Foliar Application of Iron Nanoparticles Improves Chinese Cabbage Growth.
Miaomiao He, Jialu Yu, Yuzhen Wei, Fahad Munir, Fasih Ullah Haider, Liqun Cai
Abstract
Open AccessIron deficiency limits plant growth and is usually addressed with iron fertilizers. Iron-based nanomaterials (nZVI, α-FeOOH, α-Fe2O3, γ-Fe2O3, and Fe3O4) show promise as novel alternatives, but the effects of sulfide nano-zero-valent iron (S-nZVI) on crops remain little studied. Thus, this study aimed to synthesize a novel iron-based nanomaterial, S-nZVI, using a one-step method, and to evaluate the effects of S-nZVI and nZVI at concentrations ranging from 5 to 100 mg L-1 on the physiological and photosynthetic characteristics of Chinese cabbage (Brassica rapa L.). In the study, foliar application of iron nanoparticles increased leaf area, biomass, and photosynthesis, with 50 mg L-1 the most efficient concentration (S-nZVI > nZVI). Moreover, the photosynthetic rate of the leaves increased significantly (>200%), and carbohydrate accumulation also increased significantly. Additionally, S-nZVI treatment increased leaf iron content by 5.8-fold compared to the control group, likely by enhancing the activity of antioxidant enzymes. However, the 100 mg L-1 S-nZVI treatment significantly inhibited these physiological and biochemical indicators. Overall, the foliar S-nZVI (50 mg L-1) enhanced Chinese cabbage growth by alleviating iron deficiency, boosting antioxidant activity, and reducing oxidative stress; further field trials are needed to verify its effectiveness and cost-efficiency.