Preparation of Nanopartical Liquid Organic Fertilizer and its Effect on Various Crops

Authors

  • P. V. Dholakia  Assistant Professor, The H. N. S. B. Ltd. Science College, Himatnagar , Gujarat, India

Keywords:

Nanopartical Liquid Organic Fertilizer, Production of organic fertilizer.

Abstract

There is huge quantity of biomass produced; such as, by food processing industries, agricultural waste, meat industries waste etc available which is a great source of Plant nutrients and goes unexploited and generating Green house Gases(CHG). Management of landfills has always been a great challenge for urban local bodies. These landfills produces great amount of methane gas naturally by anaerobic fermentation process, which currently is not harnessed properly. These Biomass can be converted to utilization as an Organic fertilizer and thereby contributing towards overall agricultural revolution and reducing use of chemical Fertilizer. Fertilizers produced with nanotechnology are one of them. Fertilizers derived from nanotechnology have started to attract attention in agriculture nowadays. This study was undertaken to produce nanotechnology liquid organic fertilizer (NLOF) from various Biomass and its effects on the plant growth and yield. The experiment was carried out at Ahmedabad, Gujarat State of India. The fertilizer preparation results showed that an excellent analytical result achieved and the fertilizer treatments significantly improved the yield compared to control.

References

  1. Baruah S., Dutta J., 2009. Nanotechnology applications in pollution sensing and degradation in agriculture: A Review. Environ. Chem. Lett. 7(3), 191–204.
  2. DeRosa M.C., Monreal C., Schnitzer M., Walsh R, Sultan Y., 2010. Nanotechnology in fertilizers.
  3. Nat. Nanotechnol. 5(2), 91.
  4. Ditta A., 2012. How helpful is nanotechnology in agriculture? Adv. Nat. Sci.: Nanosci.
  5. Nanotechnol. 3, 10.
  6. Ekinci M., Dursun A., Y?ld?r?m E., Parlakova F., 2012. The effects of nanotechnological liquid fertilizers on plant growth and yield in tomato. 9. Ulusal Sebze Tar?m? Sempozyumu, 326–329, 14–12 Eylül, Konya, 2012 (Turkish).
  7. Ferbanat L, 2013. http://www.ferbant.com/, December.
  8. Khan W., Prithiviraj B., Smith D.L., 2003. Photosynthetic responses of corn and soybean to foliar application of salicylates. J. Plant Physiol. 160, 485–492.
  9. Mousavi S.R., Rezaei M., 2011. Nanotechnology in agriculture and food production. J. Appl.
  10. Environ. Biol. Sci. 1(10), 414–419.
  11. Nanonat, 2013. http://www.nanotim.com/index-tr.php., December.
  12. Neufeld H., Chappelka A.H., Somers G.L., Burkey K.O., Davison A.W., Finkelstein P., 2006.
  13. Visible foliar injury caused by ozone alters the relationship between SPAD meter readings and chlorophyll concentrations in cut leaf coneflower. Photosynth. Res. 87, 281–286.
  14. Srilatha B., 2011. Nanotechnology in agriculture. J. Nanomed. Nanotechnol. 2, 7, 5.
  15. Wang X., Song H., Liu Q., Rong X., Peng J., Xie G., Zhang Z., Wang S., 2011. Effects of nanopreparation coated nitrogen fertilizer on nutrient absorption and yield of early rice.
  16. http://enki.com.en/Article_en/.htm.
  17. Wu W., Mao Y., Liang Y., Zhu F., Sun G., 2012. Optimization of function parameters of nanomaterials on germination of paper. http://en.enki.com.en/Article_en/htm.

International Journal of Scientific Research in Science, Engineering and Technology

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Published

2016-12-30

Issue

Volume 2, Issue 6, November-December-2016

Section

Research Articles

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This work is licensed under a Creative Commons Attribution 4.0 International License.

How to Cite

[1]
P. V. Dholakia, " Preparation of Nanopartical Liquid Organic Fertilizer and its Effect on Various Crops, International Journal of Scientific Research in Science, Engineering and Technology(IJSRSET), Print ISSN : 2395-1990, Online ISSN : 2394-4099, Volume 2, Issue 6, pp.781-785, November-December-2016.