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http://dx.doi.org/10.5352/JLS.2019.29.2.202

Biological Response of Resistant Genes to Korean Brown Planthopper, Nilaparvata lugens Stål  

Choi, Nak Jung (Crop Foundation Division, National Institute of Crop Science)
Kim, Gwang-Ho (Crop Protestion Division, National Academy of Agricultural Science)
Baik, Chai-Hun (Rural Development Administration)
Lee, Bong-Choon (Crop Foundation Division, National Institute of Crop Science)
Publication Information
Journal of Life Science / v.29, no.2, 2019 , pp. 202-208 More about this Journal
Abstract
Brown planthopper (BPH), Nilaparvata lugens Stål (Hemiptera: Delphacidae), is one of the most important migratory pests damaging rice in Korea. It invades annually from tropical and subtropical areas via continental air streams. It is necessary to determine the resistance levels of rice varieties in order to control efficiency. The honeydew excretion, development, and reproduction of the migratory BPH were studied by region in a laboratory at $25{\pm}2^{\circ}C$ and $65{\pm}5%\;RH$ and a 16L: 8D photoperiodism conducted on three BPH resistant genes: Bph1, Bph2, and Bph18. The information obtained was reported using the jackknife method, and we created life table statistics accordingly. The feeding amount of Bph1 resistant gene was lower than that of resistant genes. The developmental periods of immature stages ranged from $13.7{\pm}0.10d$ on Bph2 (Namhae, 2015) to $18.5{\pm}1.06d$ on Bph2 (Sacheon, 2016). Reproductive period and female longevity were longest on the non-resistant genes, Bph2 and Bph18 (except 1980s), and the highest fecundity of N. lugens was observed on the two BPH resistant genes. Highest net reproductive rates ($R_0$) were calculated on Bph2 by region. Intrinsic rates of population increase ($r_m$) showed a difference in resistant genes by region. These population parameters showed that migratory regions and biological characteristics of N. lugens vary annually.
Keywords
Brown planthopper; development; life table; reproduction; resistant genes;
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1 Jena, K. K. and Kim, S. K. 2010. Current status of brown planthopper (BPH) resistance and genetics. Rice 3, 161-171.   DOI
2 Jena, K. K., Jeung, J. U., Lee, J. H., Choi, H. C. and Brar, D. S. 2006. High-resolution mapping of a new brown planthopper (BPH) resistance gene, Bph18(t), and marker-assisted selection for BPH resistance in rice (Oryza sativa L.). Theor. Appl. Genet. 112, 288-297.   DOI
3 Khush, G. S. and Virk, P. S. 2005. IR varieties and their impact, p. 163, International Rice Research Institute: Los Bans, Philippines.
4 Kim, W. J., Park, H. S., Kim, H. S., Ha, K. Y., Cho, Y. C., Lee, J. H. and Kim, B. K. 2016. Response to brown planthopper resistance genes at rice seedling stage. Kor. J. Breed. Sci. 48, 29-36.   DOI
5 Lee, J. H., Yeo, U. S., Kwak, D. Y., Park, D. S., Oh, B. G., Ku, Y. C., Kim, H. Y. and Sohn, J. K. 2005. QTL analysis for ripening traits of BPH resistant backcross inbred in rice. Kor. J. Breed. Sci. 37, 295-299.
6 Liu, Z., Li, D., Gong, P. Y. and Wu, K. J. 2004. Life table studies of the cotton bollworm, Helicoverpa armigera (Hubner) (Lepidoptera: Noctuidae), on different host plants. Environ. Entomol. 33, 1570-1576.   DOI
7 Maia, A. H. N., Luiz, A. J. B. and Campanhola, C. 2000. Statistical influence on associated fertility life table parameters using Jackknife technique: Computational Aspects. J. Econ. Entomol. 93, 511-518.   DOI
8 Paguia, P., Pathak, M. D. and Heinrichs, E. A. 1980. Honeydew excretion measurement techniques for determining differential feeding activity of biotypes of Nilaparvata lugens on rice varieties. J. Econ. Entomol. 73, 35-40.   DOI
9 Park, Y. D. and Song, Y. H. 1988. Preference, development and fecundity of the brown planthopper (Nilaparvata lugens Stal) biotypes fed on different cultivars of rice with various resistance gene. Kor. J. Appl. Entomol. 27, 87-93.
10 Alam, S. N. and Cohen, M. B. 1998. Detection and analysis of QTLs for resistance to the planthopper, Nilaparvata lugens, in a doubled-haploid rice population. Theor. Appl. Genet. 97, 1370-1379.   DOI
11 Awmack, C. S. and Leather, S. R. 2002. Host plant quality and fecundity in herbivorous insects. Annu. Rev. Entomol. 47, 817-844.   DOI
12 Heinrichs, E. A. 1986. Perspectives and directions for the continued development of insect-resistant rice varieties. Agric. Ecosyst. Environ. 18, 9-36.   DOI
13 Brar, D. S., Virk, P. S., Jena, K. K. and Khush, G. S. 2009. Breeding for resistance planthoppers in rice, pp. 401-409. In: Heong, K. L. and Hardy, B. (eds.), Planthoppers: New Threats to the Sustainability of Intensive Rice Production Systems in Asia. International Rice Research Institute Publishers: Los Bans, Philippines.
14 Choi, J. S. and Park, Y. D. 1999. Differences of the honeydew excretion in growing characteristics of the brown planthopper, Nilaparvata lugens Stal. biotypes on different cultivars of rice with various resistance genes. J. Life Sci. 9, 121-126.
15 Choi, N. J., Jeong, I. H., Kwon, D. H., Choi, M. Y. and Baek, C. H. 2017. Life table analysis of the brown planthopper, Nilaparvata lugens Stal (Hemiptera: Delphacidae) on rice of resistant cultivars. Kor. J. Environ. Biol. 35, 526-532.   DOI
16 Cohen, M. B., Alam, S. N., Medina, E. B. and Bernal, C. C. 1997. Brown planthopper, Nilaparvata lugens, resistance in rice cultivar IR64: mechanism and role in successful N. lugens management in Central Luzon, Philippines. Entomol. Exp. Appl. 85, 221-229.   DOI
17 Hackerott, H. L. and Harvey, T. L. 1971. Greenbug injury to resistant and susceptible sorghums in the field. Crop. Sci. 11, 641-643.   DOI
18 Hu, L. X., Chi, H., Zhang, J., Zhou, Q. and Zhang, R. J. 2010. Life-table analysis of the performance of Nilaparvata lugens (Hemiptera: Delphacidae) on two wild rice species. J. Econ. Entomol. 103, 1628-1635.   DOI
19 Hwang, I. C., Kim, J. H. and Song, Y. H. 2002. Changes in the fitness of brown planthopper, Nilaparvata lugens Stal. (Homoptera: Delphacidae) to several resistant rice varieties after multi-generational selection. Kor. J. Appl. Entomol. 41, 113-121.
20 Saxena, R. C. and Barrion, A. A. 1985. Biotypes of the brown planthopper Nilaparvata lugens (Stal) and strategies in deployment of host plant resistance. Insect Sci. Applic. 6, 271-289.
21 Seo, J. P., Jeong, J. U., Kim, Y. G., Jena, K. K., Cho, Y. C., Lee, J. H., Kim, M. K., Hong H. C., Lee, J. H., Kim, J. J., Choi, I. S., Jeong, E. G., Hwang, H. G., OH, S. K., Yang, C. I. and Shin, M. S. 2014. A brown planthopper resistant and high grain quality rice variety 'Anmi' developed by molecular breeding method. Kor. J. Breed. Sci. 46, 152-159.   DOI
22 Sogawa, K. and Pathak, M. D. 1970. Mechanism of brown planthopper resistance in Mudgo variety of rice (Hemiptera: Delphacidae). Appl. Ent. Zool. 5, 145-158.   DOI
23 Tanaka, K. and Matsumura, M. 2000. Development of virulence the resistant rice varieties in the brown planthopper, Nilaparvata lugens (Homoptera: Delphacidae), immigrating into Japan. Appl. Entomol. Zool. 35, 529-533.   DOI
24 Van Lanteren, J. C. and Noldus, L. P. J. J. 1990. Whitefly plant relationships, behavioural and ecological aspects, pp. 47-89. In: Gerling, D. (eds.), White Flies: Their Bionomics, Pest Status and Management. Intercept Press Publisher: Andover, UK.
25 Yeo, U. S. and Sohn, J. K. 1995. Effective screening methods and inheritance of resistance to brown planthopper (Nilaparvata lugens Stal.) in rice. Kor. J. Breed. 27, 372-379.