Nano-Fertilizers and Nano-Biofertilizers

Much of the fertilizers are unavailable to plants as they are lost as run-off causing pollution. Localized application of large amount of fertilizer, in the form of ammonium salts, urea and nitrate or phosphate compounds are harmful. Nanomaterials have potential contribution in slow release of fertilizers. Fertilizers with sulphur nanocoatings are useful slow release fertilizers. In addition to sulphur nanocoatings or encapsulation of urea and phosphate and their release will be beneficial to meet the soil and crop demands. Other nanomaterials with potential applications include kanolin and polymeric biocompatible NPs. We can use biodegradable, polymeric chitosan NPs for controlled release of the NPK fertilizer sources such as urea, calcium phosphate and potassium chloride. Biofertilizers are live formulations of beneficial microorganism such as the fungal mycorrhizae, plant growth promoting rhizobacteria  Rhizobium, Azotobacter, Azosprillum and blue green algae, phosphate solubilizing bacterial Pseudomonas sp and Bacillus sp. Some constraints in their widespread usage are short shelf life, lack of suitable carrier materials, susceptibility to high temperature, problems in transportation and storage.  Potential application of polymeric NPs are for coating of biofertilzer preparations to yield formulations that are resistant to desiccation. Micronutrients promote optimum plant growth. Supplementation of soil with micronutrients trapped in NMs for their slow release would promote plant growth and soil health.