaluated. Exogenous application triacontanol treatments improved hot pepper performance under salinity, ,[75] μM triacontanol treatment was more effective in mitigating the lethal impact of saline stress via controlling the ROS generation and increment in antioxidant enzyme activities. The application of triacontanol has been reported to enhance enzymatic and non-enzymatic antioxidants production to mitigate the negative effect of salt s tress[4,17,25] Keeping in view these facts, it is evident that triacontanol has positive impacts on plant growth even under abiotic stresses like salinity stress, and its role in comMercially and nutritionally important vegetables like hot pepper is yet to be explored. The current study was designed to investigate the potential role of foliarly applied triacontanol in alleviating salt stress and improving the growth of hot pepper plants under salinity-induced oxidative stress
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