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Chitosan in agriculture context
- 2. Chitosan in Agricultural Context Supervisor Prof. Nirmal De Speaker Priyal Pandey Id. No. PS-13079 Enrolment No.339361 Department of Soil Science & Agril. Chemistry Institute of Agricultural Sciences Banaras Hindu University Varanasi-221 005 Course Seminar ON
- 3. Outline Brief History Introduction Sources of chitosan Properties of chitosan Multifarious application of chitosan in agriculture Conclusion
- 4. History 1811- Henry Braconnot identified chitin while conducting some experiment on mushroom, 1st polysaccharide identified by man. Chitin is a Greek word meaning tunic or envelope. 1843- Lassaigne showed the presence of nitrogen in chitin. 1859- C.Rouget subjected chitin to alkali treatment and found properties different from chitin. 1870- Hoppe Seiler has given the term chitosan. 1930- Rammelberg confirmed the sources of chitosan.
- 5. Sources of Chitosan Aquatic organism Shell of Shrimp Crabs Bone plates of squid Terrestial Crustacean Porcellio scaber Fungi Zygomycetes Gongronella butleri Mushroom •Agaricus biosporus •Pleurotus sajor caju •Armillaria mellea
- 7. NaOH treatment Acetic acid treatment Solid state fermentation Submerged fermentation
- 9. Properties of Chitosan Antimicrobial properties Plant growth promoter Swelling and gelling Ion binding properties Film forming Properties
- 10. Chitosan in Agricultural Context Plant defence mechanism Plant growth promotion, resistance against abiotic stress As bio pesticide Post harvest treatment Nutrient delivery mechanism Water retention in soil, as soil conditioner Heavy metal remediation Waste water treatment
- 11. Application of chitosan Soil Application Seed Coating Foliar application
- 12. Chitosan as Elicitor(Plant defence mechanism) •Activate scavenging of reactive oxygen and •Act as antioxidant Chitosan induces accumulation of lignin, callose, phytoalexin, etc in various plant tissues which helps in plant defence mechanism
- 13. Active oxygen
- 14. As antitransparent M. Iriti et al. / Environmental and Experimental Botany (2009) 66 : 493–500
- 16. Used for seed coating Changes permeability of seed plasma membrane. Increase sugar and proline content. Enhancing peroxidase activity.
- 17. Seed priming of chitosan under salt stress Mahdavi B, Rahimi A (2013) Seed priming with chitosan improves the germination and growth performance of ajowan (Carum copticum) under salt stress. Eurasia J Biosci 7: 69-76.
- 18. Defence against abiotic stress Farouk and Amadany, Egyptian Journal of Biology, 2012, (14) : 14-26
- 19. Antimicrobial Property • Bio Fungicide • Bio Insecticide • Bio Nematicide Note point- •Antimicrobial Properties depends on molecular weight, degree of deacetylation, nature of grafting. •No adverse effect on beneficial micro-organism is reported. •Antimicrobial properties increases with increase in deacetylation so it can be adjusted as per application.
- 20. Effect of chitosan on Helicoverpa armigera
- 21. Enhances shelf life of fruits
- 22. Changes rhizosphere population • Promote growth of Trichoderma spp. Aspergillus spp., Bacillus subtillis, Bacillus thurengenesis. • Act as a Nitrogen containing polysaccharide
- 23. Chitosan modification – Graft Polymerization Graft polymerization- ‘Grafting’ is a method wherein monomers are covalently bonded (modified) onto the polymer chain.
- 24. Process of Graft Polymerization
- 25. Chitosan based urea fertilizer water retention behaviour Mohammad et al International Conference on Mechanical Engineering Research (ICMER2013), 1-3 July 2013 More water retention
- 26. Improves slow release of fertilizer Lubkowski/Environmental Engineering and Management Journal 13 (2014), 10 : 2573-2581
- 27. Urea slow release behaviour
- 28. Removal of heavy metals from contaminated soil Jiang et al. Open Journal of Soil Science 2011 , 1, 70-76
- 29. Chitosan as flocculants Zou et al. 2006 environmental pollution 141 201-205 Removal efficiency of MA cells by chitosan-modified clays, soils and sediments in nature lake water (pH 7.4). Wide gap
- 32. How I am exploring this area As a source of slow release of potassium fertilizer in soil. For enhancement of water retention and water absorbing behaviour of soil. Utilize it as a polysaccharide source for increasing microbial population in soil. Analyze its effects on Alfalfa plant physiology.
- 33. Conclusion Chitosan (chitin) is second most abundant polysaccharide after cellulose. Chitosan based innovative technologies for promotion of agriculture may be explored. This is still not explored to greater extend. So its greater understanding and application is warranted.