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Search Word: Korea, Search Result: 5
1
Structure and Seasonal Patterns of Ground Beetles Community in Wangpi-Cheon Watershed South Korea
Jinyoung Park(Team of Protected Area Research, National Institute of Ecology) ; Jong Kook Jung(Division of Forest Insect pets and Diseases, National Institute of Forest Science) ; Jin Yeol Cha(Team of Protected Area Research, National Institute of Ecology) ; Jong Bong Choi(Department of Applied Biology, College of Ecology & Environmental Sciences, Kyungpook National University) ; Jong Kyun Park(Department of Applied Biology, College of Ecology & Environmental Sciences, Kyungpook National University) 2020, Vol.1, No.1, pp.41-51 https://doi.org/10.22920/PNIE.2020.1.1.41
초록보기
Abstract

Ground beetle fauna of Wangpi-cheon watershed in Yeongyang-gun to Uljin-gun, Gyeongsangbuk-do was investigated from May to October in 2012. Ground beetles were collected by pitfall trapping. A total of 38 species of 20 genera belonging to 8 subfamilies were identified from 2,486 collected ground beetles. Species richness was high in Pterostichinae (16 species), Carabinae (8 species), Harpalinae (5 species), Callistinae (3 species), Nebriinae (3 species) and others (1 species). Dominant species were Synuchus cycloderus (1,025 individuals) and Aulonocarabus seishinensis seishinensis (332 individuals), Pristosia vigil (133 individuals), and Coptolabrus smaragdinus branickii (117 individuals) in order. Monthly changes in abundance of upper dominante genera Pterostichus, Aulonocarabus, Coptolabrus species and Synuchus, Pristosia, Colpodes species showed that the former had the highest number in August whereas the latter increased in June and September. The genus Pterostichus species were preferred in deciduous forest in Wangpicheon watershed, while the genus Synuchus species were collected in mixes forest adjacent to farmland and recreation facilities and the genera Chlaenius, Harpalus species were collected in mixes forest adjacent to farmland nearby stream. Non-metric multidimensional scaling (NMDS), ground beetles and sites could be divided into two distinct groups: St. 1, St. 2, St. 3 group and St. 4 group. Some species such as Pterostichus orientalis orientalis, P. vicinus and P. bellatrix were particularly abundant at St. 4.


2
Predicting the Invasion Potential of Pink Muhly (Muhlenbergia capillaris) in South Korea
Jeong Soo Park(National Institute of Ecology) ; Donghui Choi(National Institute of Ecology) ; Youngha Kim(National Institute of Ecology) 2020, Vol.1, No.1, pp.74-82 https://doi.org/10.22920/PNIE.2020.1.1.74
초록보기
Abstract

Predictions of suitable habitat areas can provide important information pertaining to the risk assessment and management of alien plants at early stage of their establishment. Here, we predict the invasion potential of Muhlenbergia capillaris (pink muhly) in South Korea using five bioclimatic variables. We adopt four models (generalized linear model, generalized additive model, random forest (RF), and artificial neural network) for projection based on 630 presence and 600 pseudo-absence data points. The RF model yielded the highest performance. The presence probability of M. capillaris was highest within an annual temperature range of 12 to 24°C and with precipitation from 800 to 1,300 mm. The occurrence of M. capillaris was positively associated with the precipitation of the driest quarter. The projection map showed that suitable areas for M. capillaris are mainly concentrated in the southern coastal regions of South Korea, where temperatures and precipitation are higher than in other regions, especially in the winter season. We can conclude that M. capillaris is not considered to be invasive based on a habitat suitability map. However, there is a possibility that rising temperatures and increasing precipitation levels in winter can accelerate the expansion of this plant on the Korean Peninsula.


3
A Multiplex PCR Method for the Detection of Genetically Modified Alfalfa (Medicago sativa L.) and Analysis of Feral Alfalfa in South Korea
Wonkyun Choi(Division of Ecological Safety, National Institute of Ecology) ; Il Ryong Kim(Division of Ecological Safety National Institute of Ecology) ; Hye Song Lim(Division of Ecological Safety, National Institute of Ecology) ; Jung Ro Lee(Division of Ecological Safety, National Institute of Ecology) 2020, Vol.1, No.1, pp.83-89 https://doi.org/10.22920/PNIE.2020.1.1.83
초록보기
Abstract

Methods for detecting the presence of genetically modified (GM) crops are evolving to comply with legislation and to enhance monitoring by biotechnology companies and regulators. In order to cover a broad range of detection methods for a new GM crop, conventional multiplex PCR methods are required. Based on the genetic information on three GM alfalfa varieties (J101, J163, and KK179), which were recently approved in South Korea, we developed a fast, reliable, and highly specific multiplex polymerase chain reaction (PCR) method with basic PCR equipment and inexpensive reagents. To validate and verify the newly developed multiplex PCR method, we applied a limit of detection assay and random reference material analysis. We also monitored the unintentional environmental release of GM alfalfa in South Korea by performing the multiplex PCR analysis with 91 feral alfalfa specimens collected from 2000 to 2018. Our methodology is a sensitive, simple, quick, and inexpensive tool for detecting and identifying three GM alfalfa varieties.


4
Endosymbionts and Phage WO Infections in Korean ant Species (Hymenoptera: Formicidae)
Soyeon Park(Evolutionary Ecology Research Team, National Institute of Ecology) ; Pureum Noh(Herbal Medicine, Research Center, Korea Institute of Oriental Medicine) ; Jae-Yeon Kang(Evolutionary Ecology Research Team, National Institute of Ecology) 2020, Vol.1, No.1, pp.52-57 https://doi.org/10.22920/PNIE.2020.1.1.52
초록보기
Abstract

Bacterial symbionts are common across insects, including ants (Hymenoptera: Formicidae). Reproduction-manipulating endosymbionts, such as Wolbachia, Spiroplasma, Rickettsia, and Cardinium, are closely associated with many aspects of host-insect life. In addition, phage WO plays an essential role in the phenotypic effects of Wolbachia. Although endosymbionts are possible biological control agents, there is a lack of knowledge of their rate of infection of ants in Korea. We tested a range of Korean ant species for the presence of Wolbachia, Spiroplasma, Rickettsia, Cardinium, and phage WO by extracting DNA from the ants and using specific primer sets to test the status of infections. In addition, the mitochondrial cytochrome c oxidase I (COI) gene of the host ants was amplified to confirm the molecular identification and phylogenetic relationship between the hosts. We found that infection with Wolbachia (29.6% of species) is relatively common when compared with that of other endosymbionts. Only one species was infected with Spiroplasma. Infection with Rickettsia and Cardinium was not detected in the examined ants. Most Wolbachia in ants were infected with phage WO. Although the phenotypic effects of endosymbionts in ants are still unknown, this first survey of endosymbionts in Korea is the first step toward the use of reproduction-manipulating endosymbionts.


5
Identification of Molecular Markers for Population Diagnosis of Korean Fir (Abies koreana) Vulnerable to Climate Change
Dong Wook Kim(National Institute of Ecology) ; Da Young Park(National Institute of Ecology) ; Dae Young Jeong(National Institute of Ecology) ; Hyeong Cheol Park(National Institute of Ecology) 2020, Vol.1, No.1, pp.68-73 https://doi.org/10.22920/PNIE.2020.1.1.68
초록보기
Abstract

Korean fir (Abies koreana) is an evergreen coniferous tree species that is unique to South Korea. A. koreana is found in a limited sub-alpine habitat and is considered particularly vulnerable to climate change. Identification of populations vulnerable to climate change is an important component of conservation programs. In this study, a heat stress-induced transcriptome RNA-seq dataset was used to identify a subset of six genes for assessment as candidate marker genes for ecologically vulnerable populations. Samples of A. koreana were isolated from ecologically stable and vulnerable regions of the Halla and Jiri mountains, and the expression levels of the six candidate markers were assessed using quantitative real-time polymerase chain reaction. All six of the candidate genes exhibited higher expression levels in samples from vulnerable regions compared with stable regions. These results confirm that the six high temperature-induced genes can be used as diagnostic markers for the identification of populations of A. koreana that are experiencing stress due to the effects of climate change.


Proceedings of the National Institute of Ecology of the Republic of Korea

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