Exploring the reinforcing effect of nano-potassium on the antioxidant defense system reflecting the increased yield and quality of salt-stressed squash plants

光合作用 化学 南瓜 丙二醛 抗氧化剂 渗透调节剂 营养物 园艺 光合色素 土壤盐分 盐度 脯氨酸 植物 农学 食品科学 生物 生物化学 有机化学 生态学 氨基酸
作者
Mostafa M. Rady,Abdel‐Tawab H. Mossa,Asmaa M.A. Youssof,A. Osman,Safia M.A. Ahmed,Ibrahim A. A. Mohamed
出处
期刊:Scientia Horticulturae [Elsevier BV]
卷期号:308: 111609-111609 被引量:30
标识
DOI:10.1016/j.scienta.2022.111609
摘要

To explore the reinforcing effects of nano-potassium fertilizer (nano-K) on growth, yield and quality, physio-biochemical responses, antioxidant defense systems, antioxidant gene expressions, and nutrients of salt-stressed squash plants, field experiments were performed using normal (EC = 2.34 dS m−1) and saline (EC = 9.38 dS m−1) soils during the 2021 and 2022 seasons. The traditional recommended K at full dose (TRK100) or half dose (TRK50) was used in both soils. Salinity and/or TRK50 significantly decreased photosynthetic pigment contents (by 8.7−22.5%), photosynthetic efficiency (by 6.0−10.9%), relative water content (RWC by 5.0−5.1%), membrane stability index (MSI by 7.2−7.4%), nutrient contents (by 28.4−48.2%), K+/Na+ ratio (by 66.4−67.1%), which contributed to the decrease in growth (by 12.2−25.8%) and yield traits (by 4.2−28.5%), and fruit quality (by 8.5−19.7%) due to an increment of oxidative stress biomarker (O2•‒ by 32.4−52.9% and H2O2 30.4−57.1%) levels, electrolyte leakage (EL by 23.3−24.5%), malondialdehyde (MDA by 71.4−77.6%), and Na+ (by 55.5−56.9%). Under stress in both soils, foliar-applied 0.50 g nano-K L−1 suppressed the levels of O2•‒, H2O2, MDA, EL, and Na+, while noticeably increased photosynthetic pigment contents, photosynthetic efficiency, RWC, MSI, nutrient contents, K+/Na+ ratio, which were positively reflected in growth and yield traits, and fruit quality due to increased osmoprotectant and low-molecular-weight antioxidant contents, antioxidant enzyme activities and enzymatic gene expressions. Therefore, our findings recommend using nano-K as an effective strategy to promote antioxidant and photosynthetic machineries, minimize oxidative stress biomarkers and Na+ levels, boost tolerance to salt stress, and improve squash yield and yield quality under salt stress.
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