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Impact of Silicon on Sugarcane Leafhopper, Pyrilla perpusilla Walker by Enhancing Parasitism of Epiricania melanoleuca (Fletcher)


Affiliations
1 Tamil Nadu Agricultural University, Agricultural College and Research Institute, Madurai – 625104, Tamil Nadu, India
2 Tamil Nadu Agricultural University, Agricultural College and Research Institute, Kudumiyanmalai – 622104, Tamil Nadu, India
3 Tamil Nadu Agricultural University, Grapes Research Station, Theni – 625526, Tamil Nadu, India
 

To evaluate the effect of four silicon fertilizers, field experiment was conducted in farmer’s holding at Poovanthi village of Sivagangai district, Tamil Nadu during 2017-2018 against sugarcane leaf hopper, Pyrilla perpusilla Walker and its parasitoid, Epiricania melanoleuca (Fletcher). Silicon fertilizers were applied @ 500 and 1000 kg ha-1 before planting and the leaf hopper population was recorded at 150, 180, 210, 240 and 270 days after application. The results of field experiment revealed that Pyrilla population was minimum in the plots treated with calcium silicate @ 1000 kg ha-1 (8.20 numbers/leaf) followed by calcium silicate @ 500 kg ha-1 (8.80 numbers/leaf) as compared over untreated check (98.20 numbers/leaf) and the percent reduction over untreated check was 82.45 and 73.71 per cent, respectively. Similarly, the per cent parasitism was maximum in the treatment with calcium silicate @ 1000 kg ha-1 (82.33%) during November, which was on par with untreated check. Hence, Pyrilla population declined to an extent of 82.45 per cent by enhancement of E. melanoleuca parasitism (82.33 %) due to the application of silicon fertilizers.

Keywords

Epiricania melanoleuca, Parasitism, Pyrilla perpusilla, Silicon Nutrition.
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  • Ahlawat DS, Kumar D. 2015. Impact of beneficial arthropods on sugarcane insect pests in Haryana. National Symposium on Integrated Pest Management for Sustainable Crop Protection. 60p.
  • Anonymous. 2015. Forth advance estimates of production of food grains for 2014-15. Agricultural statistics Division, Directorate of Economics and Statistics, Department of Agriculture and Cooperation, Government of India, New Delhi, 12p.
  • Costa RR, Moraes JC, Da Costa RR. 2011. Feeding behaviour of the greenbug, Schizaphis graminum on wheat plants treated with imidacloprid and/or silicon. J. Appl. Entomol. 135: 115–120. https://doi.org/10.1111/j.14390418.2010.01526.x
  • CPG. 2012. Crop Production Guide. Tamil Nadu Agric. Univ., Coimbatore and Department of Agriculture, Government of Tamil Nadu, India. 246-275 p.
  • Dias PA, Sampaio MV, Rodrigues MP, Korndorfer AP, Oliveira RS, Ferreira SE, Korndorfer GH. 2014.
  • Induction of resistance by silicon in wheat plants to alate and apterous morphs of Sitobion avenae (Hemiptera: Aphididae). Environ. Entomol. 43(4): 949–956. https:// doi.org/10.1603/EN13234 PMid:25182615
  • Gomes FB, Moraes JC, Santos CD, Antune CS. 2008. Use of silicon as inductor of the resistance in potato to Myzus persicae (Sulzer) (Hemiptera: Aphididae). Neotrop Entomol. 37:185–190. https://doi.org/10.1590/S1519566X2008000200013 PMid:18506299
  • Gomez KA, Gomez AA.1984. Statistical procedures for agricultural research. A Wiley International Science Publication, John Wiley and Sons, New York, 680p.
  • He W, Yang M, Li Z, Qiu J, Liu F, Qu X. 2015. High levels of silicon provided as a nutrient in hydroponic culture enhances rice plant resistance to brown planthopper. Crop Prot. 67: 20–25. https://doi.org/10.1016/j.
  • cropro.2014.09.013
  • Jena BC, Nayak N.1994. Integrated management of Pyrilla in sugarcane. Indian Sugar 44(7): 525–527.
  • Korndorfer PH, da Silva GC, Teixeira IR, da Silva AG, de Freitas RS. 2010. Effect of silicon fertilizer on forage grasses and soil chemical characteristics. Pesq Agropec Trop Goiania 40: 119–125.
  • Kvedaras OL, An M, Choi YS and Gurr GM. 2010. Silicon enhances natural enemy attraction and biological control through induced plant defenses. Bull Entomol Res. 100: 367–371. https://doi.org/10.1017/S0007485309990265 PMid:19737442
  • Mishkat U, Khalid M. 2007. Population dynamics of sugarcane plant hopper, Pyrilla perpusilla Walker (Lophopidae: Homoptera) and its natural enemies at District Mandi Baha-ud-din (Punjab). Pak J Zool. 39(3): 153–157.
  • Mumm R, Dicke M. 2010. Variation in natural plant products and the attraction of bodyguards involved in indirect plant defense. Can J Zool. 88: 628–667. https://doi.org/10.1139/Z10-032
  • Nikpay A, Soleyman EN. 2014. Field applications of siliconbased fertilizers against sugarcane yellow mite, Oligonychus sacchari. Sugar Tech. 16: 319–324. https://doi.org/10.1007/s12355-013-0276-z
  • Nikpay A, Soleyman EN, Goldasteh S, Farazmand H. 2015. Response of sugarcane and sugarcane stalk borers, Sesamia spp. (Lepidoptera: Noctuidae) to calcium silicate fertilization. Neotrop Entomol. 44: 498–503. https:// doi.org/10.1007/s13744-015-0298-1 PMid:26243329
  • Pandey KP, Pandey MN, Mishra VK, Singh S, Singh DN, Singh SB. 2008. Studies on the effect of eco-friendly bio-agent Epiricania melanoleuca for the control of Sugarcane Pyrilla (Pyrilla perpusilla) in eastern U.P. Indian J Agric Res. 23(2): 91–95.
  • Pereira RRC, Moraes JC, Prado E, Dacosta RR. 2010. Resistance inducing agents on the biology and probing behaviour of the greenbug in wheat. Sci Agric. 67: 430–434. https://doi.org/10.1590/S010390162010000400009
  • Phonde DB, Kaushik Banerjee. 2015. Soil silicon status and integrated use of silicate sources and silicate solubilizing bacterial culture in sugarcane. Int J Trop Agric. 33(4).
  • Qin Z, Tian SP. 2004. Enhancement of biocontrol activity of Cryptococcus laurentii by silicon and the possible mechanisms involved. Phytopathology 95: 69–75. https://doi.org/10.1094/PHYTO-95-0069 PMid:18943838
  • Reynolds OL, Keeping MG, Meyer JH. 2009. Siliconaugmented resistance of plants to herbivorous insects: a review. Ann Appl Biol. 155: 171–186. https://doi.org/10.1111/j.1744-7348.2009.00348.x
  • Schuman MC, Barthel K, Baldwin IT. 2012. Herbivoryinduced volatiles function as defenses increasing fitness of the native plant Nicotiana attenuate in nature. eLife1. 1: e00007.
  • Yang L, Han Y, Li P, Wen L, Hou M. 2017. Silicon amendment to rice plants impairs sucking behaviors and population growth in the phloem feeder Nilaparvata lugens (Hemiptera: Delphacidae). Sci Rep. 7: 1101. https:// doi.org/10.1038/s41598-017-01060-4 PMid:28439066 PMCid:PMC5430648

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  • Impact of Silicon on Sugarcane Leafhopper, Pyrilla perpusilla Walker by Enhancing Parasitism of Epiricania melanoleuca (Fletcher)

Abstract Views: 296  |  PDF Views: 150

Authors

V. S. Indhumathi
Tamil Nadu Agricultural University, Agricultural College and Research Institute, Madurai – 625104, Tamil Nadu, India
P. Chandramani
Tamil Nadu Agricultural University, Agricultural College and Research Institute, Kudumiyanmalai – 622104, Tamil Nadu, India
J. Jayaraj
Tamil Nadu Agricultural University, Grapes Research Station, Theni – 625526, Tamil Nadu, India
C. Chinniah
Tamil Nadu Agricultural University, Agricultural College and Research Institute, Madurai – 625104, Tamil Nadu, India
P. P. Mahendran
Tamil Nadu Agricultural University, Agricultural College and Research Institute, Madurai – 625104, Tamil Nadu, India
K. Kumutha
Tamil Nadu Agricultural University, Agricultural College and Research Institute, Madurai – 625104, Tamil Nadu, India

Abstract


To evaluate the effect of four silicon fertilizers, field experiment was conducted in farmer’s holding at Poovanthi village of Sivagangai district, Tamil Nadu during 2017-2018 against sugarcane leaf hopper, Pyrilla perpusilla Walker and its parasitoid, Epiricania melanoleuca (Fletcher). Silicon fertilizers were applied @ 500 and 1000 kg ha-1 before planting and the leaf hopper population was recorded at 150, 180, 210, 240 and 270 days after application. The results of field experiment revealed that Pyrilla population was minimum in the plots treated with calcium silicate @ 1000 kg ha-1 (8.20 numbers/leaf) followed by calcium silicate @ 500 kg ha-1 (8.80 numbers/leaf) as compared over untreated check (98.20 numbers/leaf) and the percent reduction over untreated check was 82.45 and 73.71 per cent, respectively. Similarly, the per cent parasitism was maximum in the treatment with calcium silicate @ 1000 kg ha-1 (82.33%) during November, which was on par with untreated check. Hence, Pyrilla population declined to an extent of 82.45 per cent by enhancement of E. melanoleuca parasitism (82.33 %) due to the application of silicon fertilizers.

Keywords


Epiricania melanoleuca, Parasitism, Pyrilla perpusilla, Silicon Nutrition.

References





DOI: https://doi.org/10.18311/jbc%2F2018%2F21489