Investigating the effects of silver nano particles on fungi flora of seeds of Chamran wheat cultivar
Subject Areas : Plant ProtectionMohsen Ghamari 1 , Masoud Latifian 2 , Mansour Farbod 3 , Nazanin Amir Bakhtiar 4
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Abstract :
This study was carried out in order to investigate the possibility of controlling seed-born disease of wheat Chamran cultivar by nano silver seed coating and indicate relevant concentration of nano silver on fungal seed-born of wheat at Khouzestan-Ramin Agricultural and Natural Resources University. Experiment was conducted in the form of completely randomized design with four replications and six treatments. Treatments included one level of disinfection by 2.5% sodium hypochlorite and five levels of seed coating by different concentration of silver nano particle (S1 = 1.30, S2 = 4, S3 = 6.70, S4 = 9.3 and S5 = 2666 mg of silver nitrate solution). Results showed that there was a significant difference among disinfection levels (P≤0.01) for disease index. In comparison with sodium hypochlorite, the Disease Index was declined about 50% by S1 treatment. The most favorable effect on decreasing Disease Index was observed with S5 treatment where it dropped up to 75%. According to results the mean of mortal concentration of nano silver on dominant species (Aspergillus sp.,fusarium graminiarum, Penicilium sp ., Torula sp., Alternaria alternaria) was calculated using Fini method in order to approach the finest concentration. The maximum LC50 was obtained for Torula sp. 1875.6 ml/lit and the minimum 0.02 ml/lit was for Aspergillus sp. and Alternaria alternaria. Regarding to this point that fungal seed-borne are active on seed bed in the form of a band, for approach to efficient disinfection it is essential to use the maximum needed concentration.
Abdi, G.H., Salehi, H. & Khosh-Khui, M. 2007. Antibacterial effects of nano silver in Valerian (Valeriana officinalis L.) tissue culture. First Conference of Nano-technology in Southern Region of Iran, Shiraz University.
Bateman, G. L & Kwasna, H. 1999. Effect of number of winter wheat crop grown successively on fungal communities on wheat root. Applied Soil Ecology, 13: 271-282.
Capdevill, G. D., Maffia, L. A., Finger, F. & Batista, U. G. 2004. Pre-harvest calcium sulfate application effects vase life & severity of gray mold in cultured roses. Sciential Hortuculture, 10: 329-338.
Dawson, W. A. J. M. & Bateman, G. L. 2001. Fungal communities on root of wheat and barley and effects of seed treatment containing fluquinconazole applied to control take- all. Plant Pathology, 50: 5-82.
Ehsanpour, A. A. 2012. Analysis affirmative and negative effects of nano particles and nano silver in particular on plants, animals and environment. 12th Agronomy and Plant Breeding Congress. Karaj.
Fakhrfeshani, M., Bagheri, A. & Sharifi, A. 2012. Disinfecting effects of nano silver fluid in Gerbera (Gerbera jamesonii) capitulum tissue culture. Journal of Biology and Environmenal Science, 6: 121-127.
Fakhrunnisa, M. H., Hashmi, H. & Ghaffar, A. 2009. Seed-born mycoflora of wheat, sorghum and barley. Pakistan Journal of Botany, 38: 185-192.
Farbod, M.. Batvandi, M, R. & Zargarshoushtari, M. 2007. Build and control the size of silver nanoparticles. first Conference south of Nonotechnology in southern region of Iran, shiraz Univercity.
Feizi, H. & Rezvani Moghadam, P. 2011. Influence of magnetic field and silver nano particles in comparison to macro and micro nutrient fertilizers on growth, yield and silage quality of Maize. Journal of water and soil, 24: 1062-1072
Forsberg, G. 2004. Control of Seed-born Disease by Hot Humid Air Seed Treatment. PhD. Thesis, Swedish university of agricultural sciences, Uppsala, Sweden.
Ghamari, M., Farbod, M., Gharineh, M. H., Bakhshandeh, A. M., Delfieh, M. & Behmanesh, M. 2011. Effects of silver nano particles seed coating on germination and early growth of wheat (Triticum aestivum L.) seedlings. Research on Crops, 13: 52-57.
Halt, M. 1994. Aspergillus flavus and aflatoxin B1 in flour production. European Journal of Epidermiology, 10: 555-558.
Hatami, M., Hatamizadeh, A., Ghasemnezhad, M. & Ghorbanpour. M. 2013. The comparison of antibacterial effects of silver nanoparticles (SNP) and silver nitrate to extend the vase life of red ribbon cut rose flowers. Trakia Journal of Sciences, 2: 144-151.
Karamkesh, M, M, Sarshar & Javanbakht, M. 2007. Application of silver nanoparticles on disposal of plant diseases and pests. first Conference south of Nonotechnology in southern region of Iran, shiraz Univercity.
Kaur, P., Thakur, R. and Choudhary, A. 2012. An in vitro study of the antifungal activity Silver/Chitosan nanoformulation against important seed borne pathogens. International Journal of Scientific & Technology Research, 1: 83-86.
Khanzada, K. A., Rajput, M. A., Shah, G. S. & Mehboob, F. 2002. Effect of seed dressing fungicides for the control of seed born mycoflora of wheat. Asian Journal of Plant Science, 4: 441-444.
Kim, S. W., Jung, J. H., Lamsal, K., Kim, Y. S., Min, J. S. & Lee, Y. S. 2012. Antifungal Effects of Silver nanoparticles (AgNPs) against various plant pathogenic fungi. Mycobilogy, 40: 53-58.
Kubiak, K. & Korbas, M. 1999. Occurrence of fungal diseases on selected winter wheat cultivares. Postepy w Ochronie Roslin, 39: 801-804. (in polish with English abstract).
Lisker, N. 1990. Improving wheat seedling emergence by seed protectant fungisides. Crop Protection, 9: 439-445.
Marcia, P. M., amd Arthur, L. H. 2000. Seed treatment for disease control. NDSU (North Dakota State University). Available from URL: http://www.ag.ndsu.edu/pubs/plantsci/crops/pp447/.htm
Silvestry, R. N., Sicairos, R. E., Gerba, C. P. & Bright, K. R. 2007. Silver as a disinfectant. Reviews of Environmental Contamination and Toxicology, 191: 23-45.
Stiff, C. M. 2005. Making Filters for cleaning small seeds. Kitchen Calture Kits, Inc. Available from URL: http://www.kitchenculturekit.com/filter.htm (accessed May 5. 2006).
Throne, L. E., Weaver, D. K., Chew, V. and Baker, J. E. 1995. Pro bit analysis of correlated data: multiple observations over time at one concentration. Journal of Economic Entomology, 88: 1510-1515.