This paper proposes a non-destructive technology to control subterranean termites Coptotermes curvignathus Holmgren infestations. In the experiment, the apparatus for termites control used electromagnetic waves at two frequencies: 300 Hz and 300 kHz. Termites were exposure to electromagnetic waves on direct methods with variation of exposure time 15, 30, 45 and 60 min respectively. The use of electromagnetic waves for termites control are very beneficial, they are odorless, noiseless, friendly to environment, and easy to apply. The result showed that electromagnetic waves had an effect to termites. The value of termites mortality was range between 25.45~82.27% and the average value of termites filter paper consumption was between 8.89~39.44%. Meanwhile on control treatment, termites mortality and termites filter paper consumption were respectively 14.05% and 79.88% in average. The highest frequency of electromagnetic waves and the longest irradiation time caused the highest average value of termites mortality. The magnitude field from apparatus was range between 0.069~0.1815 μT, which is safe to utilize around the human body. The best result was achieved on frequency 300 kHz and irradiation time 60 min. These results represent important information about the potential use of electromagnetic waves technology for termites control as an environmentally benign alternative in spite of the insecticides uses. 

Bergerioux. 2007. US Patent No 4,870,779

Brune A. 2007. Termites: Woodworker’s Digest, Nature (11) 450: 61-67

Fujii, Y. 2001. Detection of Termite Attack Using Acoustic Emission Monitoring: Feasibility of AE monitoring for the Ecological Study of Wood-Attacking Insects. Japan Journal of Environment Entomology Zoology l 2(1): 21-31.

Ju, Y.; Y. Hirosawa; M. Saka; H. Abe. 2003. Development of a Millimeter Wave Compact Equipment for NDT of Materials. International Journal of Infrared and Millimeter Waves. 24(3): 391-397.

Kato, M. 2006. Electromagnetics in Biology. Springer. Tokyo.

Kevin, J.; N. Kartal; B. Derk; K. Wyne. 2007. Positive Directed Movement of Termites by Radio Waves as a Basis for Control Procedures. Forest Product Journal 5(3): 237-241.

Kraus, J.D. 2006. Electromagnetics. Mc Graw Hill Inc. New York.

Kaestner, A.P.; L.B. Baath. 2005. Microwave Polarimetry Tomography of Wood. IEEE SENSORS Journal 5(2):209-215

Lee, C.Y.; C. Vongkaluang; M. Lenz. 2007. Challenges to Subterranean Termite Management of Multi-genera Faunas in Southeast Asia and Australia. Sociobiology 50: 213-221.

Liu. 2007. US Patent No 5,473,836

Mah. 2007. US Patent No 5,930,946

Nakai K.; T. Mitani; T. Yoshimura; N. Shinohara; K. Tsunoda; Y. Imamura. 2009a. Microwave Technology as a Non-Destructive Termite Control Method – Preliminary Results. Proceeding 6th Pacific Rim Termites Research Group. March 1-3 Kyoto Japan 88-91.

Nakai K; T. Mitani; T. Yoshimura; N. Shinohara; K. Tsunoda; Y. Imamura. 2009b. Effects of Microwave Irradiation on the Drywood Termite Incisitermes minor (Hagen). Japan Journal Environment Entomology Zoology 20 (4): 179-184

Nandika, D.; Y. Rismayadi; F. Diba. 2003. Rayap : Biologi dan Pengendaliannya. (Termites: Biology and Control). Textbook. Muhammadiyah University Press. Surakarta

Pederson. 2007. US Patent No 5,442,876

Supriyanto. 2007. Perambatan Gelombang Elektromagnetik Edisi I. Universitas Indonesia Press.

Thide Bo. 2008. Electromagnetic Field Theory. Upsilon Books Inc. Sweden

Tsunoda, K. 2005. Improved Management of Termites to Protect Japanese Homes. Proceeding of the 5th International Conference on Urban Pests July 10-13 Singapore: 33-37.