최근 소나무재선충병 항공방제를 위해 살포한 네오니코티노이드계 농약이 꿀벌 폐사에 영향을 미친다는 우 려와 이슈가 제기됨에 따라 산림청은 소나무재선충병 항공방제를 중지하고 해당 약제들을 방제용 약종 결정에 서 제외시켰다. 본 연구에서는 북방수염하늘소의 항공방제를 위해 꿀벌 독성이 낮은 살충제를 선발하여 살충효 과를 조사하고 향후 방제 약제로 활용하고자 한다. 꿀벌 독성이 낮은 살충제를 선발하기 위해 The Pestcide Manual Nineteenth Edition(BCPC)에서 살충제 원제 231 종을 대상으로 꿀벌에 대한 접촉독성이 100㎍/bee 이상인 원제 중에서 테트라닐리프롤 액상수화제, 아피도피로 펜 미탁제, 플로니카미드 입상수용제, 플루벤디아마이드 액상수화제, 피메트로진 입상수화제 5개의 약종을 선 발하였다. 선발한 약제 5종을 소나무재선충병의 매개충인 북방수염하늘소에 직접 분무하고 시간경과별 살충효 과를 조사한 결과, 피메트로진 입상수화제에서 분무 후 1일차에 약 53.3%의 가장 높은 방제율을 나타냈으며, 3일차에는 86.7%, 5일차에는 100%로 매우 효과적인 살충효과를 나타냈다.
The Japanese pine sawyer (JPS), Monochamus alternatus Hope, is an important vector of the pine wood nematode, Bursaphelenchus xylophilus (Steiner and Buhrer), which causes pine wilt disease. JPS selects a characteristic life cycle of a four- or five-instar pathway, which indicates the number of instars before pupation. In this study, we investigated the potential presence of a three-instar pathway and sought to determine the minimum larval age required for JPS to construct a pupal chamber. The results showed that no third instars made pupal chambers, suggesting that there is no three-instar pathway. The initiation time of digging the tunnel to make the pupal chamber ranged widely from Julian date 274 (30 September) to 332 (27 November). This timing became an average age stage of 4.8 instar, which equals an 80% completion of the fourth instar. Thus, the minimum larval age at which JPS constructs the tunnel to pupate the next year is estimated to be late in the fourth larval instar. Further, we discuss the diapause ecology in relation to the larval development of JPS in different thermal environments. Tentatively, we suggest that the regulation of diapause induction in JPS involves a dual process of reaching a critical developmental stage and stimulus (tentatively a cold temperature). This hypothesis will be helpful for future studies of diapause mechanisms and the selection of the instar-pathway in JPS and related species.
Japanese pine sawyer, Monochamus alternatus, is the main pest that mediates pine wilt nematode, Bursaphelenchus xylophilus, that causes serious damage to pine forests. In this study, we studied the strategy to control M. alternatus using entomopathogenic fungi. The fungi were collected from soil by an insect-baiting method and two fungal isolates (Metarhizium anisopliae JEF-197 and JEF-279) showed high virulence against M. alternatus. The Metarhizium isolates were evaluated for insecticidal activity against M. alternatus by spray treatment on live pine trees and wintering trees, and the M. anisopliae JEF-197 showed high insecticidal activity. In addition, the interaction of fungi and M. alternatus were analyzed by RNA-seq. This result can contribute to the development of insect control agents using entomopathogenic fungi.
소나무재선충병의 나무주사는 살선충제를 중심으로 실시되어 왔으며, 매개충인 솔수염하늘소와 북방수염하늘소의 방제는 주로 항공방제나 지상방제를 통하여 이루어졌다. 본 연구에서는 나무주사를 통하여 매개충 (솔수염하늘소)을 방제하기 위한 연구로 Abamectin+Acetamiprid ME, Thiamethoxam DC 약제의 나무주사시 솔수염하늘소의 약효발현농도, 처리 후 기간별 효과(2017년~2018년)를 검토하였다.
실내 발현농도 시험에서는 Acetamiprid, Thiamethoxam LC50 value는 각각 0.102ppm, 0.083ppm 으로 나타 났으며, 야산(포장)에서 Abamectin+Acetamiprid ME, Thiamethoxam DC 처리구의 100.0% 치사 소요일 수는 처리 90일 후 11.0일, 9.4일, 처리 360일 후 11.6일, 10.0일로 나타나서 두 약제 모두 3월 처리시 다음해에 발생하는 매개충 (솔수염하늘소) 방제까지 가능함을 확인 할 수 있었다.
The entomopathogneic fungal colonization has become an interesting issue in ecological pest management. Plant-orientedfungi induce plant growth promotion and act as natural control agents against insect pest. Herein this work, we evaluatedthe ability of fungal colonization on bark, branches and leaves of pine tree (Pinus densiflora) to select optimal candidatesfor controlling Japanese pine sawyer (Monochamus alternatus), which is the pine wilt disease vector in Korea. As a result,some Beauveria and Metarhizium isolates could colonize on the substrates of P. densiflora and showed pathogenicity againstM. alternatus. This result suggests that the selected entomopathogenic fungi are possibly candidates for long-term managementof M. alternatus in pine tree forest.
Japanese pine sawyer, Monochamus alternatus HOPE (Coleoptera: Cerambycidae) are considered as important pine forestinsect pests in several countries which transmits the pine wood nematode, Bursaphelenchus xylophylus. In this study, wetried to control Japanese pine sawyer using entomopathogenic fungi to prevent the spread of pine wilt disease in Korea.Several entomopathogenic fungi were exposed to the adults of Japanese pine sawyer and mycosis was observed in themembranous cuticles after 6 days. In particular, two isolates showed high virulence against the adults. The selected 2isolates were sprayed to the adults at 1×105, 1×106 and 1×107 conidia/ml. In the concentration of 1×107 conidia/ml, thesurvival rates of insects were 40% and 47%, respectively. Based on these results, the possibility of controlling the Japanesepine sawyer was confirmed.
The longhorn pine sawyers, Monochamus saltuarius and M. alternatus (Coleoptera: Cerambycidae), are vectors of the pinewood nematode Bursaphelenchus xylophilus (Nematoda: Parasitaphelenchidae), the causal pathogens of pine wilt disease in Korea. Recently, an aggregation pheromone, 2-(undecyloxy)ethanol, identified from M. galloprovincialis and M. alternatus, was shown to be effective for attracting several Monochamus species in Europe, North America, and East Asia. However, the effect of 2-(undecyloxy)ethanol on attracting M. saltuarius remains largely unraveled. In this study, we investigated the abilities of 2-(undecyloxy)ethanol along with host plant volatiles (α-pinene and ethanol) to attract M. saltuarius at a pine forest in Cheongsong, Gyeongsangbuk-do, Korea. Pine trees in the field experiment site were not previously affected by pine wilt disease. The combination of 2-(undecyloxy)ethanol with host plant volatiles was more effective than either of 2-(undecyloxy)ethanol or host plant volatiles for attracting M. saltuarius. Both sexes of M. saltuarius were attracted to traps containing 2-(undecyloxy)ethanol with the host plant volatiles. Our study suggests that the aggregation pheromone in combination with host plant volatiles could be used for detection and population monitoring of M. saltuarius as well as for effective mass trapping in outbreak situations.
The pine wilt disease that blocks the path for water and nutrition in pine trees is caused by the nematode, Bursaphelenchus xylophilus (Nematoda: Aphelenchoididae). The nematode relies on the longhorn pine sawyer beetle Monochamus alternatus and Monochamus saltuaris (Coleoptera: Cerambycidae) as vectors. Recently, 2-(undecyloxy)ethanol was identified as a male-produced aggregation pheromone of Monochamus species. In this study, we investigated the effect of 2-(undecyloxy) ethanol along with host plant volatiles -pinene and ethanol on attracting M. alternatus at a pine forest in Pohang, Korea from May, 2014 to July, 2014. To sustain the volatility of 2-(undecyloxy)ethanol and host plant volatiles, a superabsorbent polymer based on polyacrylic acids and water were added to the pheromone mixture. A total of 46 M. alternatus were collected from two field bioassays. Our results indicate that 2-(undecyloxy)ethanol is effective in attracting M. alternatus in Korea. Our study suggests that the aggregation pheromone could be used for detection and population monitoring of the beetles as well as for the effective mass trapping in outbreak situations.
Thermal death kinetics of the Japanese pine sawyer, Monochamus alternatus, was investigated to develop a heat treatment method that controls the pest in wood packing materials used in the export of goods. To determine the feasibility of microwave irradiation as an alternative treatment, laboratory experiments were performed on blocks (200x200x250 mm) of Douglas fir artificially infested with live larvae and pupae irradiating the blocks with 2.45 GHz of microwave energy. One hundred percent mortality of larvae and pupae of Japanese pine sawyer was observed by hot water treatment at 64°C and 68°C, respectively. One hundred percent mortality of treated Japanese pine sawyer was achieved above 67°C for larvae and 70°C for pupae based on the measured wood temperature, regardless of the irradiation time.