Pine wilt disease (PWD) is one of the most serious forest tree diseases and now the damaged area covers 7,877 ha and more than 60 cities in Korea. The causal agent of PWD, Bursaphelenchus xylophilus is transmitted by the insect vectors, pine sawyers (Monochamus spp.). Spread of PWD damage and control effect for PWD are directly related to dispersal potential of Monochamus spp. vectors. Recently, harmonic radar technology has been applied as a means for tracking individual dispersal of tagged insects. Tracking insects with harmonic radar system is similar to a mark-and-recapture technique, in which an organism is tagged, released, and recaptured. Our objective is to develop a harmonic radar tracking system by using lightweight tags to investigate dispersal of Monochamus spp., insect vectors. The harmonic radar system consists of two parts: a commercially available, light-weight (1.6 kg), handheld transceiver (RECCO Rescue System) and a small tag that reflects the transceiver signal (917 ㎒) at harmonic frequencies (1,834 ㎒). A tag consists of a miniature diode (Toshiba ISS350) with wires (36-gauge tinned copper) soldered using conductive epoxy on each side to produce a dipole antenna. These tags were evaluated in an open field to assess their maximum detection range, and at tag length of 13 ㎝, the tag was detected at >100 m.

• Sang-Hyun Koh(Division of Forest Insect Pests & Diseases, Korea Forest Research Institute)
• Chan Sik Jung(Division of Forest Insect Pests & Diseases, Korea Forest Research Institute)
• Yeong-Jin Chung(Division of Forest Insect Pests & Diseases, Korea Forest Research Institute)
• Jung-Im Hong(Division of Forest Insect Pests & Diseases, Korea Forest Research Institute)
• Sang-Chul Shin(Division of Forest Insect Pests & Diseases, Korea Forest Research Institute)