STABILITY OF RESISTANCE TO IMIDACLOPRID IN THE BROWN PLANTHOPPER (Nilaparvata lugens Stål.) FROM BANYUMAS, CENTRAL JAVA

https://doi.org/10.22146/jpti.43954

Danarsi Diptaningsari(1*), Y. Andi Trisyono(2), Aziz Purwantoro(3), Arman Wijonarko(4)

(1) Assessment Institute for Agricultural Technology Lampung, Ministry of Agriculture Jln. Hi. ZA Pagar Alam No. 1A, Rajabasa, Bandar Lampung 35145
(2) Department of Plant Protection, Faculty of Agriculture, Universitas Gadjah Mada Jln. Flora No. 1 Bulaksumur, Sleman, Yogyakarta 55281
(3) Department of Agronomy, Faculty of Agriculture, Universitas Gadjah Mada Jln. Flora No. 1 Bulaksumur, Sleman, Yogyakarta 55281
(4) Department of Plant Protection, Faculty of Agriculture, Universitas Gadjah Mada Jln. Flora No. 1 Bulaksumur, Sleman, Yogyakarta 55281
(*) Corresponding Author

Abstract


Imidacloprid is one of the insecticides that has been widely used to control the brown planthopper (Nilaparvata lugens Stål.). The excessive use of insecticides led to the development of insecticide resistance in N. lugens. This study was aimed to determine the stability of resistance to imidacloprid in N. lugens from Banyumas, Central Java Province. The five generations of selection increased the resistance ratio (RR) from 46.20-fold to 150.39-fold. To assess the stability of resistance to imidacloprid in N. lugens, the fifth generation was further reared for 10 generations without exposure to insecticides. The stability studies showed that resistance to imidacloprid was unstable with a decrease of resistance from 150.39-fold to 38.14-fold after 10 generations without selections. Continuous selections with imidacloprid for three generations could increase the resistance level from 150.39-fold to 216.13-fold. The unstable resistance could be managed by removing the selection pressure for a period of time or switching to insecticides with different mode of actions. Information regarding resistance stability would be useful to determine an effective resistance management strategies in N. lugens.


Keywords


imidacloprid; Nilaparvata lugens; resistance; unstable



References

Abbotts, W.S. 1925. A Method of Computing the Effectiveness of An Insecticide. Journal of Economic Entomology 18: 256-267.

Afzal, M.B., N. Abbas, & S.A. Shad. 2015. Inheritance, Realized Heritability and Biochemical Mechanism of Acetamiprid Resistance in the Cotton Mealybug, Phenacoccus solenopsis Tinsley (Homoptera: Pseudococcidae). Journal of Pesticide Biochemistry and Physiology 122: 44-49.

Baehaki, S.E., E.H. Iswanto, & D. Munawar. 2016. Resistensi Wereng Cokelat terhadap Insektisida yang Beredar di Sentra Produksi Padi. Penelitian Pertanian Tanaman Pangan 35: 99-108.

Bao, H., H. Gao, Y. Zhang, D. Fan, J. Fang, & Z. Liu. 2016. The Roles of CYP6AY1 and CYP6ER1 in Imidacloprid Resistance in the Brown Planthopper: Expression Levels and Detoxification Efficiency. Journal of Pesticide Biochemistry and Physiology 129: 70-74.

Basit, M., A.H. Sayyed, M.A. Saleem, & S. Saeed. 2011. Cross-resistance, Inheritance, and Stability of Resistance to Acetamiprid in Cotton Whitefly, Bemisia tabaci Genn (Hemiptera: Aleyrodidae). Crop Protection 30: 705-712.

Bass, C., A.M. Puinean, C.T. Zimmer, L.M. Field, S.P. Foster, O. Gutbrod, R. Nauen, R. Slater, & M.S. Williamson. 2014. The Evolution of Insecticide Resistance in Peach Potato Aphid, Myzus persicae. Insect Biochemistry and Molecular Biology 51: 41-51.

BB Padi (Balai Besar Penelitian Tanaman Padi). 2019. Peta Sebaran Serangan Wereng Batang Coklat. http://www.bbpadi.litbang.pertanian.go.id/index.php/pemetaan/content/ 444peta-sebaran-serangan-wereng-batang-coklat.html, modified 02/02/2019.

CABI (Centre for Agriculture and Bioscience International). 2019. Distribution Table of Nilaparvata lugens (Brown Planthopper). http://www.cabi.org/isc/datasheet/36301.html, modified 02/02/2019.

Ditjen PSP (Direktorat Jenderal Prasarana dan Sarana Pertanian). 2017. Pestisida Pertanian dan Kehutanan. Kementerian Pertanian RI. Jakarta. 1096 p.

Falconer, D.S. & T.F.C. Mackay. 1996. Introduction to Quantitative Genetics. Longman. England. 464 p.

Finney, D.J. 1971. Probit Analysis. 3rd Edition. Cambridge University Press. London. 333 p.

Gao, H., F. Lu, B. Zhai, M. Lu, W. Liu, F. Zhu, X. Wu, G. Chen, & X. Zhang. 2014. Outbreaks of the Brown Planthopper Nilaparvata lugens (Stål) in the Yangtze River Delta: Immigration or Local Reproduction?. Plos One  9: 1-12.

Gervais, J.A., B. Luukinen, K. Buhl & D. Stone. 2019. Imidacloprid Technical Fact Sheet. http://npic.orst.edu/factsheets/archive/imidacloprid.html, modified 22/01/2019.

Kavi, L.A.K., P.E. Kaufman, & J.G. Scott. 2014. Genetics and Mechanisms of Imidacloprid Resistance in House Flies. Journal of Pesticide Biochemistry and Physiology 109: 64-69.

Lan, Y.Q & S.X. Zhao. 2001. The Stability of Resistance to Three Pyrethroids in Spodoptera exigua Hübner. Chinese Journal of Pesticide Science 6: 77–80.

Liu, Z.W., Z.J. Han, Y.C. Wang, L.C. Zhang, H.W. Zhang, & C.J. Liu. 2003. Selection for Imidacloprid Resistance in Nilaparvata lugens (Stål): Cross-resistance Patterns and Possible Mechanisms. Pest Management Science 59: 1355–1359.

Liu, Z., M.S. Williamson, S.J. Lansdell, I. Denholm, Z. Han, & N.S. Millar. 2005. A Nicotinic Acetylcholine Receptor Mutation Conferring Target-site Resistance to Imidacloprid in Nilaparvata lugens (brown planthopper). PNAS 102: 8420-8425.

Londingkene, J.A., Y.A. Trisyono, Witjaksono, & E. Martono. 2016a. Resistance to Imidacloprid and Effect of Three Synergist on the Resistance Level of Brown Planthopper, p.1-5. In T.R. Nuringtyas, R. Roto, A. Widyaparaga, & M. Mahardika (eds.), Advances of Science and Technology for Society: Proceedings of the 1st International Conference on Science and Technology 2015 (ICST-2015). AIP Conference Proceedings, Yogyakarta.

Londingkene, J.A., Y.A. Trisyono, Witjaksono, & E. Martono. 2016b. Relative Fitness and Feeding Capacity of Imidacloprid Resistant Nilaparvata lugens. Jurnal Perlindungan Tanaman Indonesia 1: 43-39.

Matsumura, F. 1985. Toxicology of Insecticides. 2nd Edition. Plenum Press, New York. 598 p.

Matsumura, M. & S. Sanada-Morimura. 2010. Recent Status of Insecticide Resistance in Asian Rice Planthoppers. Japan Agricultural Research Quarterly 44: 225-230.

Oppold, A.M. & R. Müller. 2017. Epigenetics: A Hidden Target of Insecticides, p. 313-324. In H. Verlinden (ed.), Advances in Insect Physiology. Elsevier, London.

Puinean, A.M., I. Denholm, N.S. Millar, R. Nauen, & M.S. Williamson. 2010. Characterization of Imidacloprid Resistance Mechanisms in the Brown Planthopper, Nilaparvata lugens Stal (Hemiptera: Delphacidae). Journal of Pesticide Biochemistry and Physiology 97: 129-132.

Roush, R.T. & M.A. Hoy. 1990. Laboratory, Glasshouse and Field Studies of Artificially Selected Carboxyl Resistance in Metaseuilus occidentalis. Journal of Economic Entomology 74: 142–147.

Surahmat, E.C., Dadang & D. Prijono. 2016. Kerentanan Wereng Batang Cokelat (Nilaparvata lugens) dari Enam Lokasi di Pulau Jawa terhadap Tiga Jenis insektisida. Jurnal HPT Tropika 16: 71-81.

Ullah, S. & S.A. Shad. 2017. Toxicity of Insecticides, Cross-resistance and Stability of Chlorfenapyr Resistance in Different Strains of Oxycarenus hyalinipennis Costa (Hemiptera: Lygaeidae). Crop Protection 99: 132-136.

Wang, Y.H & M.H. Wang. 2007. Factors Affecting the Outbreak and Management Tactics of Brown Planthopper, Nilaparvata lugens (Stål) in China in Recent Years. Pesticide Science and Administration 29: 49–54.

Wang, Y.H., S.G. Wu, Y.C. Zhu, J.C. Feng, Y. Liu, X.P. Zhao, Q. Wang, Z.L.X.P. Bo, & J.L. Shen. 2009. Dynamics of Imidacloprid Resistance and Cross-resistance in the Brown Planthopper, Nilaparvata lugens. Pest Management Science 131: 20-29

Wen, Y., Z. Liu, H. Bao, & Z. Han. 2009. Imidacloprid Resistance and Its Mechanisms in Field Populations of Brown Planthopper, Nilaparvata lugens Stål in China. Journal of Pesticide Biochemistry and Physiology 94: 36-42.

Zhang, J., Y. Zhang, Y. Wang, Y. Yang, X. Cang, & Z. Liu. 2016. Expression Induction of P450 Genes by Imidacloprid in Nilaparvata lugens: A Genome-scale Analysis. Journal of Pesticide Biochemistry and Physiology 132: 59-64.

Zhang, X., X. Liao, K. Mao, P. Yang, D. Li, E. Alia, & H. Wan. 2017. The Role of Detoxifying Enzymes in Field-evolved Resistance to Nitenpyram in the Brown Planthopper Nilaparvata lugens in China. Crop Protection 94: 106-114.



DOI: https://doi.org/10.22146/jpti.43954

Article Metrics

Abstract views : 133

Refbacks

  • There are currently no refbacks.




Copyright (c) 2020 Jurnal Perlindungan Tanaman Indonesia

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

 height=auto

Jurnal Perlindungan Tanaman Indonesia ISSN 1410-1637 (print)ISSN 2548-4788 (online) Accredited Journal, Based on Decree of the Minister of Research, Technology and Higher Education, Republic of Indonesia Number 30/E/KPT/2018, Vol. 21 No. 1 the Year 2017 - Vol. 25 No. 1 the Year 2021Indexing & Abstracting , 

View My Stats