Lytic polysaccharide monooxygenases (LPMOs) catalyze the oxidative cleavage of glycosidic bonds in crystalline polysaccharides including chitin and cellulose. The recent discovery of LPMO family proteins in many insect species suggests that they presumably play a role in chitin degradation in the cuticle/exoskeleton, tracheae and peritrophic matrix during insect development. Insect LPMOs belong to auxiliary activity family 15 (AA15/LPMO15) and have been classified into at least four groups based on phylogenetic analysis. In this study, we identified and investigated the physiological functions of group I LPMO15 (MaLPMO15-1 and PhLPMO15-1) in two longhorn beetle species, Monochamus alternatus and Psacothea hilaris. In both species, depletion of LPMO15-1 transcripts by RNAi resulted in a lethal pupal-adult molting defect. The insects were unable to shed their old pupal cuticle and died entrapped in their exuviae. Furthermore, TEM analysis revealed a failure of degradation of the chitinous procuticle layer of their old cuticle, retaining intact horizontal laminae and vertical pore canals containing perpendicularly oriented chitin fibers (pore canal fiber, PCF) in their core. These results indicate that MaLPMO15-1 and PhLPMO15-1 are required for turnover of the chitinous old cuticle, which is critical for insect molting.

This study investigates the impact of Bursaphelenchus xylophilus infection on the gut bacterial communities of the pine sawyer beetle, Monochamus alternatus, with a distinction between male and female individuals. Utilizing specific primers, we determined the infection status and analyzed the bacterial composition across different taxonomic levels. Regardless of infection status or sex, Proteobacteria and Firmicutes were found to dominate the phylum level, with significant contributions from Actinobacteria and Bacteroidetes. At the class level, Bacilli, Gammaproteobacteria, Alphaproteobacteria, and Actinobacteria emerged as prevalent groups. Meanwhile, the genus level was characterized by a high abundance of Lactobacillus, Rickettsia, Bacillus, and Rahnella. Our analysis of alpha diversity metrics, including Observed Species, Shannon Index, Inverse Simpson Index, and Phylogenetic Diversity, revealed no significant differences attributable to B. xylophilus infection; however, notable variations were observed between sexes. Principal Coordinates Analysis and Non-metric Multidimensional Scaling further underscored that the differences in gut bacterial communities were more pronounced between male and female beetles than between infected and uninfected individuals. These findings highlight the influence of host sex over infection status in shaping the gut microbiome of Monochamus alternatus, providing new insights into the complex interactions between host biology, gut microbiota, and pathogen infection.

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.

우리는 솔수염하늘소(Monochamus alternatus) 장에 존재하는 공생미생물들을 분리하였다. 그중 다양한 식물 들을 대상으로 성장 촉진 효과가 보고된 세균을 단일배양 분리하였다. 이 세균은 16S rRNA sequencing을 통하여 Enterobacter roggenkampii로 동정되었다. 우리는 분리된 E. roggenkampii에 대하여 genomic sequencing을 수행하 였고 유전학적 특성을 확인하였다. 우리는 E. roggenkampii가 식물의 성장을 촉진할 수 있는 다양한 유전자들을 가지고 있는 것을 확인하였고 그 중 IAA-Asp hydrolase 유전자를 가지고 있음을 알 수 있었다. 동시에, 분리된 E. roggenkampii와 같은 속의 세균을 대상으로 다양한 API kit와 기질 첨가 배지를 이용하여 생화학적 특성을 비교하였다. 향후 IAA-Asp 가수분해효소를 생산하는 잠재적인 식물 생장 촉진 비료 미생물로 등록하여 다양한 작물을 대상으로 생장 촉진 효과를 확인할 것이다.

Paecilomyces tenuipes (P. tenuipes) is a fungus cultivated artificially by South Korean researchers, utilizing rice bran as its substrate. The increased demand for this fungus has not been met with successful cultivation methods for fruiting body production in natural environments. Therefore, we tested the effect on the growth of P. tenuipes using a Solid media based on pests. In this results, the Solid media based on M.alternatus was effective in increasing the growth of P. tenuipes and the content of cordycepin. Moreover, we confirmed the conditions for manufacturing a Solid media based on M.alternatus for P. tenuipes growth. We suggested that the growth-promoting compounds offers valuable insights for optimizing fungal cultivation conditions, thereby enhancing productivity and contributing to a broader understanding of fungal physiology in varying nutritional environments.

Insect cuticle is an extracellular matrix formed primarily from two different biopolymers, chitin and protein. During each molt cycle, a new cuticle is deposited simultaneously with degradation of the old cuticle by molting fluid cuticle degrading-enzymes, including epidermal chitinases (CHTs). Insect CHTs, belonging to family 18 glycosylhydrolase (GH18), have been classified into at least eleven subgroups based on phylogenetic analyses, and group I (CHT5) and group II (CHT10) epidermal CHTs present in molting fluid. In this study we report the physiological function of MaCHT5 and MaCHT10 in the Japanese pine sawyer, Monochamus alternatus. RNAi for either MaCHT5 or MaCHT10 resulted in larval-pupal and pupal-adult molting defects, in which the insects were unable to shed completely their old cuticle and died entrapped in their exuviae. Furthermore, TEM analysis revealed a failure of degradation of the old cuticle in both MaCHT5- and MaCHT10-deficient pharate adults. In the old pupal cuticle, the chitinous horizontal laminar and vertical pore canal essentially remained intact in the endocuticular layer. These results indicate that both CHTs are required for turnover of the chitinous old cuticle, which is critical for completion of insect molting. We also discuss the possible function of two spliced variants of MaCHT10, MaCHT10a and MaCHT10b.

Lytic polysaccharide monooxygenases (LPMOs) catalyze the oxidative cleavage of glycosidic bonds in crystalline polysaccharides including chitin and cellulose. The recent discovery of LPMO family proteins in many insect species suggests that they presumably play a role in chitin degradation in the cuticle/exoskeleton, tracheae and peritrophic matrix during insect development. Insect LPMOs belong to auxiliary activity family 15 (AA15/LPMO15) and have been classified into at least four groups based on phylogenetic analysis. In this study, we identified, characterized and investigated the physiological functions of group I LPMO15 (MaLPMO15-1 and PhLPMO15-1) in two longhorn beetle species, Monochamus alternatus and Psacothea hilaris. In both species, depletion of LPMO15-1 transcripts in last instar larvae by RNAi had no effect on subsequent larval-pupal molting and the resulting pupae developed normally. However, adverse effects on their development were observed during the pupal-adult molting period. The pharate adults were unable to shed their old pupal cuticle and died entrapped in their exuviae probably due to a failure of degradation of the chitin in their old cuticle, which is critical for completion of the insect molting and continuous growth.

본 연구에서는 소나무재선충의 매개충인 솔수염하늘소와 북방수염하늘소에 대하여 무인항공기 (무인헬리콥터)를 이용하여 스피네토람의 약효 및 약해를 조사하였다. 하늘소를 대상으로 등록된 펜토에이트 유제, 비펜트린 액상수화제, 하늘소를 제외한 딱정벌레가 대상인 에토펜프록 스 유제, 디플루벤주론 수화제와 나방류에 방제 약제로 등록된 인독사카브 수화제, 스피네토람 액상수화제 6종을 ULV기로 살포하여 솔수염하 늘소에 대한 섭식독과 접촉독을 확인한 후 선발하였다. ULV 시험 결과, 펜토에이트, 비펜트린, 인독사카브, 스피네토람의 33배, 55배 희석배수 액은 처리후 3일차에 접촉독과 섭식독에서 100% 살충율을 보였으나, 에토펜프록스는 7일차 접촉독 살충율 88.9%(33배), 88.9%(50배), 섭식독 살충율 93.4%(33배, 50배), 디플루벤주론은 7일차 접촉독 살충율 83.3%(33배), 섭식독 80.3%, 53.9%(50배)로 조금 낮은 살충률을 보였다. ULV 시험에서 선발된 가장 적합한 스피네토람의 33배액을 무인항공기로 살포하여 솔수염하늘소와 북방수염하늘소에 대한 감수성을 평가한 결 과, 98.6% - 100%의 살충율을 보였다. 그러나, 해당 약제의 매개충 방제에 적용하기 전에 항공 살포에 의한 꿀벌에 대한 위해성 평가가 필요할 것 으로 판단되었다.

In this study, we investigated the effect of solid culture medium on the production of cordycepin in Cordyceps militaris. The regression equation was expressed as follows: Y1= 755.3-58.6625X1+4.79432E-14X2-46.6625X3-5.66269E-14X1X2- 0.025X1X3+1.62475E-14X2X3-160.6625X1 2+0.0125X2 2-206.9625X3 2, where, Y represents the value of cordycepin content (μg/g), X1 corresponds to the weight of M. alternatus in solid culture medium (g/bottle), X2 to the water content of the solid culture medium (%), and X3 to the culture period (day). The solid culture medium was optimized using the response surface methodology, and the optimal medium composition was as follows: the weight of M. alternatus in solid culture medium and water content were 16.2% and 100.7% (20.14 mL water/20 g solid culture medium), respectively, with a culture period of 39 days. Under these conditions, the cordycepin content of the fruiting bodies reached 150.0 μg/g (actual value). The supplementation of M. alternatus in solid culture for improved cordycepin content of C. militaris seems to be a promising alternative to wild and solid cultivation.

소나무재선충병의 예방을 위하여 실시하는 예방나무주사는 소나무재선충 피해를 예방할 수 있는 매우 효과적인 방제방법이지만 매개충에 대해서는 효과가 밝혀진 바 없다. 본 연구는 살선충제와 살충제가 혼합된 약제를 소나무재선 충병 방제를 위해 나무주사를 실시하면 매개충에 대한 구제와 소나무재선충에 대한 예방효과가 동시에 가능한 방제방법을 개발하기 위하여 실시하였다. Abamectin+Sulfoxaflor DC을 비롯한 3개 약종을 각 2,000배로 희석한 후 솔수염하늘소에 2㎕를 경구투여하여 소화중독에 의한 살충효과를 평가하였다. 살충제 경구 투여 후 신경흥분에 의한 경련반응을 조사한 조사한 결과 Emamectin benzoate+Acetamiprid DC의 경우 경련비율이 가장 높게 나타났으며, 반수치사시간(LT50)도 암컷은 122.18시간, 수컷은 139.55시간으로 나타나 소화중독 효과가 우수한 것으로 나타났다. 따라서 합제를 이용하여 소나무재선충병 매개충 방제와 소나무재선충의 예방효과를 위한 나무주사시에는 Emamectin benzoate+Acetamiprid DC가 매개충에 대한 살충효과가 가장 우수한 것으로 나타났다.

Monochamus alternatus which is major vector for Bursaphelenchus xylophilus is main pest for pine trees. Moreover, their larvae mainly feed on the phloem of the host during the growth period, and this process makes host debilitate. The reason why the epidemiological investigation of that damage caused by Monochamus alternatus is difficult is that the adult and the larva remains very rarely in the host. Even if the larvae remain in the host, it is not easy to distinguish them from other cerambycidae coleopterans without expertise. For the above reason, we introduce the method of field epidemiological investigation for Monochamus alternatus using the remaining larva frass in the host with Recombinase Polymerase Amplification (RPA) method.

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.

Pine wilt disease caused by Bursaphelechus xylophilus has continued to expanding in Korea since its first occurrence identified from Busan in 1988. The direction of spread and density of two vector insects, Monochamus saltuarius and M. alternatus, are closely associated with the expansion and occurrence of pine wilt disease being observed in Korea. In 2016, a pheromone trap was installed to investigate the density of each vector. A correlation between the density of two insect vectors and the number of trees infected by pine wilt disease was further investigated in Gyeongnam, Gyeongbuk, Ulsan, and Jeju. To perform a correlation analysis, the number of infected trees was counted within a radius of 50m from which the pheromone traps were installed. In addition, factors that might have an effect on the density of vectors were investigated. This includes the altitude, temperature and forest type from the site where the pheromone traps were installed.

Pine wood nematode (Bursaphelenchus xylophilus), the pathogen of pine wilt disease (PWD), is transmitted to new host trees through Monochamus spp., vector insects. In Korea, aerial application has been allowed conventionally to eliminate the vectors in their flying season. In this study, thiacloprid was applied to four-year-old Pinus densiflora, which were fed to adult M. alternatus emerged from PWD infected logs for 72 h in the condition of 1 DAT (Days after treatment of thiacloprid) and 15 DAT, respectively. We confirmed the presence of nematodes in each beetle applied to experiment by Baermann funnel method and PCR with species-specific ITS primers. After 72 h of 1 DAT and 15 DAT, thiacloprid residues in pine trees were 0.59-16.32 and 0.043-0.131 mg/kg and the mortalities of the beetle were 100 and 99.2%, respectively. Detection rate of B. xylophilus was 51.3%. The incidence rate of PWD in 1 DAT and 15 DAT showed no mortality and 5.55% compared with 55.5% of control, respectively.

Japanese pine sawyer beetle, Monochamus alternatus Hope (Coleoptera: Cerambycidae) is considered as a serious pest in pine trees. To develop an eco-friendly strategy to manage this forest insect, we collected entomopathogenic fungi from Korean soil and assessed their virulence against the adults of the insect in laboratory conditions. As a result, two isolates with conidial suspension (1.0×107conidia/ml), showed 87% and 90% mortality 12 days after fungal treatment, respectively. We assessed the potential of the fungi-derived destruxin and protease as additives to the fungal isolates, and they showed insecticidal activity via feeding and spraying treatments. Finally, we produced fungal conidia in massive solid cultures and formulated wettable powders, and now studying optimal conditions of oil-based formulation with two isolates. Based on these results, we are evaluating the control efficacy of the fungal agents against M. alternatus in field conditions.

The nematode Bursaphelenchus xylophilus and its vector insect Monochamus alternatus are major quarantine pests of timber products in Korea. Due to the phaseout of methyl bromide as a fumigant for plant quarantine and pre-shipment treatments, the need for an alternative fumigant is essential. Based on preliminary studies on the efficacy of ethanedinitrile (C2N2) to these two pests, three quarantine trials on logs covered with PVC-tarpaulins were conducted at three dosages and three temperatures potential for inhalation exposure was assessed by monitoring atmospheric levels of C2N2 in relation to the threshold limit value (TLV, 10 ppm, v/v). Concentration × time products (Ct) of 398.6, 547.2 and 595.9 g h m-3 were obtained for each quarantine trial. A 100% mortality of B. xylophilus and M. alternatus larvae at 23±4°C and 10±4°C occurred with a load factor of pine logs of 46% and at 3±1°C with a load factor of 30%. During all fumigant procedures, atmospheric levels of C2N2 20m downwind from the PVC tarpaulin were below the TLV. During aeration, levels 10 m and 5 m downwind were below the TLV after a maximum of 0.4 h and 1 h, respectively. For the purpose of an emergent quarantine or phytosanitary treatment, specific doses of C2N2 at the temperatures that occurred during fumigation could control B. xylophilus and M. alternatus larvae without significant inhalation risk to workers.

솔수염하늘소는 소나무재선충병을 매개하는 중요한 해충으로 성충의 방제를 위하여 주로 항공살포나 지상살포에 의한 살충제의 접촉독에 의한 방제가 시행되어 왔다. 본 연구는 살충제를 나무주사하여 소나무재선충병의 매개충인 솔수염하늘소를 방제하기 위한 살충제 선발을 위해 Neonicotinoid계 살충제 7종을 각 2,000배로 희석한 후 솔수염하늘소 에 2㎕를 경구투여하여 소화중독에 의한 살충효과를 평가하였다. 살충제 경구 투여 후 신경흥분에 의한 경련반응을 조사한 결과 30분 경과에서는 Clotianidin SL(100%), Thiamethoxam DC(73.3%)이 경련 비율이 높았으며 상대적으로 Dinotefuran SL(46.7%), Imidacloprid DC(0.0%)가 약제에 대한 경련반응이 낮게 나타났다. 반수치사시간(LT50)을 조사한 결과 Clotianidin SL은 수컷에서 54.7시간, 암컷에서는 85.6시간으로 나타났으며, Thiamethoxam DC은 암컷에서 70.1시 간, 수컷에서는 88.7시간으로 나타나 소화중독 효과가 가장 우수한 것으로 나타났다. 따라서 살충제 나무주사를 이용하여 솔수염하늘소의 방제에서는 Clotianidin SL, Thiamethoxam DC가 가장 적합한 약종이라고 판단되었다.

Japanese pine sawyer, Monochamus alternatus Hope (Coleoptera: Cerambycidae) in forest is considered as a serious forest pest in pine trees. In this study, we collected entomopathogenic fungi from soil and assessed their virulence against the adults of the inset using a spray method in laboratory condition. Two entomopathogeinc fungi isolates showed high virulence against the adults. In the concentration of 1.0 × 107conidia/ml, the mortality rate of the adults were 53% and 60%. In semi-field condition, one isolate showed a virulence of 60% against the adult. Consequently, we confirmed the possibility of the fungal isolates in controlling the beetles. In near the future, we will investigate several factors which is possibly related to the control of the forest insect pest using entomopathogenic fungi in field conditions, given the importance of fungal formulation and practical application methods.

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.

Beetles of the genus Monochamus Dejean (Coleoptera: Cerambycidae) are the most important vectors of the pine woodnematode (PWN), Bursaphelenchus xylophilus (Steiner & Buhrer) (Nematoda: Aphelenchoididae). The most efficient wayto control pine wilt disease is to decrease the population levels of the vector Monochamus beetles. Specific and efficientnatural enemies would be an interesting and environmental-friendly option. From 2016 to 2017, we investigated on thelarval parasitoids associated with M. alternatus Hope and M. saltuarius Gebler using the sentinel logs (Pinus koraiensis)in South Korea. As results of this work, we report two larval ectoparasitoids, Spathius verustus Chao and Cyanopterusflavator (Fabricius) (Hymenoptera: Braconidae) from six survey sites. Each parasitoid was parasitized up to 58.2% and26.3% on 1st and 2nd instar larvae of Monochamus beetles, respectively. These parasitoids are likely to be highly efficientas bio-control agents. Morphological characters with illustration and some biological information of them are provided.

솔수염하늘소는 소나무에 시들음 증상을 유발하여 괴사시키는 소나무재선충을 매개하는 대표적 매개충이다. 소나무재선충병 고사목 방제 살충처리 방법으로 훈증방법을 대체할 수 있는 그물망을 이용한 방제법이 도입되고 있다. 본 연구는 솔수염하늘소의 쏠기와 탈출 행동을 유발시 키는 조건을 구명하기 위하여 구속 공간 및 온도를 달리 처리하고 탈출여부를 조사하였다. 솔수염하늘소는 직경 30 mm 이하의 공간에 구속되었 을 때 장애물을 뚫고 탈출이 가능하였다. 온도 15°C에서는 탈출에 성공하지 못하였으며, 20~30°C 범위에서 탈출 성공률이 높았다. 먹이를 이용 한 솔수염하늘소의 유인은 탈출 성공률에 영향을 미치지 않았다. 좁은 공간에 구속되지 않는 경우는 갉는 부위가 집중되지 않아 탈출공을 형성하 지 못하였다. 구속된 공간에서 솔수염하늘소는 가운데와 뒷다리 부절을 이용해 좁은 공간에서 몸을 이동시키며 큰턱으로 정면에 있는 장애물을 집중적으로 갉아서 탈출공을 만들고 앞다리를 뻗어 몸을 지탱하면서 빠져나오는 행동을 보였다. 본 연구의 결과는 훈증 대체기술로 제시되고 있 는 구속 그물망의 성능을 평가하는데 중요한 기초자료로 활용될 수 있을 것이다.

Monochamus alternatus (M. alternatus) and Monochamus saltuarius (M. saltuarius) are major vectors for Bursaphelenchus xylophilus in South Korea. When an adult, they are easily distinguishable by several morphological classification. However, it is difficult to identification between M. alternatus and M. saltuarius when they are larvae as they have very similar morphological characters. Thus, they are not easily distinguishable without expertise about Cerambycidae taxonomy. Furthermore, during epidemiological investigation, sometimes, adults or larvae would not be founded in death pine trees. For these reasons, in this experiment, we are able to identified between M. alternatus and M. saltuarius by mitochondrial 12S rRNA gene primers that are specific to 12S rRNA gene fragment of M. alternatus using larvae tissue and frass. Moreover, we had examined whether vectors that were already escaped from dead pine tree have Bursaphelenchus xylophilus or not by multiplex PCR using larva frass that was remained in dead pine tree.

The adult activity of M. alternatus caught in a pheromone trap showed a bimodal form consisted of the first peak in mid to late June and the second peak in mid to late September in Jeju area, Korea. The two peaks were separated apparently between mid and late August, showing a valley. The pine trees without oleoresin flow were abundant during early July to early August, and declined thereafter, which did not match with the valley of adult activity curve. Thus, the hypothesis that dying pine trees attract much strongly M. alternatus adults than that of pheromone lures may not fully explain the bimodal pattern, because the first adult activity peak occurred during the peak period of dying pine trees and it declined with decreasing dying pine trees. The accumulated degree-days showed that the emergence of the 2nd generation adults could occur before the second peak when the diapause ecology of M. alternatus was not considered. The voltinism of M. alternatus can affect basically the control strategy of this pest. Consequently, further studies are required to find out clearly the voltinism of M. alternatus in Korea.

Monochamus alternatus (M. alternatus) and Monochamus saltuarius (M. saltuarius) are major vectors for Bursaphelenchus xylophilus in South Korea. When an adult, they are easily distinguishable by several morphological classification. However, it is difficult to identification between M. alternatus and M. saltuarius when they are larvae as they have very similar morphological characters. Thus, they are not easily distinguishable without expertise about Cerambycidae taxonomy. Furthermore, during epidemiological investigation, sometimes, adults or larvae would not be founded in death pine trees. For these reasons, in this experiment, we are able to identified between M. alternatus and M. saltuarius by mitochondrial 12S rRNA gene primers that are specific to 12S rRNA gene fragment of M. alternatus using larvae tissue and frass. Moreover, we had examined whether vectors that were already escaped from dead pine tree have Bursaphelenchus xylophilus or not by multiplex PCR using larva frass that was remained in dead pine tree.

We had evaluated of insecticidal effect from Insecticide-treated net (ITN) that coated by deltamethrin against Monochamus alternatus which serves as a vector for Bursaphelenchus xylophilus. In this experiment, vector has been shown that rapid insecticidal effect response time within 1 hour when they were contacted with ITN. In addition, vectors were showed high mortality within 48 hours. To evaluate insecticidal persistency of ITN and whether releasing insecticide to water, ITNs were soaked in water over various time periods. Water has not shown insecticidal effect to vectors and small amount of insecticide were detected that would not be harmful to other non-target organic being such as honeybee. Also, reduction of insecticidal effect was not observed from the ITN. Taken together, our results suggest that ITN had got highly insecticidal effect to vector as well as could be applied to effectively prevent dispersal of the vector on the field.

Since first reported in 1988 the Pine Wilt Disease has been established and spreaded nearly nationwide in South Korea, causing tremendous economic damage in pine forests. The pine wilt nematode (Bursaphelenchus xylophilus), causing the Pine Wilt Disease, in Korea is known to be transported by two insect vectors that are Monochamus alternatus Hope and Monochamus saltuarius Gebler. Currently the pest management strategy largely relies on pesticide application and infected tree clearing. The aim of the present study was to search for early larval parasitoids of M. alternatus using the sentinel log infested with the cerambycid eggs. Only one braconid species was collected and identified as Spathius verustus Chao. Two to ten wasp larvae attached and fed on one host larva. Parasitism rate was 55.5 to 59 % in Jinju site, while 1 to 18.1 % the other sites. Sex ratio was female-biased (female : male = 18.9 : 1). The S. verstus has potential to be use as parasitic natural enemy of M. alternatus.

Monochamus alternatus is one of the insect vector of pine wilt disease with Monochamus saltuarius. The present study aimed to investigate the dose to induce sterile and the effect of sterility according to the gender of M. alternatus. As the electron beam irradiation dose increased, the longevity of the mid and late maturation feeding stage of adults was slightly reduced. However, there was no difference between these two adults. In addition, female adults were more sensitive to the electron beam than the male adults. Hatchability of the F1 generation of ♂T×♀N or ♀T×♂N (T: 200 Gy electron beam irradiation, N: 0 Gy) was completely suppressed. As electron beam irradiation dose increased, the fecundity of female adults were slightly decreased. Results by comet assay showed that electron beam irradiation induced as dose increased DNA damage in M. alternatus adults. These results suggest that SIT using electron beam may be useful for control of M. alternatus.

소나무재선충병에 대한 방제 전략 측면에서 한정된 인력과 자원을 효과적으로 이용하려면 방제 대상 지역에서의 소나무재 선충병 피해 확대 방향과 발생 가능 지역을 예측하여 대비할 필요가 있다. 본 연구에서는 소나무재선충병 확산 예측을 위하여 솔수염하늘소(M. alternatus)와 환경조건을 이용한 CLIMEX, MB Index, Maxent 모형으로 분석하였다. CLIMEX 분석을 위하여 일기상 자료(최고기온, 최저기온, 강수량, 평균 상대습도)를 월별 10년 평균하여 68개 관측지점별로 구축하였다. 미래 예측 자료는 기상청 기후변화정보센터에서 제공하는 12.5km 격자의 월별 자료(RCP 8.5)를 10년 단위 평균값을 도출하고 68개 관측지점별로 추출하였다. MB Index와 Maxent 분석을 위한 입력자료는 소나무재선충병 발생 지점, 월평균기온과 지형(고도, 향, 경사)을 이용하였다. 소나무재선충병 확산과 관련한 3가지 모형에서 도출된 결과를 종합한 결과, 2020년대에는 전라남도와 경상남도, 충청남도 내륙지역과 수도권을 중심으로 확산할 것으로 나타났다. 2050년대에는 강원도 백두대간 지역을 제외한 우리나라 전역으로 소나무재선충병이 확대될 것으로 예측되었고, 2090년대에는 전국적으로 소나무재선충병 이 발생할 것으로 나타났다.

Many forest pests present a problem during wood quarantine. The effectiveness of phosphine (PH3), which is an altered form of MB, was examined in Monochamus saltuaris and M. alternatus. After 24 h, the larvae and the adults of both insects were susceptible to PH3 at 3 mg/L at 20°C. However, the larvae of both pests were rather than dead, seem to have been quiescent condition. PH3 showed increasing insecticidal activity in a time-dependent manner in the larva stage of both pests. We investigated the fumigants at all stages of M. saltuaris and M. alternatus, as well as the synergistic effects of PH3 in controlled atmospheres of 50% and 80% oxygen. The atmospheric oxidation of PH3 fumigation slightly increased the toxicity of the fumigant to larva stages in 125 L container at 4 mg/L. These results indicate that highly concentrated atmospheric oxidation of PH3 could be useful as a fumigant agent against M. saltuaris and M. alternatus.

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.

우리나라 소나무재선충병(Pine Wilt Disease)은 1988년 부산 금정산 지역을 중심으로 최초 발생된 이후 최근까지 피해지역이 전국적으로 확산되고 있는 실정이다. 크기가 1mm 미만의 실처럼 생긴 소나무재선충(Bursaphelenchus Xylophilus)이 소나무의 수분과 영양 이동 통로인 가도관을 막아 소나무를 말라 죽게하는 병으로, 선충 스스로는 이동할 수 없고 반드시 매개충(carrying insect) 이동에 의해서만 감염이 되기 때문에 솔수염하늘소 성충이 건전한 소나무 가지의 신초를 갉아먹는 후식(Maturation feeding)을 할 때와 산란을 할 때 생기는 수피의 상처 부위를 통해서 건전한 나무로 옮겨진다. 소나무류는 재선충에 한번 감염되면 대부분 3개월 이내에 완전 고사되며 매개충은 이들 고사목에 다시 서식하는 공생관계(symbiotic relationship)를 유지하기 때문에 소나무재선충병의 발생 및 확산은 소나무 임분내 입지환경 및 임분조성, 매개충의 서식환경이 밀접한 관계를 가진다. 따라서 소나무재선충병 피해임지와 피해발생 우려지역의 소나무림 임분구조 분석과 임분상태를 파악하고 간벌 방법별 매개충 서식밀도와의 관계를 구명함으로서 생태적으로 안정되고 건전한 소나무 임분관리, 소나무재선충병 확산방지에 적합한 임업적방제 임분시업 기술 개발을 위하여 입지환경에 따른 임분시업별 실연시험지를 2006년과 2007년에 각각 2지역에 조성하였다. 추기와 춘기에 간벌된 지역에서의 간벌목에 대한 매개충 침입공수는 춘기 처리구가 63개로 가장 많았으며 산란 개체목에서의 성충 탈출공 발생수 역시 46개로 가장 높았다. 간벌시기별 매개충 유충 발생율은 춘기가 평균 35.8%로 가장 높았으며, 추기 간벌기인 11월과 10월 처리구가 각각 20.0, 14.8% 순으로 조사되었다. 또한 산란 개체목 경급별 유충 발생율은 15cm이상에서 53%로 가장 높게 나타났다. 임내 산물 위치별 매개충 서식 밀도는 산록부가 39.5%, 산복부 35%, 산정이 25.0%순으로 산록부에 매개충의 산란이 높은 것으로 조사되었다. 따라서 간벌시기에 따른 매개충의 산란은 춘기 처리구에서 높은 유충밀도 및 피해목 발생을 보이고 있어 향후 소나무재선충병 피해지 주변 선단지의 임분시업을 위해서는 춘기보다는 추기에 실시하는 것이 효과적 일것으로 사료된다.

소나무재선충병(Pine Wilt Disease) 방제법은 2000년대까지는 피해목을 벌채하여 소각하는 방법을 주로 이용하여 왔으나 방제물량이 많아지고 밀생임분에서의 소각 공간 확보가 어려워 열해목이 발생하고 이동시에는 피해목을 완벽하게 수집할수 없는 문제점이 있었다. 이를 보완하기 위하여 최근에는 소나무재선충병 감염목을 이동할 필요가 없고 현장에서 매개충인 솔수염하늘소 방제가 가능한 훈증 방제법이 보급되어 주력 방제법으로 활용되고 있다. 그러나 훈증약제는 환경오염이나 인축에 피해가 있을 뿐 아니라 약제투입 약량에 따라 매개충이 피복소재를 뚫고 탈출할 수 있고 유효 천적도 동시에 제거되며 경관도 해치는 문제가 있다. 따라서 농약을 투입하지 않고도 매개충의 탈출을 효과적으로 제어할 수 있으며 천적 등의 역할을 증대시키고 수분 유입 등으로 벌채목의 부패를 촉진시키어 매개충의 재 산란을 방지할 수 있음은 물론 경관도 크게 해치지 않는 소나무재선충병 방제 피복망을 선발 하였다. 피복망의 소재는 Multi filament 22합수 소재가 가볍고 저렴하며 재활용이 가능하므로써 매개충 방제에 가장 적합한 것으로 조사되었으며 피복 후 1주일내에 매개충 90%이상이 치사되었고 이후에도 전혀 탈출이 불가능하였다. 또한 처리 후 2년이 경과하여도 망 훼손 및 매개충 탈출 흔적은 찾아 볼수 없었고 오히려 벌채목의 부패가 촉진되어 매개충 재 산란의 위험이 해소되었다. 제형으로는 벌채된 소나무량에 따라 현장에서 크기에 맞게 절단 피복 할 수 있는 두루마리(Roll) 형태가 가장 효율적이었다. 대량 생산시 망 크기, 제형 등을 수요자 임의로 조정할 수 있는 장점을 가지며, 기존 훈증방제법에 비하여 약 20%이상의 예산 절감 효과가 기대될 뿐만 아니라 환경 및 천적보호에도 기여 하므로서 소나무재선충병 방제에 효율적으로 활용이 가능하다

Trunk injection of nematicides was applied to prevent pine wilt disease (PWD). Although the trunk injection of nematicides was effective to PWD prevention, it was not effective to a vector, Monochamus alternatus. Thus, This study was investigated for the insecticidal activity and the effect of oviposition deterrence by injecting to pine trees with systemic insecticides such as Acetamiprid SC 10%, Imidacloprid DC (20%), and Thiamethoxam DC (15%). As a results, mortality of M. alternatus adults was 100% at 56 days after trunk injection. Percentage of M. alternatus adults moved to a young black pine tree by trunk injection of Imidacloprid DC (20%) and Thiamethoxam DC (15%) in screen cage (4.0×2.0×2.5m) was 76.7% and 70.0%, respectively. But the mortality of M. alternatus adults showed 100%. Percentage of M. alternatus adults moved to the treated and untreated young black pine trees by trunk injection of Acetamiprid SC (10%) in screen cage (4.0×2.0×2.5m) were 25.9% and 49.5% at 1st day and 3rd day after treatment, respectively. Percentage of M. alternatus adults oviposited to treated pine logs at 3month after trunk injection of liquid mixture of Acetamiprid SC (10%) and Emamectin benzoate EC (2.15%) in screen cage (72×72×100㎝) was 25%. But, untreated pine logs was 100%

Movement of adult Monochamus alternatus was investigated on young black pine, Pinus thunbergii, trees for about one month in a screen cage. Number of pine trees to which M. alternatus females and males moved during the experimental period was 6.4±1.4 and 7.2±1.5 out of 15 trees, respectively. Adult females and males moved to 0.2±0.1 and 0.3±0.1 tree per day, respectively. A 74.6 and 80.7% of adult females and males moved at night (17:00-08:00) to other trees. After moving, most beetles (72.6% of females and 76.0% of males) stayed on the tree to which they moved for one to two days. Some beetles stayed for up to seven days.

Cuticular hydrocarbons (CHCs) of the pine sawyer (Monochamus saltuarius), Japanese pine sawyer (M. alternatus) and oak longicorn beetle (Moechotypa diphysis) were analyzed by GC, GC-MS and compared. Monochamus beetles are typical vectors of pine wilt disease but Moechotypa diphysis, which belongs to the same family, is not. They possess different CHCs in carbon number: 23-25 in M. saltuarius, 25-32 in M. alternatus, and 23-29 in M. diphysis. In comparison to inter-species, these three species of adult beetles have different numbers and chains of constituents of CHCs. In comparison between male and female in intra-species, the quantities of CHCs show the difference but constituents are not. Major constituent of M. saltuarius were analyzed as n-pentacosane ＞ n-nonacosane ＞ n-heptacosane, those of M. alternatus were n-nonacosene ＞ n-pentacosane ＞ n-nonacosane, and those of M. diphysis were n-heptacosane ＞ 13-methylheptacosane ＞ 3-methylheptacosane. From the body surface, most saturated carbohydrates of 3 species beetles are composed of n-alkane (40.2 - 65.7%) and followed by olefines ＞ monomethylalkanes that one or two double bonds in M. saltuarius and M. alternatus. Otherwise, M. diphysis have the difference in order of monomethylalkanes > olefins.

This study was performed to investigate the escape of pine wood nematode (PWN), Bursaphelenchus xylophilus, from two vector species (Monochamus alternatus and M. saltuarius) through oviposition and feeding behavior. First, we checked number of PWNs escaped from M. alternatus emerged from three different cases of pine logs. In case A, healthy pine trees were cut into logs and left in pine forest infected with PWN. In case B, healthy pine trees were cut into logs, left in large screen cage, and let them oviposited by M. alternatus emerged from pine trees infested with PWN. In case C, pine trees which were harboring M. alternatus were cut into logs, and PWN was inoculated artificially. The M. alternatus adults emerged from the above three cases of pine logs were checked in the next year to know how many PWN they were harboring in their bodies. The percentages of M. alternatus harboring PWN (18.3 and 15.6%, respectively) and number of nematodes per vector (5,713.1±9,248.3 and 2,034.1±4,746.8 PWNs, respectively) in case A and B logs are similar to each other. However, the percentage and the number in case C (38.3% and 20,083.1±32,188.3 PWNs) were higher than those of case A and B. Among 52 M. alternatus adults harboring PWN from all the three cases, 20 adults (38.5%) were harboring more than 5,000 PWNs per beetle. And these 20 adults were harboring 97.9% of the total PWNs in 52 adults. Second, we checked the daily escape of PWNs from M. alternatus and M. saltuarius collected at pine forest infested with PWN. The PWN escaped from their vector body for 34.9±12.4 days for M. alternatus, and for 23.9±16.2 days for M. saltuarius, reaching at peak escape during the 2nd week of emergence of the two vector species. A 44.5 and 47.2% to the total PWNs escaped from vector body within 2 weeks of vector emergence for M. alternatus and M. saltuarius, respectively. The number of PWNs escaped from each vector was 3,570.6±5,189.2 and 1,556.2±1,710.3 for M. alternatus and M. saltuarius, respectively.

Trunk injection of nematicides is applied to prevent pine wilt disease(PWD). Although the trunk injection of nematicides is effective to PWD prevention, it is not effective to vector insects such as adults of M. alternatus and M. saltuarius. Thus, This study was investigated for the insecticidal activity and the effect of feeding deterrence by injecting to pine trees with acetamiprid. For screening effective nematicides, some insecticides were injected to pines on December 30th, 2008 and their insecticidal activities and feeding areas of M. alternatus and M. saltuarius were investigated in the insects breeding dishes (100× 40mm) where put on 1 to 2-year-old twig which was selected from injected pine trees in early June. As a result, insecticidal activity and feeding deterrence of acetamicprid were most effective. Feeding areas of M. alterantus adults, when tested with 1-year-old twig and 2-year-old twig of healthy pine trees, were 170.3±107.0 mm2 and 258.0±123.2 mm2 respectively. And Feeding areas of M. alterantus adults, when tested with 1-year-old twig and 2-year-old twig of pines injected at a dose of 0.3 ml per cm dbh of a pine tree with acetamiprid, were 57.7±72.3 mm2 and 65.7±51.2 mm2 respectively and their mortalities also were 0%, 28.6%. The feeding areas of M. alterantus adults tested with 1-year-old twig and 2-year-old twig of pine trees injected at a dose of 0.6 ml per cm dbh of a pine tree with acetamiprid, were not fed on it and the mortalities were 28.0%, 57.1% respectively. In case of the feeding areas of M. saltuarius adults, when tested with 1-year-old twig and 2-year-old twig of healthy pine trees, it was 112.±35.1 mm2 and 159.2±65.2 mm2 respectively. And the feeding areas of M. saltuarius adults, when tested with 1-year-old twig and 2-year-old twig of injected pine trees at a dose of 0.3 ml per cm dbh of a pine tree with acetamiprid were 0.61±0.0 mm2 and 8.1±12.4 mm2 and both mortalities were 23.1%. Although M. saltuarius adults, when tested with 1-year-old twig of a pine tree injected at a dose of 0.6 ml per cm dbh of a pine tree with acetamiprid, were not fed on it but M. saltuarius adults tested with 2-year-old twig of the same pine tree were 2.0±3.7 mm2 and their mortalities were 53.8%, 61.5% respectively. We investigated insecticidal activities, the effects of feeding deterrence of acetamiprid for vector insects where fed twigs of injected pines by stop up hole with a cork or not, and the trunk injection to pine trees at a dose of 0.5, 1 ㎖ per ㎝ dbh of a pine tree with acetamiprid on the early June. As a result, all of the vector insects were not fed and the feeding area was within 11 ㎟ and the mortality of M. alternatus was 70%.

Pine wood nematode, Bursaphelenchus xylophilus, is a causative organism to induce pine wilt disease in many varieties of pine trees. Until 2006, Monochamus alternatus had been known as the only insect vector of pine wood nematode in Korea which targeted on Pinus densiflora (Japanese red pine) and P. thunbergii (Japanese black pine). However, pine wilt disease was also reported from Korean pine tree (Pinus koraiensis) in 2006 and we found another insect vector, M. saltuarius, was involved to transmit pine wood nematode. Both Monochamus species were confirmed to transfer pine wood nematode to their hosts but, there is no detail information about other transmitted nematode. Especially Bursaphelenchus mucronatus is common species transmitted by Monochamus species which is morphologically closed to B. xylophilus. Moreover B. mucronatus have two genotypes; one is East Asian type and the other is European type. Both genotypes of B. mucronatus were found in Korea but, the host and vector information related to the genotypes of B. mucronatus was not clear. Monochamus saltuarius was collected from three different geographical locations and nematodes were extracted and identified. For the identification of the juveniles, nematode DNA was extracted and ITS-RFLP analysis was done by PCR and gel electrophoresis. The selected enzymes were Hinf I, Alu I, Msp I, Hae III, Rsa I. Most of Bursaphelenchus species carried by M. saltuarius, which collected from pine wilt disease-free area, was determined as European type of B. mucronatus. We will compare the nematode species and genotypes carried by M. alternatus and M. saltuarius. In addition the rate of nematode carrying insect and the average number of nematode per single insect will be counted and compared.

Monochamus alternatus and M. saltuarius were reported as the vectors of Bursaphelenchus xylophilus, pine wood nematode in Korea. According to Kwon et al. (2006), each of 2 species has occupied their own regional distribution : M. saltuarius in southern part including Jeju island and M. alternatus in mid-northern part of Korean peninsula. We measured the supercooling point (SCP) of 2 species (laboratory-reared populations) by each of developmental stages. The SCPs of 2nd, 3rd and 5th instar larvae of M. saltuarius were -7.68±0.19℃, -7.02±0.69℃, -4.93±1.34℃ each of stages. On the other hand, the SCPs of 3rd, 4th, 5th instar larvae and pupae of M. alternatus. were -4.46±1.12℃, -5.94±1.33℃, -7.83±1.44℃, -9.53±1.78℃ each of stages. The SCPs of M. saltuarius larvae generally was lower than that of M. alternatus. The pupae of M. alternatus and 2nd instar larvae of M. saltuarius had the lowest SCP among measured samples. On the other hand, the highest SCP were recorded in 2nd and 5th instar larvae, each. This result shows that regional distribution of 2 beetles may be associated with the adaptation capacity to low temperature represented by the SCP as well as the developmental temperature. However, beetles experimented were not collected from pine forest fields. In further study, we are planning experiments with field populations and all developmental stages.

본 연구는 2006년과 2007년에 경남 진주의 소나무재선충병 피해임지 내에 있는 고사목을 대상으로 소나무재선충(Bursaphelenchus xylophilus)의 매개충인 솔수염하늘소(Monochamus alternatus)의 기초 생태를 연구한 결과이다. 솔수염하늘소(Monochamus alternatus) 유충의 소나무 내 분포와 소나무의 직경에 따른 솔수염하늘소 유충의 침입공수, 우화수, 우화율, 자연치사율을 조사하였다. 소나무 직경별에 따른 솔수염하늘소 유충의 분포를 조사한 결과 최소직경은 2.0 ㎝이었으며 최대 직경은 31.5 ㎝였다. 5~10 ㎝ 사이의 직경에서 가장 많은 수의 침입공이 분포하였고, 가장 적은 수가 분포하는 직경은 30 ㎝ 이상이었으며, 솔수염하늘소가 가장 많이 우화한 직경도 5~10이었다. 각 직경별 솔수염하늘소 우화율은 직경 5~10 ㎝에서 13.5%로 가장 높았다. 조류에 의해 유충이 포식 된 수가 가장 많은 소나무의 직경은 10~15 ㎝로 14.4%의 유충이 소실되었고, 조류에 의해 피해를 입지도 않고 우화하지도 않은 자연 치사된 비율은 71.3%였다. 소나무 수고에 따른 솔수염하늘소 유충의 침입공 분포는 6~7m에 가장 많이 분포하였고, 직경에 따라 수고와 상관없이 소나무전체에 분포하기도 하였다.

As a major component of cuticle wax, cuticular hydrocarbon plays key roles as a chemical cue among inter- and intra-species in some beetles like as pheromone and alleolochemicals in addition to the physical function. In this study, cuticular hydrocarbon was analyzed and compared with three species of beetles adult, Monochamus alternatus, M. saltuarius belong to the Monochamus sp., and belong to the same class, Moechophyta diphysis, a typical vector of pine wilt disease. The composition of cuticular hydrocarbon of three species of beetles adult did not show the difference between male and female in intra-species, however, showed the difference in inter-species. They also differed from carbon numbers in inter species as 25-32 in M. saltuarius, 25-35 in M. alternatus, and 23-31 in M. diphysis. Major constituent of M. saltuarius was analyzed as n-C25, 2 or 4 MeC26, 9-C25:1, n-C27, 4-MeC28, n-C29, (9,x)-,and/or (11,x)-diMeC29; those of M. alternatus were n-C25, n-C27, 4-MeC28, n-C29, (9,x)-, and/or (11,x)-diMeC29, 9-C29:1, n-C29, (9,x)-,and/or (11,x)-diMeC29; and those of M. diphysis were n-C25, n-C26, n-C27, 3-MeC27,9-C29:1, 11-MeC29. The contents of n-alkanes were as follows: M. saltuarius ≒ M. alternatus > M. diphysis. The contents of monomethylalkanes were as follows: M. diphysis > M. saltuarius ≒ M. alternatus. The contents of dimethylalkanes were as follows: M. saltuarius ≒ M. alternatus > M. diphysis. And the content of olefine in female were analyzed as follows: M. saltuarius > M. alternatus ≒ M. diphysis, and the male's contents were similar in three kinds of beetles.

2001년부터 2002년까지 소나무재선충의 매개체인 솔수염하늘소 성충의 생체중과 체장, 체폭, 두폭, 더듬이의 길이 및 색깔 등을 조사하였다. 소나무재선충에 감염되어 고사된 소나무를 일정한 길이로 잘라 우화망실 안에 두고 우화하는 솔수염하늘소 성충을 채집하여 조사하였다. 분산분석결과 생체중, 체장, 체폭의 측정치는 암컷이 수컷보다 높았고, 두폭은 암수간에 차이가 없었으며, 촉각의 길이는 수컷이 더 길었다. 암컷(n=563)과 수컷(n=601)의 평균 생체중은 각각 0.305g과 0.277g, 체장은 20.97mm와 19.93mm 체폭은 6.52mm 와 6.18mm, 두폭은 3.78 mm와 3.70mm, 촉각의 길이는 31.19mm와 45.49mm이었다. 촉각의 길이나 체장과 촉각 길이의 비율은 암수간에 중복되는 범위가 많아서 이것을 기준으로 암수를 구분할 수는 없었다. 그러나 성충(n=4,033) 촉각의 털 색깔을 조사한 결과, 예외 없이 암컷 촉각의 모든 편절 마디의 기부쪽 절반 정도가 회백색의 미모로 덮여 있으나, 수컷 촉각의 편절 마디는 전체적으로 흑갈색의 미모로 덮여 있었기 때문에, 이 특징으로 암수를 쉽게 구분할 수 있었다.

1999년부터 2002년까지 경남 진주의 소나무재선충에 의한 피해임지 내에서 고사목을 대상으로 솔수염하늘소 유충침입공과 성충탈출공 및 번데기방의 크기와 갱도길이 등을 측정하고, 소나무 내 분포를 분석하였다. 소나무 내 솔수염하늘소의 유충 침입공수는 1당 수관부가 56.2 개인데 비해 수간부는 27.7개로서 수관부가 훨씬 많았다. 직경이 8-l0 cm인 공시목에 침입공의 27.5%와 우화공의 22.4%가 분포하였고 이보다 굵거나 가는 공시목에는 적었다. 침입공의 형태는 타원형으로 입구의 표면적은 평균 65.8 이었다. 성충탈출공은 원형으로서 직경은 평균 7.0mm 이었다. 공시목의 표면에서 번데기방까지의 깊이는 평균 24.8 mm이었고 번데기 방의 부피는 200-2,000 ㎣이었다 성충의 탈출공은 수관부가 수간부보다 많았으며, 공시목의 직경이 8-10cm에서 22.4%로 가장 많이 분포하였다. 유충 침입공과 성충 탈출공까지의 목질부 표면에서 직선거리는 평균 3.3 cm이었으며, 침입공에서 탈출공까지의 갱도 길이는 평균 46.2 nm이었다.

부산, 경남, 경북, 전남, 전북 22개 지역 19수종 238본의 고사목에서 1989년 4월부터 9월까지 선충류와 곤충류를 조사한 결과, 소나무 재선충은 부산지역에서만 검출되었으며, 어리소나무 재선충은 진주와 진해에서 분포가 확인되었다. 고사목에서 분리.동정된 선충류는 9속 13종이었으며 6속은 미동정되었다. 동정된 선충 중 Diplogasteroides dimidius, Rhabdontolaimus adephagus, R.janae, Mikoletzkya diluta, M. ruminis, m. langcauda, Parasitorhabditis hylurgi, Panagrolaimus concolor, Panagrodontus dentatus, Prothallonema intermedium, Macrolaimus canadensis는 우리나라 미기록종이다. 한편, 고산목에서 채집된 곤충은 5목 9과 25속 27종이었는데 딱정벌레목이 3과 19속 22종으로 가장 많았다. 그중 나무종이 10속 12종으로 빈번히 채집되었으며, Hypothenemus eruditus가 꽃싸리, 싸리, 조록싸리, 만리화, 닥나무에서 채집되어 새 기주로 추가되었다. 소나무 재선충의 매개충인 솔수염하늘소는 복부에서의 선충 검출수가 가장 많았으며, 성충 한마리당 선충 보유수는 최대 127,535마리, 최소 2,616마리, 정균 42,817마리였다.