Wpływ nanokoloidów srebra i miedzi oraz nadtlenku wodoru na niektóre patogeny grzybowe warzyw

• Autorzy: Grzegorzewska M. , Kowalska B.

Warianty tytułu

EN

The influence of nano-silver, nano-copper and hydrogen peroxide on vegetable pathogens

• Języki publikacji: PL

Abstrakty

EN

Silver nanoparticles used in concentration 100 ppm inhibited S. sclerotiorum development on fresh cut carrot. The best results were obtained for nano-silver with diameter 8 nm (when the spraying was done twice: before and after fungus inoculation). Nano-copper and mixture of nano-silver and nano-copper did not affect the disease development. It was found that none of used nanopar-ticles (nano-silver, nano-copper, and mixture of nano-silver and nano-copper) inhibited B. cinerea mycelium growth on fresh cut cabbage and fresh cut onion. Huwa-San TR50 appeared to be effective against S. sclerotiorum if the pathogen inoculation was done after two and three days of vegetable spraying. Huwa-San did not influence on B. cinerea growth on cabbage and onion.

• Wydawca: -
• Czasopismo: Zeszyty Naukowe Instytutu Ogrodnictwa
• Rocznik: 2013
• Tom: 21
• Opis fizyczny: s.15-23,tab.,bibliogr.

Twórcy

autor

Grzegorzewska M.

• Instytut Ogrodnictwa w Skierniewicach, ul.Konstytucji 3 Maja 1/3, 96-100 Skierniewice

autor

Kowalska B.

• Instytut Ogrodnictwa w Skierniewicach, ul. Konstytucji 3 Maja 1/3, 96-100 Skierniewice

Bibliografia

• Abd-Elsalam K. 2013. Nanoplatforms for plant pathogenic fungi management. Fungal Genom. Biol. 2(2): e107. DOI: 10.4172/2165-8056.1000e107.
• Bill B., Orlikowski L.B. 2012. III Konferencja Naukowa – Nowe patogeny i choroby roślin. Skierniewice, s. 62.
• Ghormade V., Deshpande M.V., Paknikar K.M. 2011. Perspectives for nano-biotechnology enabled protection and nutrition of plants. Biotechnol. Adv. 29: 792-803.
• Jo Y., Kim B.H., Jung G. 2009. Antifungal activity of silver ions and nanoparticles on phytopathogenic fungi. Plant Dis. 93: 1037-1043.
• Jung J., Kim S., Min J., Kim Y., Lamsal K., Kim K.S., Lee Y.S. 2010. The effect of nano-silver liquid against the white rot of the green onion caused by Sclerotium cepivorum. Mycobiology 38(1): 39-45.
• Kaur P., Thakur R., Choudhary A. 2012. An in vitro study of the antifungal activity of silver/chitosan nanoformulations against important seed borne pathogens. International Journal of Scientific & Technology Research 1(6): 83-86.
• 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. Mycobiology 40(1): 53-58.
• Li H., Huang X., Li L., Liu J., Joyce D.C., He S. 2012. Efficacy of nano-silver in alleviating bacteria-related blockage in cut rose cv. Movie Star stems. Postharvest Biol. Tec. 74: 36-41.
• Liu J., He S., Zhang Z., Cao J., Lu P., He S., Cheng G., Joyce D.C. 2009. Nano-silver pulse treatments inhibit stem-end bacteria on cut gerbera cv. Ruikou flowers. Postharvest Biol. Tec. 54: 59-62.
• Lu P., Cao J., He S., Liu J., Li H., Cheng G., Ding Y., Joyce D.C. 2010. Nano-silver pulse treatments improve water relations of cut rose cv. Movie Star flowers. Postharvest Biol. Tec. 57: 196-202.
• Prabhu S., Poulose E.K. 2012. Silver nanoparticles: mechanism of antimicrobial action, synthesis, medical applications, and toxicity effects. Int. Nano Lett. 2: 32-41.
• Rai R.V., Bai J.A. 2011. Nanoparticles and their potential application as antimi-crobials. In: Mendez-Vilas A. (Ed.), Science against microbial pathogens: communicating current research and technological advances, 197-209.
• Safavi K., Esfahanizadeh M., Mortazaeinezahad F., Dastjerd H. 2011. The study of nano silver (NS) antimicrobial activity and evaluation of using NS in tissue culture media. Intenational Conference on Life Science and Technology. IPCBEE 3: 159-161.
• Sharon M., Choudhary A.K., Kumar R. 2010. Nanotechnology in agricultural diseases and food safety. Journal of Phytology 2(4): 83-92.
• Sokół J.L. 2012. Nanotechnologia w życiu człowieka. Economy and Management 1: 18-29.
• Wang X., Liu X., Han H. 2013. Evaluation of antibacterial effects of carbon nanomaterials against copper-resistant Ralstonia solanacearum. Colloid. Surface. B. 103: 136-142.
• Wojdyła A.T. 2012. Możliwość wykorzystania środka Huwa-San TR-50 w ochronie roślin ozdobnych przed patogenami nalistnymi. Prog. Plant Protect./Post. Ochr. Rośl. 52(1): 106-111.
• Wolny-Koładka K., Malina D., Sobczak-Kupiec A., Wzorek Z. 2013. Analiza toksyczności nanocząstek srebra w stosunku do grzybów z gatunku Fusarium culmorum izolowanych z pszenicy. 47 Ogólnopolska Konferencja Naukowa. Mikroorganizmy – roślina – środowisko w warunkach zmieniającego się klimatu, s. 269.

Uwagi

PL

Rekord w opracowaniu