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Continuous Monitoring System for Invasive Alien Plant Pests
Jaehyuk Choi,Yang-Sup Bae,Heechan Kang 한국응용곤충학회 2018 한국응용곤충학회 학술대회논문집 Vol.2018 No.04
In recent decades, introduction of the alien plant pests into Korea was dramatically increased and the role of plant quarantine became more important than ever. At the same time, early detection of the introduced population of the alien pests is critical for protection of their spread. However, continuous monitoring for their distribution or spread has not been performed yet in Korea. Present monitoring systems in Korea is not unified but sectored according to three institutes. There are some limitations in managing human resources, executing budgets, and collecting information among them, resuling in delayed responses to the introduced alien pests. Our study focused on 1) constructing nation-wide continuous monitoring system, 2) developing a decision flow chart for evaluating risks, 3) performing the benefits and costs analysis. Continuous monitoring will clarify overall distribution of alien pests, support government’s quarantine negotiation, and enable early detection of alien pests. Furthermore, the system will provide scientific data management and early responses to invasion of alien pests.
Li Xiao-wei,Fu Kai-Yun,Guo Wen-Chao,Wang Tian-zhen,Lu Yao-bin 한국응용곤충학회 2022 Journal of Asia-Pacific Entomology Vol.25 No.4
Tuta absoluta (Meyrick) (Lepidoptera: Gelechiidae) is a devastating invasive pest worldwide, causing severe damage to tomatoes. Recently, it has been recorded in the northwestern and southwestern parts of China. Here, the mitogenomes and genetic variation of two newly invaded T. absoluta populations in Xinjiang and Yunnan, were determined. The results showed that the complete mitogenome size of T. absoluta is 15298 bp for the in dividual from Xinjiang and 15296 bp for the individual from Yunnan, which were both longer than the reported mitogenome from Spain (15290 bp). The mitogenome sequences of individuals collected from three locations showed high levels of sequence similarity, except for 8 polymorphic sites, which were in genes cox2 (1 site), cox3 (2 sites), cob (1 site), atp6 (1 site), nad1 (2 sites) and nad5 (1 site). Tuta absoluta mitogenomes share many features with other 6 Gelechiidae mitogenomes, except for several differences in the start and stop codons of protein-coding genes and the length of intergenic spacers. Seven partial mitochondrial genes (cox1, cox2, cox3, atp6, cob, nad1, and nad5) were used for genetic variation analysis, and significant population differentiation was found between the two populations based on cox2, atp6, nad1, and nad5. The complete mitogenomes and sen sitive mitochondrial gene markers reported here provide useful data for further population genetics study of this pest.
김효중,김민영,권덕호,박상욱,이예림,Junhao Huang,Shi Kai,Heung-Sik Lee,홍기정,장이권,이승환 한국응용곤충학회 2013 Journal of Asia-Pacific Entomology Vol.16 No.4
Lycorma delicatula (White)was recently introduced in Korea, acting as a grape insect pest. Since the introduction of this invasive insect, it initially spread rapidly throughout central and southern Korea, and is now distributed throughout the mainland. Here we developed new mitochondrial markers from NADH dehydrogenase subunit 2 and NADH dehydrogenase subunit 6 regions, and analyzed the regional isolates of L. delicatula collected from original locations in China, as well as invasive locations in Korea and Japan. All Korean and Japanese isolates were found to be genetically identical to those from Beijing, Tianjin, Qingdao, and Shanghai, China. Further isolates,from Zhejiang province, China, had two additional haplotypes.
A brief h istory o f phytosanitary framework development
Hyon Chong Choe 한국응용곤충학회 2023 한국응용곤충학회 학술대회논문집 Vol.2023 No.10
The idea of phytosanitation has continuously received attentions since 1950s, as the volume of international trade began to rise. All aspects of phytosanitation, including regulatory framework as well as the supporting technologies and sciences, have developed intercorrelatedly to the exponential growth of the trade, for the protection of an importing country’s agriculture, landscape, and industries from potential damages by invasive non-native pests. Phytosanitary regulatory framework has chiefly been developed by the International Plant Protection Convention (IPPC), which is the foundation of the standardized phytosanitary measures across the borders, as delineating roles/responsibilities of every stakeholder on a trade continuum. Changes and modifications on the framework will be continuously required to cope with the on-going challenges by invasive non-native pests. Its role is no longer limited to plant protection but has blended into other frameworks, such as biosecurity and food safety.
Model-based prediction of invasive pests distribution in response to climate change by using CLIMEX
Wang-Hee Lee,Jae-Min Jung,Dae-hyeon Byeon,Sunghoon Jung 한국응용곤충학회 2017 한국응용곤충학회 학술대회논문집 Vol.2017 No.10
Invasive pests have posed an ecological threat as climate change has been accelerated, suggesting early prediction ofinvasive pests is required to minimize damages by them. As one of predictive tools, CLIMEX has been effectively usedin a few regions, including US, Australia, and Europe. It allows us to predict a species distribution on a local area inresponse to climatic conditions: and thus, potential distribution of invasive species, risk assessment of agricultural pests,and suitability of biological control agents have been tested by CLIMEX. In this study, we introduced how to use CLIMEXfor predicting a species distribution differed by climate change in terms of its functions, required data, and examplesof its application.
Thilakarathne Dinelka,Hirimuthugoda Nadeela,Ranawana Kithsiri,Kumburegama Shalika 한국생태학회 2024 Journal of Ecology and Environment Vol.48 No.1
Background: The available information on terrestrial pest gastropods and their impact on the environment worldwide is scarce and outdated. The present study aimed to address this gap by conducting the first comprehensive survey of pest gastropods in the Nuwara Eliya District, an important vegetable growing area in the highlands of Sri Lanka. Eighty agricultural lands were surveyed over two years by establishing ten 1 m2 sampling plots per crop type in each agricultural land. Geo-coordinates, air temperature, elevation, relative humidity, daily rainfall, soil pH, species richness and abundance were recorded for rainy and non-rainy periods. The relationship between species composition and environmental variables was analyzed using multi-regression models and distribution maps. Results: Out of the 14 species recorded in agricultural lands, nine were identified as exotic pest species. Species abundance (t = 4.69, p < 0.05) and diversity was higher in the rainy period and the dominant species during this period were Bradybaena similaris (t = 2.69, p < 0.05) and Deroceras reticulatum (t = 2. 46, p < 0.05). Eggs and estivating adults were found in soil and under decaying organic matter during the non-rainy period. The exotic species showed broader preferences for the measured environmental factors and showed a wider range in distribution compared to the native species. Variation in pest gastropod composition was significantly accounted for by elevation, relative humidity, soil pH and daily rainfall. Additionally, the species richness and abundance varied across locations due to the combined effects of elevation, crop type and stage, and field type. Conclusions: The study emphasizes the importance of understanding the biology and ecology of gastropod pests to develop effective management strategies. By considering the influence of environmental factors and implementing appropriate soil management techniques, such as targeting specific habitats and crop stages, it is possible to mitigate pest populations and minimize their impact on agricultural lands. Overall, this research contributes valuable insights into the dynamics and interactions of terrestrial gastropods in agricultural ecosystems, supporting sustainable pest management practices.
정재민,정성훈,변대현,이왕희 국립중앙과학관 2017 Journal of Asia-Pacific Biodiversity Vol.10 No.4
Lycorma delicatula is one of the major invasive pests of Korea. Careful monitoring is required to protect domestic agriculture as this pest causes severe damage to agricultural crops, such as wilting and sooty mold. This study was designed to confirm the potential distribution of L. delicatula using the modeling software CLIMEX and to suggest fundamental data for preventing agricultural damage by L. delicatula. Our results show that Korean weather seems to be adequate for L. delicatula habitation, indicating that approximately 60% of areas examined have a very high possibility of potential distribution. Particularly, we showed that Gyeongsang-do and Jeonla-do, which have not yet been invaded by L. delicatula, were very suitable locations for its growth. Therefore, although it is necessary to set up feasible strategies for preventing further L. delicatula invasions, subsequent studies are needed for assessing other invasive species considering the impact of future climate change.
Development of Sampling Strategy for Invasive Insect Pest Using Species Distribution Model
Jung-Joon Park,Kwang-Ho Kim,Dong-Soon Kim 한국응용곤충학회 2018 한국응용곤충학회 학술대회논문집 Vol.2018 No.04
Sampling insect pest population is often a necessary component of a proposed pest control strategy. Insect populations are poikilothermal animal and readily applied to model systems in several ways. When insect population immigrate to new possible habitats, they should be related with biotic and abiotic environments for survive and settle down. Based on climate change scenario, invasive insect species would be overcome its geographical limitation as well as local distribution of well-known species should be changed in near future. In this study, Species distribution modeling of native and invasive species were developed, compared and discussed for developing sampling strategies for invasive insect pest populations.