Abstract
Field trials were performed to examine the effects of foliar application of three silicon-based fertilizers (Potassium silicate, Agrisil, PQ Corporation, South Africa; Potassium silicate, NTS Australia and Silamol, Roam Chemie, Belgium) against sugarcane yellow mite Oligonychus sacchari on four sugarcane varieties: CP48-103, CP57-614, CP69-1062 and SP70-1143. Two applications of these fertilizers were applied before mite infestation, and the number of mites was recorded 10, 20, 30 and 40 days after second application of the silicon fertilizers. For evaluating the effects of silicon treatments on the predatory beetle, Stethorus sp.; the number of beetles was also recorded 10, 20, 30 and 40 days after second application of the silicon fertilizers. The results showed that there was a significant difference among silicon fertilizers and control group of mite and predatory beetle’s populations. The number of mites in the control group of all the varieties was between 9.17 and 14.02 after 40 days; whereas population density of mites reduced significantly in all the silicon treated plots in comparison with the control. In addition, population density of predatory beetles was affected by mite’s population and the number of beetles reduced in the treated plots. However, according to the importance of applying IPM programs in fields incorporating of acaricides with other reduce-risk strategies including biological control agents should be considered as a sugarcane IPM program.
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References
Anderson, David L., and Omelio Sosa Jr. 2001. Effect of silicon on expression of resistance to sugarcane borer (Diatraea saccharalis). Journal of American Society of Sugar Cane Technologists 21: 43–50.
Beard, Jennifer J., David Evans Walter, and Peter G. Allsopp. 2003. Spider mites of sugarcane in Australia: a review of grass-feeding Oligonychus Berlese (Acari: Prostigmata: Tetranychidae). Australian Journal of Entomology 42: 51–78.
Connick, Vanessa, Olivia L. Reynolds, Anthony Saliba, Geoff M. Gurr, Y. Guisard, A. T. Simmons, and H. I. Nicol. 2011. Effects of potassium silicate on grape wines constitutes and induce defenses against an Australian leaf roller pest and its natural enemies. In 5t h International Conference on Silicon in Agriculture. Beijing, China.
Correa, RogérioSB, JairCampos Moraes, AlexanderMachado Auad, and GeraldoAndrade Carvalho. 2005. Silicon and acibenzolar-S-methyl as resistance inducers in cucumber, against the whitefly Bemisia tabaci (Gennadius) (Hemiptera: Aleyrodidae) biotype B. Neotropical Entomology 34: 429–433.
Dağlı, Fatih, and Írfan Tunç. 2001. Dicofol resistance in Tetranychus cinnabarinus: resistance and stability of resistance in populations from Antalya, Turkey. Pest Management Science 57: 609–614.
de Almeida, Gustavo Dia, Dirceu Pratissoli, José Cola Zanuncio, Bernardo Vicentini Victor, Mathias Holtz Anderson, and Eduardo Serrao José. 2009. Calcium silicate and organic mineral fertilizer applications reduce phytophagy by Thrips palmi Karny (Thysanoptera: Thripidae) on eggplants (Solanum melongena L.). Interciencia 33: 835–838.
Epstein, Emanuel. 2009. Silicon: its manifold roles in plants. Annals of Applied Biology 155: 155–160.
Gatarayiha, Mutimura C., Mark D. Laing, and Ray M. Miller. 2010. Combining applications of potassium silicate and Beauveria bassiana to four crops to control two spotted spider mite, Tetranychus urticae Koch. International Journal of Pest Management 56: 291–297.
Gomes, Flávia Batista, Jair Campos Moraes, Custódio Donizete Santos, and Márcio Marcos Goussain. 2005. Resistance induction in wheat plants by silicon and aphids. Scientia Agricola 62: 547–551.
Guével, M.H., James G. Menzies, and R. Richard Bélanger. 2007. Effect of root and foliar applications of soluble silicon on powdery mildew control and growth of wheat plants. European Journal of Plant Pathology 119: 429–436.
Hunt, J.W., Andrew Peter, Rachel Dean, E. Webster, N. Giles, Roland Johnson, and A. Ennos. 2008. A novel mechanism by which silica defends grasses against herbivory. Annals of Botany 102: 653–656.
Keeping, Malcolm G., Jan H. Meyer, and Chandani Sewpersad. 2013. Soil silicon amendments increase resistance of sugarcane to stalk borer Eldana saccharina Walker (Lepidoptera: Pyralidae) under field conditions. Plant and Soil 363: 297–318.
Keeping, Malcolm G., and Olivia L. Kvedaras. 2008. Silicon as a plant defence against insect herbivory: response to Massey, Ennos and Hartley. Journal of Animal Ecology 77: 631–633.
Keeping, Malcolm G., Olivia L. Kvedaras, and Anthony G. Bruton. 2009. Epidermal silicon in sugarcane: Cultivar differences and role in resistance to sugarcane borer Eldana saccharina. Environmental and Experimental Botany 66: 54–60.
Korndörfer, Ana Paula, Eliane Grisoto, and José Djair Vendramim. 2011. Induction of insect plant resistance to the spittlebug Mahanarva fimbriolata Stål (Hemiptera: Cercopidae) in sugarcane by silicon application. Neotropical Entomology 40: 387–392.
Kvedaras, Olivia L., and Malcolm G. Keeping. 2007. Silicon impedes stalk penetration by the borer Eldana saccharina in sugarcane. Entomologia Experimentalis et Applicata 125: 103–110.
Kvedaras, Olivia L., M. An, Y.S. Choi, and G.M. Gurr. 2010. Silicon enhances natural enemy attraction and biological control through induced plant defences. Bulletin of Entomological Research 100: 367–371.
Laycock, D.S. 2004. Manual for field trials in plant protection, 444. Schwitzerland: Syngenta Agro.
Leslie, Graeme. 2004. Pests of sugarcane. In Sugarcane, ed. G. James, 78–100. Oxford: Blackwell Science.
Ma, Jian Feng. 2004. Role of silicon in enhancing the resistance of plants to biotic and abiotic stresses. Soil Science and Plant Nutrition 50: 11–18.
Ma, Jian, and Naoki Yamaji Feng. 2006. Silicon uptake and accumulation in higher plants. Trends in Plant Science 11: 392–397.
Massey, Fergus P., and Sue E. Hartley. 2009. Physical defences wear you down: progressive and irreversible impacts of silica on insect herbivores. Journal of Animal Ecology 78: 281–291.
Meyer, Jan H., and Malcolm G. Keeping. 2005. Impact of silicon in alleviating biotic stress in sugarcane in South Africa. Sugar Cane International 23: 14–18.
Moraes, Jair Campos, Márcio Marcos Goussain, Marco A.B. Basagli, Geraldo Andrade Carvalho, Carvalho C. Ecole, and Marcus V. Sampaio. 2004. Silicon influence on the tritrophic interaction: wheat plants, the greenbug Schizaphis graminum (Rondani) (Hemiptera: Aphididae), and its natural enemies, Chrysoperla externa (Hagen) (Neuroptera: Chrysopidae) and Aphidius colemani Viereck (Hymenoptera: Aphidiidae). Neotropical Entomology 33: 619–624.
Nikpay, Amin, Masoud Arbabi, and Morteza Kahrarian. 2011. Evaluation new acaricides in control of sugarcane yellow mite Oligonychus sacchari and effect on Stethorus punctillum in south western part of Iran. In Global Conference on Entomology. Chiang Mai: Thailand.
Nikpay, Amin, Masoud Arbabi, and Morteza Kahrarian. 2012. Potential application of Neem-Azal against spider mite Oligonychus sacchari on two sugarcane commercial cultivars. In 6th World Neem Conference. Nagpur: India.
Parella, Michael P., Tom P. Costamagna, and Roy Kaspi. 2007. The addition of potassium silicate to the fertilizer mix to suppress Liriomyza leafminers attacking chrysanthemums. Acta Horticulturae 747: 365–369.
Ranger, Christopher M., Ajay P. Singh, Jonathan M. Frantz, Luis Canas, James C. Locke, Michael E. Reding, and Nicholi Vorsa. 2009. Influence of silicon on resistance of Zinnia elegans to Myzus persicae (Hemiptera: Aphididae). Environmental Entomology 38: 129–136.
Reynolds, Olivia L., Malcolm G. Keeping, and Jan H. Meyer. 2009. Silicon-augmented resistance of plants to herbivorous insects: a review. Annals of Applied Biology 155: 171–186.
Savant, Narayan K., Gaspar H. Korndörfer, Lawrence E. Datnoff, and George H. Snyder. 1999. Silicon nutrition and sugarcane production: A review. Journal of Plant Nutrition 22: 1853–1903.
Sithole, Slindile B., Malcolm G. Keeping, Smit Michiel A., Neil Miles, Mkhize Njabulo D., and Nikki Sewpersad. 2011. Effect of water availability on silicon uptake by sugarcane and silicon-mediated resistance to Eldana saccharina Walker. Proceedings of the South African Sugar Technologists’ Association 84: 193–197.
Acknowledgments
We are grateful to Michele Paterson (Natural Plant Products Inc, Pretoria, South Africa), Hussein Yavari (NTS representative, Yazd, Iran) and Masoud Daniali (Roam-Chemie representative, Tehran, Iran) for kindly providing the samples for experimentations. The first author is very thankful to Dr Vanessa Connick (Charles Sturt University, Australia) for providing valuable references for this study. This paper is a part of the first author’s Ph.D. thesis and we are thankful to staff of plant protection department and the managing director of Salman Farsi Agro-Industry for technical support and providing fields for experiments.
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Nikpay, A., Soleyman Nejadian, E. Field Applications of Silicon-Based Fertilizers Against Sugarcane Yellow Mite Oligonychus sacchari . Sugar Tech 16, 319–324 (2014). https://doi.org/10.1007/s12355-013-0276-z
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DOI: https://doi.org/10.1007/s12355-013-0276-z