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Immobilization of Titanium Dioxide based Nano-formulation for Enhancement of Plant growth under environmental Stress condition

  • Unique Paper ID: 153268
  • Volume: 8
  • Issue: 6
  • PageNo: 283-288
  • Abstract:
  • Microorganisms has a significant role in agriculture which they do by maintaining fertility and improving the quality of the soil. Increase in environmental pollution causes stress to plants in agriculture leading to the loss of yield,productivity,causing an imbalance in the food system and ecosystem.Plant growth promoting bacteria has been shown to show positive effects helping the plant growth . PGPR with nanobiotechnology plays an important role which has positive impact on plants. In order to know more about the detail advantages and positive and negative impacts of enginnered metals nanoparticles should be studied in more detailed form .Nanotechnology along with materials such as fibers, fertilizers and pesticides may produce positive revolutionary effects in the agricultural sector.The application of nanotechnology when inculcated with materials like silver, titanium, zinc with PGPR supports the positive growth in plants . Positive and negative effects has been observed on engineered metal nanoparticles on rhizobacteria. titanium dioxide nanoparticle applied to the roots of the plants for better production of crop,yield growth of the plant The synthesis of titanium dioxide nanoparticle was done by green synthesis characterized , by ,visiblitity using SEM,TEM spectroscopy .beads formed using cheap materials humic acid ,chitosan sodium alginate in Cacl2 solution .Beads characterized by spectroscopy further incorporating the beads which will be inoculated with specific microorganism culture in to the rhizosphere soil of the plant and to check out the results of the incorporated titanium dioxide in plants rhizsopheric soil under biotic stressfull condition .nanomaterials like zinc ,silver ,titanium shows positive growth results.
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Cite This Article

  • ISSN: 2349-6002
  • Volume: 8
  • Issue: 6
  • PageNo: 283-288

Immobilization of Titanium Dioxide based Nano-formulation for Enhancement of Plant growth under environmental Stress condition

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