Molybdenum Role in Nitrogen Bioavailability of Wheat-Soil System Using the Natural 15N Abundance Technique

“…The nano-materials can be applied to large leaf surfaces to attach fertilizers and facilitate controlled delivery of targeted nutrients to promote vegetative growth, reproduction, owering, and crop protection, thus improving crop yield and productivity (Shang et al, 2019;Bindraban et al, 2020;Zahedi et al, 2020). Activating nanoparticles (NPs) in plants can produce a variety of responses by causing electron transfer, including an increase in enzyme activity, an acceleration of ammonia production, an intensi cation of respiration, an increase in photosynthesis, the creation of enzymes and amino acids, and the production of carbon and nitrogen (N) nutrients in different parts of the plants (Sutulienė et al, 2021;Moussa et al, 2022a;2022b). Additionally, the characteristics of this nano-fertilizer are an option for reducing the loss of nutrients to the broader environment caused by traditional fertilizers (Chaudhuri and Malodia, 2017;Singh et al, 2017;Kopittke et al, 2019).…”

Nano-Molybdenum is a valuable alternative to non-nano-Molybdenum fertilizers for winter wheat grown in acidic soil

“…The nano-materials can be applied to large leaf surfaces to attach fertilizers and facilitate controlled delivery of targeted nutrients to promote vegetative growth, reproduction, owering, and crop protection, thus improving crop yield and productivity (Shang et al, 2019;Bindraban et al, 2020;Zahedi et al, 2020). Activating nanoparticles (NPs) in plants can produce a variety of responses by causing electron transfer, including an increase in enzyme activity, an acceleration of ammonia production, an intensi cation of respiration, an increase in photosynthesis, the creation of enzymes and amino acids, and the production of carbon and nitrogen (N) nutrients in different parts of the plants (Sutulienė et al, 2021;Moussa et al, 2022a;2022b). Additionally, the characteristics of this nano-fertilizer are an option for reducing the loss of nutrients to the broader environment caused by traditional fertilizers (Chaudhuri and Malodia, 2017;Singh et al, 2017;Kopittke et al, 2019).…”

Nano-Molybdenum is a valuable alternative to non-nano-Molybdenum fertilizers for winter wheat grown in acidic soil

Fertilization effects on symbiotic and free-living biological nitrogen fixations: Similar effects but different mechanisms

Effects of molybdenum supply on microbial diversity and mineral nutrient availability in the rhizosphere soil of broad bean (Vicia Faba L.)