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http://dx.doi.org/10.5656/KSAE.2014.10.0.044

Sampling Plan for Bemisia tabaci Adults by Using Yellow-color Sticky Traps in Tomato Greenhouses  

Song, Jeong Heub (Division of Sustainable Agricultural Research, Jeju Agricultural Research and Extension Services)
Lee, Kwang Ju (Division of Sustainable Agricultural Research, Jeju Agricultural Research and Extension Services)
Yang, Young Taek (Division of Sustainable Agricultural Research, Jeju Agricultural Research and Extension Services)
Lee, Shin Chan (Division of Sustainable Agricultural Research, Jeju Agricultural Research and Extension Services)
Publication Information
Korean journal of applied entomology / v.53, no.4, 2014 , pp. 375-380 More about this Journal
Abstract
The sweetpotato whitefly (SPW), Bemisia tabaci Gennadius, is a major pest in tomato greenhouses on Jeju Island because they transmit viral diseases. To develop practical sampling methods for adult SPWs, yellow-color sticky traps were used in commercial tomato greenhouses throughout the western part of Jeju Island in 2011 and 2012. On the basis of the size and growing conditions in the tomato greenhouses, 20 to 30 traps were installed in each greenhouse for developing a sampling plan. Adult SPWs were more attracted to horizontal traps placed 60 cm above the ground than to vertical trap placed 10 cm above the plant canopy. The spatial patterns of the adult SPWs were evaluated using Taylor's power law (TPL) and Iwao's patchiness regression (IPR). The results showed that adult SPWs were aggregated in each surveyed greenhouse. In this study, TPL showed better performance because of the coefficient of determination ($r^2$). On the basis of the fixed-precision level sampling plan using TPL parameters, more traps were required for higher precision in lower SPW densities per trap. A sequential sampling stop line was constructed using TPL parameters. If the treatment threshold was greater than 10 maximum adult SPWs on a trap, the required traps numbered 15 at a fixed-precision level of 0.25. In estimating the mean density per trap, the proportion of traps with two or more adult SPWs was more efficient than whole counting: ${\ln}(m)=1.19+0.90{\ln}(-{\ln}(1-p_T))$. The results of this study could be used to prevent the dissemination of SPW as a viral disease vector by using accurate control decision in SPW management programs.
Keywords
Tomato; Bemisia tabaci; Yellow-color sticky trap; Sampling plan; Dispersion index;
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Times Cited By KSCI : 2  (Citation Analysis)
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1 Coombe, P.E., 1982. Visual behavior of the greenhouse whitefly, Trialeurodes vaporariorum. Physiol. Entomol. 7, 243-251.   DOI
2 Gerling, A., Horowitz, A.R., 1984. Yellow traps for evaluating the population levels and dispersal patterns of Bemisia tabaci (Gennadius) (Homoptera: Aleyrodidae). Ann. Entomol. Soc. Am. 77, 753-759.   DOI
3 Green, R.H., 1970. On fixed precision sequential sampling. Res. Popul. Ecol. 12, 249-251.   DOI
4 Iwao, S., 1968. A new regression method for analyzing the aggregation pattern of animal population. Res. Popul. Ecol. 10, 1-20.   DOI
5 Kono, T., Sugino, T., 1958. On estimation of the density of rice stem borer. Jpn. J. Appl. Entomol. Zool. 2, 184-188.   DOI
6 Lee, M.H., Kang, S.K., Lee, S.Y., Lee, H.S., Choi, J.Y., Lee, G.S., Kim, W.Y., Lee, S.W., Kim, S.G., Uhm, K.B., 2005. Occurrence of the B- and Q-biotype of Bemisia tabaci in Korea. Korean J. Appl. Entomol. 44, 169-175.   과학기술학회마을
7 Lloyd, M., 1967. Mean crowding. J. Anim. Ecol. 36, 1-30.   DOI   ScienceOn
8 Muniz, M., 2000. Host suitability of two biotypes of Bemisia tabaci on some common weeds. Entomologia Experimentalis et Applicata. 95, 63-70.   DOI   ScienceOn
9 Naranjo, S.E., 1996. Sampling Bemisia for research and pest management applications, in Gerling, D., Mayer, R.T. (Eds.), Bemisia 1995: Taxonomy, Biology, Damage, Control and Management. Intercept Ltd. Andover, Hants, UK, pp. 209-224.
10 Naranjo, S.E., Flint, H.M., 1995. Spatial distribution of adult Bemisia tabaci (Homoptera: Aleyrodidae) in cotton and development and validation of fixed-precision sampling plans for estimating population density. Environ. Entomol. 24, 261-270.   DOI
11 Navas-Castillo, J., Fiallo-Olive, E., Sanchez-Campos, S., 2011. Emerging virus diseases transmitted by whiteflies. Ann. Rev. Phytopathol. 49, 219-248.
12 Oliveira, M.R.V., Henneberry, T.J., Anderson, P., 2001. History, current status and collaborative research project for Bemisia tabaci. Crop Protec. 20, 709-723.   DOI   ScienceOn
13 Palumbo, J.C., Tonhasca Jr., A.J., Byrne, D.N., 1994. Sampling plans and action thresholds for whiteflies on spring melons. Univ. Arizona, Coop. Ext. Publ. No. 196004, IPM Series 1, 2pp.
14 Park, J., Hemayyet Jahan, S.M., Song, W.G., Lee, H., Lee, Y.S., Choi, H.S., Lee, K.S., Kim, C.S., Lee, S., Lee, K.Y., 2012. Identification of biotypes and secondary endosymbionts of Bemisia tabaci in Korea and relationships with the occurrence of TYLCV disease. J. Asia Pac. Entomol. 15, 186-191.   DOI   ScienceOn
15 SAS Institute, 1999. SAS OnlineDoc, version 8. SAS Institute, Cary, NC.
16 Sokal, R.R., Rohlf, F.J., 1981. Biometry. 2nd ed., 887 pp. Freeman, New York.
17 van Lenteren, J.C., Woets, J., 1988. Biological and integrated pest control in greenhouses. Ann. Rev. Entomol. 33: 239-269.   DOI   ScienceOn
18 Southwood, T.R.E., 1978. Ecological methods, 2nd ed., Chapman and Hall, London.
19 Taylor, L.R., 1961. Aggregation, variance and the mean. Nature 189, 732-755.   DOI
20 Tonhasca, A., Palumbo, J.C., Byrne, D.N., 1994. Distribution patterns of Bemisia tabaci (Homoptera: Aleyrodidae) in cantaloupe fields in Arizona. Environ. Entomol. 23, 949-954.   DOI
21 Zhang, L.P., Zhang, W.J., Wu, Q.J., Xu, B.Y., Chu, D., 2005. Analysis of genetic diversity among different geographical populations and determination of biotypes of Bemisia tabaci in China. J. Entomol. 129, 121-128.