본 보고는 2020년 산림 지역에서 대발생하여 큰 피해를 준 매미나방과 대벌레에 의한 피해면적과 피해수종에 대해 기술하였다. 매미나방에 의한 식엽 피해는 강원(1,638 ha), 경기(1,134 ha), 충북(726 ha), 서울(476 ha) 등 중부지방을 중심으로 심각하였다. 대벌레는 서울시 은평구와 고양시 덕양구 사이에 위치한 봉산(약 19 ha)에서 대발생하였다.
본 연구에서는 간벌 이후 지표 절지동물 군집의 장기적인 변화를 확인하기 위해, 잣나무조림지에서 간벌 전후에 조사되었던 과거 지표 절지동물 군집 자료와 간벌처리 10년 후인 2018년에 채집한 군집 자료를 비교하였다. 조사지역에서는 간벌 이후 10년이 지났으나 여전히 간벌처리에 따른 서식 환경 (유기물 깊이, 지표면 식생 피도, 울폐도)의 차이가 나타났다. 2018년 조사된 절지동물 군집은 곤충강 파리목, 벌목, 딱정벌레목, 톡토기강 톡토기목, 거미강 거미목 순으로 우점하였고, 간벌처리 조건 중 강도간벌에서는 거미강 거미목, 곤충강 딱정벌레목과 벌목이, 약도간벌에 서 톡토기강 톡토기목과 곤충강 파리목이 가장 많이 나타났다. 간벌 직후인 2008년에 비해 2018년 곤충강 딱정벌레목과 파리목, 벌목, 갑각강 등각목의 개체수는 감소하였고, 곤충강 노린재목과 메뚜기목의 개체수는 증가하였다. 2018년의 지표 절지동물 군집은 간벌 이전인 2006년 군집에 비해, 간벌 직후인 2008년 군집과 유사한 것으로 나타났다. 본 연구는 지표 절지동물 군집의 변화를 조사지역 및 간벌처리 조건에 따라 나타내어, 차후 산림 내 간벌 계획 작성 또는 간벌을 이용한 산림 자원 관리에 대한 기초 자료를 제공한다. 이후로 다양한 간벌처리지 내 조사 등이 수반된 추가 연구가 수행된다면, 간벌로 인한 산림 절지동물 군집 변화를 더욱 명확하게 규명할 수 있을 것이다.
The periodic occurrence of biological population is affected by several biological and environmental factors and ancient literature survey offers insight into ecological process related to the cyclicity. The periodic occurrence of a Lepidopteran species, the pine caterpillar (Dendrolimus spectabilis), was estimated based on ancient literature survey. The pine caterpillar was one of the most injurious defoliators of pine trees in northeast Asia, especially Korea during 1960s and 1970s. Outbreaks of this species have long history in Korea. Since about 900 years ago, damages of pine forest by this species and its control were recorded both in History of Corea dynasty which cover 475 years (918-1392) of the history of the Corea Dynasty and in the Annals of Joseon Dynasty (Joseon Wangjo Shillok) which cover 472 years (1392-1863) of the history of the Joseon Dynasty, respectively. At least over 20 and 30 occurrences of pine caterpillar were recorded during Corea dynasty and Joseon Dynasty, respectively. These results showed that the pine caterpillar had been one of the most severe forest pests during Corea and Joseon Dynasty. Our result showed that the ancient literature survey is useful to understand the long-term periodic occurrence of the pine caterpillar.
To develop a empirical model for predicting the spring flight period of overwintering Ips acuminatus adult, their density were monitored in Korean pine (Pinus koraiensis) forests at Chuncheon in 2015. The monitoring data of the beetles and temperature in the forests were used to develop the empirical predictive model based on degree-day model, and it was validated using the data from Korean pine forest at Wonju in 2018. The lower threshold temperature for flight (LTF) and a thermal requirement for the onset of flight activity of the beetles in spring were estimated. As the result, the LTF was estimated as 1.3 ℃ and 269.96 DD was required for the spring flight. The median flight date estimated by the empirical model was one day earlier than the observed flight date. Therefore, the model is suitable for predicting the spring flight of overwintering I. acuminatus.
Wild dampalsu tree, Elaeocarpus sylvestris is evergreen tree and one of the dominant street trees in Jeju island. Recently, wilting of the wild dampalsu trees by phytoplasma was widely reported but vector of phytoplasma was not found yet. This survey was conducted to find potential vector of the phytoplasma to wild dampalsu tree and we focused on homoptera pests because many phytoplasmas were vectored by homoptera pests. Two sites in Seogwipo, Jeju were selected and then ten trees in each site were selected. The trees were selected by 20 m interval. A rectangular sticky trap was attached to the branch of the tree by a binding string. The traps were changed by a week and the homoptera pests on the traps were counted in the laboratory. Four homoptera pests belonged to Cicadellidae and Psyllidae were found and only two species belonged to Cicadellidae were identified: Batracomorphus mundus and Idiocerus sp. Batracomorphus mundus was the dominant species and it was caught from late May with bimodal peaks. The density was reached up to 87.5 individual/trap. Idiocerus sp. was the second dominant species and it was caught from mid-June with one peak. The density was reached up to 6.6 individual/trap. The two species are examined whether they carry phytoplasma.
The black pine bast scale, Matsucoccus thunbergianae Miller et Park, is one of the severe pest to pine forests in South Korea. In 1963, a severe pine damage by unknown causes were reported at Goheung region and it turned out that the damage was caused by the black pine bast scale, M. thunbergianae 20 years later. The black pine bast scale have been causing serious damage to Japanese black pine forests in the east and southwestern coastal area of South Korea and its distribution has been expanded. The areas of Japanese black pine forests damaged by M. thunbergianae was 4,043ha in 41 cities or districts in 2017. In males, two nymphal instars are followed by wingless preadult, the pupa, and the adult, whereas the female adult directly emerges from the second nymphal instar. According to recent sex pheromone survey for male adult, M. thunbergianae occur mainly single generation in South Korea with possibility its phenology was advanced probably due to climate change. Until now, the most effective measure to control the black pine bast scale is to trunk injection with insecticides after thinning of a damaged pine forest.
Forest pests are a major threat to forest ecological and economic health. For this reason, the monitoring for forest pests was necessary and the monitoring program has begun from 1968 in Korea. During past 50 years, forest pests in pine forests have been shifting from pine moth (Dendrolimus spectabilis) via pine needle gall midge (PNGM, Thecodiplosis japonensis) to pine wilt disease (PWD). The pine moth is a native species to Korea and its outbreaks were recorded even 500 years ago. It was the major forest pests in Korea from 1950s to 1970s. The cause of its decline was probably due to increase in activities of microorganism-type natural enemy. In 1980s and 1990s, PNGM was the major forest pests in Korea. It invaded to Korea in 1929 and dispersed to nationwide in 1992. The suite of parasitic wasps to PNGM at least partially contributed to decline of PNGM on the basis of long term monitoring research. After 2000s, the pine wilt disease caused by Bursaphelenchus xylophilus, an invasive species and vectored by Monochamus alternatus and M. saltuarius, native species was the major forest pest in Korea. These results showed that threat by invasive species on the forest health was increase and natural enemies at least partially contribute to stabilize outbreak of forest pests. Therefore, the further researches and monitoring on invasive species and roles of natural enemies are intensively conducted.
Forest insect pests monitoring provides essential information for forest management against their outbreaks. Long-term monitoring data for forest insect pests have been collected by National Institute of Forest Science at national level since 1968. Forest insect pests for long-term monitoring include pine needle gall midge, black pine bast scale, fall webworm, pine moth, spotted lanternfly, etc. The monitoring data were analyzed effect of meteorological factors on the outbreaks of sporadic forest insect pests. Our results showed that meteorological factors can influenced on outbreak of forest insects. The species including Lepidoptera has more occurred when fall and winter temperature were relatively high during the period, suggesting that their outbreaks depends on mortality rate during winter diapause. In Diptera, species abundance was positively related with amount of precipitation in spring but negatively related with summer temperature. The species belong to Hymenoptera was also more abundant when spring temperature was relatively warm. These results can provide useful information for predict potential forest insect pests from climate change.
Pine wilt disease (PWD) is one of the hazardous pine tree diseases in whole world. In Korea, PWD has been spreading since it was first observed in Busan in 1988. Dispersion of PWD is mainly mediated by its vectors such as Japanese pine sawyer. In this study, we characterized environmental condition including meteorological factors, geographical factors, and land use factors influencing on the occurrence of PWD. The occurrence data of PWD were collected at 153 sites where were the initial occurrence sites of PWD in local government regions such as city, Gun, or Gu scale. We used Akaike Information Criterion (AIC) to evaluate the relative importance of environmental variables on the discrimination of occurrence or absence of PWD. The results showed that altitude, slope, and distance to road were the most influential factors on the occurrence of PWD, followed by distance to building. Finally, our study presented that human activities highly influenced on the long term dispersal of PWD.
The fall webworm (FWW), Hyphantria cunea, defoliates most deciduous trees. After the first detection of FWW in Seoul in 1958, FWW had dispersed to the entire South Korea by 1972. Although currently the FWW density is not high, the defoliation is still reported in the nationwide. In Korea, FWW hibernates as a pupa and emerges between mid May and early June. Generally it is accepted that FWW has a bivoltine life cycle in South Korea: the first generation between mid May and early June and the second generation from late July to late August. However, recently the possibility of trivoltine populations in Korea has been discussed based on the field observations. In this study, we analyzed the field monitoring data and developed a model to predict occurrence patterns of FWW. We discuss the possibility of trivoltine populations in Korea based on the model developed.
This study was conducted to examine the occurrence characteristics of pine trees infected by pine wood nematode in Gyeongsangbuk-do, Korea. Based on the GPS coordinate data of the infected trees at Yeongdeok-gun from 2013 to 2014 and at Andong-si in 2014, nearest neighbor analysis was conducted to analyze nearest distance between the infected trees. And the influence of geographical factors such as altitude, slope, and the distance from the road on the position of infected trees were identified. Our results showed that over 60% of the newly infected trees were found within 50m of the trees infected in previous year. Over 70% of infected trees occurred below 100m altitude in Yoeongdeok-gun whereas less 32% of total pine trees distributed below the altitude. 98% of the infected trees and 74% of total pine trees in Andong-si were found between 150 and 300m altitude, and altitudinal distribution of the infected trees was similar to that of pine forests. Only less 5% of infected trees found in the forests located below 5 degree of slope in Yeongdeok-gun whereas 18% of total pine trees existed in the areas. Over 50% of infected trees in the forests located from 10 to 20 degree of slope, and 47% of total pine trees were found in the forests located from 5 to 15 degree of slope. Most infected trees and total pine trees were found in the forests located below 15 degree of slope in Andong-si. Over 80% of the infected trees occurred within 1km of road in both study areas.
Ips acuminatus (Coleoptera: Curculionidae) is one of the potential pests of various species of pines. To investigate the effects of thinning on I. acuminatus and Stigmatium pilosellum (Coleoptera: Cleridae), known as a natural enemy of bark beetles, were examined in Korean pine (Pinus koraiensis) forest in Chuncheon, South Korea in 2014. Three study site were selected - two sites (western slope and southern slope) that thinning was conducted in early spring 2014 and a site without thinning within 5 years. I. acuminatus and S. pilosellum were collected every week or fortnightly using the 12-unit Lindgren multi-funnel traps with pheromone lure (Ipsdienol +50/-50 40mg, Ipsenol +50/-50 40mg) from May to early October. The densities of I. acuminatus, the dominant species of bark beetles, were maximum 8.4 ± 0.9 and 1.4 ± 0.4 individuals/trap/day at thinning site and non-thinning site, respectively. In case of S. pilosellum, the dominant species of Cleridae, its densities were 17.7 ± 2.4 and 2.6 ± 0.8 individuals/trap/day at thinning site and non-thinning site, respectively. I. acuminatus showed first emergence peak on June and second emergence peak on September, but S. pilosellum showed only one time emergence peak on June – the density of S. pilosellum increased along with the density of I. acuminatus (r = 0.66, p = 0.0365). Our results shows that thinning in Korean pine forest increases the densities of I. acuminatus and S. pilosellum, reflecting increase in their food resources available.
To develop an empirical degree-day model for predicting the spring flight period of the bark beetle, Ips subelongatus Motschulsky, based on field observation, field studies were biweekly conducted in three Japanese larch (Larix kaempferi) forests in In-je, Korea from 2013 to 2014. To validate this degree-day model, we compared the model-predicted values with observed emergence data of I. subelongatus in 2015 spring at one of the sites. The flight period of over-wintering generation began on April and ended May, and flight of next generation lasted until October. The lower developmental threshold temperature (LDT) was estimated using spring emergence of I. subelongatus and field temperatures. Then a degree-day model was constructed, based on LDTs estimated from field observations data. The baseline temperature with the highest coefficient of determination was considered the LDT, and this was estimated to be 6.0℃. The explanatory power of the model was 88%. This model accurately predicted the flight of I. subelongatus in 2015 spring, as the estimated median flight dates was 1 days earlier than the corresponding observed flight date. The results of the goodness-of-fit test did not differ between observed and estimated values (ks = 0.21, P = 0.54).
The effects of thinning on community diversity of wood-boring beetles were examined in Japanese Larch (Larix kaempferi) forest in In-je, South Korea in 2013. Three study sites were selected and thinning in the plots was conducted in 2010, spring 2012, and autumn 2012, respectively. Wood-boring beetles were collected every week using the 12-unit Lindgren multi-funnel traps with pheromone lure (Ipsdienol +50/-50 40mg, Ipsenol +50/-50 40mg) from mid-April to early November. Total 5 families (Cerambycidae, Curculionidae, Dryophthoridae, Scolytidae, Platypodidae), 62 species, and 26,638 individuals were collected. Diversity indices were 2.08, 2.02 and 0.76, and evenness indices were 0.55, 0.49 and 0.19 in 2010, spring 2012 and autumn 2012 thinning area, respectively. Among wood-boring beetles, the number of species of bark and ambrosia beetles were accounted for 44.4, 41.9 and 46.3% in 2010, spring 2012 and autumn 2012 thinning area, respectively. The number of individuals of bark and ambrosia beetles were accounted for 86.9, 82.2 and 98.4% in 2010, spring 2012 and autumn 2012 thinning area, respectively. Our results showed that the density of wood-boring beetles was the highest in the most recent thinning area, suggesting that thinning timing can influenced on the abundance of bark and ambrosia beetles. Among them, Ips subelongatus, I. acuminatus, and I. sexdentatus are species that mainly attack Japanese Larch. Ips subelongatus emerged faster than others and was the most dominant species.
This study examined the effects of environmental factors on the abundance of black pine bast scale (BPBS), Matsucoccus thunbergianae Miller and Park, in coastal disaster prevention forest stands composed mostly of Japanese black pine. Geographical factors, soil conditions and forest stand conditions were measured to evaluate the hazard rating for the occurrence of BPBS from 35 plots in the coastal forest stands. To assess the hazard rating, a combination of a self-organizing map (SOM), which classified the samples according to their characteristics, and a random forest model, which predicted the probability of the occurrence of BPBS from SOM results, was used in this study. Our results showed that major factors determining the abundance of BPBS were climate, tree size, and tree health. BPBS was more common in low latitude coastal forests, suggesting that warmer conditions were favorable to BPBS population buildup. Tree size also influenced the abundance of BPBS, which was higher in forests composed of larger trees (greater DBH). Finally, BPBS was also more abundant in areas with high soil salinity and clay-loam soil, and north-facing slopes where tree vigor was lower.