The domestic Pressurized Heavy Water Reactor (PWHR) nuclear power plant, Wolsong Unit 1, was permanently shut down on December 24, 2019. However, research on decommissioning has mainly focused on Pressurized Water Reactors (PWRs), with a notable absence of both domestic and international experience in the decommissioning of PHWRs. If proper business management such as radiation safety and waste is not performed, it can lead to increased business risks and costs in decommissioning. Therefore, the assessment of waste volume and cost, which provide fundamental data for the nuclear decommissioning process, is a crucial technical requirement before initiating the actual decommissioning of Wolsong Unit 1. Decommissioning radiation-contaminated structures and facilities presents significant challenges due to high radiation levels, making it difficult for workers to access these areas. Therefore, technology development should precede decommissioning process assessments and safety evaluations, facilitating the derivation of optimal decommissioning procedures and ensuring worker safety while enhancing the efficiency of decommissioning operations. In this study, we have developed a program to estimate decommissioning waste amounts for PHWRs, building upon prior research on PWR decommissioning projects while accounting for the specific design characteristics of PHWRs. To evaluate the amount of radioactive waste generated during decommissioning, we considered the characteristics of radioactive waste, disposal methods, packaging container specifications, and the criteria for the transfer of radioactive waste to disposal operators. Based on the derived algorithm, we conducted a detailed design and implemented the program. The proposed program is based on 3D modeling of the decommissioning components and the calculation of the Work Difficulty Factor (WDF), which is used to determine the time weighting factors for each task. Program users can select the cutting and packaging conditions for decommissioning components, estimate waste amount based on the chosen decommissioning method, and calculate costs using time weighting factors. It can be applied not only to PHWRs, but also to PWRs and non-nuclear fields, providing a flexible tool for optimizing decommissioning process.

Decommissioning waste is generated with various types and large quantities within a short period. Concrete, a significant building material for nuclear facilities, is one of the largest decommissioning wastes, which is mixed with aggregate, sand, and cement with water by the relevant mixing ratio. Recently, the proposed treatment method for volume reduction of radioactive concrete waste was proven up to scale-up testing using unit equipment, which involved sequentially thermomechanical and chemical treatment. According to studies, the aggregate as non-radioactive material is separated from cement components with contaminated radionuclides as less than clearance criteria, so the volume of radioactive concrete waste is decreased effectively. However, some supplementation points were presented to commercialize the process. Hence, the process requires efficiency as possible to minimize the interface parts, either by integration or rearranging the equipment. In this study, feasibility testing was performed using integrated heating and grinding equipment, to supplement the possible issue of generated powder and dust during the process. Previously, heat treatment and grinding devices were configured separately for pilot-scale testing. But some problems such as leakage and pipe blockage occurred during the transportation of generated fine powder, which caused difficulties in maintaining the equipment. For that reason, we studied to reduce the interface between the equipment by integrating and rearranging the equipment. To evaluate the thermal grinding performance, the fraction of coarse and concrete fines based on 1mm particle size was measured, and the amount of residual cement in each part was analyzed by wet analysis using 4M hydrochloric acid. The result was compared with previous studies and the thermomechanical equipment could be selected to enhance the process. Therefore, it is expected that the equipment for commercialization could be optimized and composed the process compactly by this study.

It has been known that as oxide layer (ZrO2) forms on the nuclear fuel cladding during irradiation in nuclear power plants, the corrosion kinetics are influenced by various parameters such as chemical environments. One of those environments, crud deposition driven by coolant chemistry has an adverse effect on the formation of oxide (ZrO2) and leads to increase thickness of the layer. In this study, crud formation was performed through loop experiment equipment on the surface of intentionally-made oxide layer (ZrO2) on cladding tubes and then the composition and characteristics of cruds were examined for the investigation of nuclear power plant environment. As a result, various cruds in composition and microstructure were formed depending on the exquisite methods and conditions such as metal ion concentration.

With the aging of nuclear power plants (NPPs) in 37 countries around the world, 207 out of 437 NPPs have been permanently shutdown as of August 2022 according to the IAEA. In Korea, the decommissioning of NPPs is emerging as a challenge due to the permanent shutdown of Kori Unit 1 and Wolsong Unit 1. However, there are no cases of decommissioning activities for Heavy Water Reactor (HWR) such as Wolsong Unit 1 although most of the decommissioning technologies for Light Water Reactor (LWR) such as Kori Unit 1 have been developed and there are cases of overseas decommissioning activities. This study shows the development of a decommissioning waste amount/cost/process linkage program for decommissioning Pressurized Heavy Water Reactor (PHWR), i.e. CANDU NPPs. The proposed program is an integrated management program that can derive optimal processes from an economic and safety perspective when decommissioning PHWR based on 3D modeling of the structures and digital mock-up system that links the characteristic data of PHWR, equipment and construction methods. This program can be used to simulate the nuclear decommissioning activities in a virtual space in three dimensions, and to evaluate the decommissioning operation characteristics, waste amount, cost, and exposure dose to worker. In order to verify the results, our methods for calculating optimal decommissioning quantity, which are closely related to radiological impact on workers and cost reduction during decommissioning, were compared with the methods of the foreign specialized institution (NAGRA). The optimal decommissioning quantity can be calculated by classifying the radioactivity level through MCNP modeling of waste, investigating domestic disposal containers, and selecting cutting sizes, so that costs can be reduced according to the final disposal waste reduction. As the target waste to be decommissioning for comparative study with NAGRA, the calandria in PHWR was modeled using MCNP. For packaging waste container, NAGRA selected three (P2A, P3, MOSAIK), and we selected two (P2A, P3) and compared them. It is intended to develop an integrated management program to derive the optimal process for decommissioning PHWR by linking the optimal decommissioning quantity calculation methodology with the detailed studies on exposure dose to worker, decommissioning order, difficulty of work, and cost evaluation. As a result, it is considered that it can be used not only for PHWR but also for other types of NPPs decommissioning in the future to derive optimal results such as worker safety and cost reduction.

Insect constitute the largest and most diverse group of animals on world and also serve as the hosts or nutrient sources. In addition, several insects have a strong influence on people's emotion. To utilize the preference and interest of insects in the field of mental healthcare, a survey study was conducted with individual living in Korea. As results, the most people had a high preference and interest of insect, but some were disagreeable to the insect itself. The preference and interest of insect were high on male, adult and practician experienced insect-related events than female, student and non-practician, respectively. The most favored insects were familiar or pet insects such as Papilio xuthus, Lucanus maculifemoratus, Allomyrina dichotoma and Lampyridae. These results may be useful to develop a healing program for mental healthcare using insects. Further research is needed to determine the effects of these insect in the mental therapy for this purpose.

Transgenic chickens have been spotlighted as an highly potent bioreactor for their fecundity, short generation time, and eggs associated with mass production of protein. In this study, we generated transgenic chickens exhibiting oviduct specific expression of human growth hormone fused to human transferrin for oral administration. Gene of the modified growth hormone located at downstream ovalbumin promoter (∼3.6 kb) was introduced to stage X blastodermal cell employing retrovirus vector system. Several transgenic chickens were successfully generated. However, genomic analyses showed unexpected deletion within the transgene. The modification of the transgene seemed to occur during germ cell formation because the deletion was detected only from the sperm DNA of the G0 founder animal. There was no evidence of deletion in the somatic cell DNA samples of the same chicken. Consequently, same pattern of the deletion was confirmed in both somatic and germ cells of the G1 progeny.

본 연구는 환경스트레스 저항성이 증진된 페튜니아를 개발하기 위하여 NDPK2유전자 도입 형질전환 계통 NDPK2-7-1와 SOD2 유전자 도입 형질전환 계통 SOD2- 2-1-1-35간의 교잡에 의해 획득된 후대들의 비생물적 스트레스 저항성을 조사하기 위해 수행되었다. 비 생물적 스트레스 유발원인 메틸바이올로젠(methyl viologen, MV) 100 μM과 200 μM 처리에서 교잡후대들은 그들의 교배 모본 SOD2 유전자나 NDPK2 유전자가 단독으로 도 입된 형질전환 계통이나 비형질전환체 보다 메틸바이 올로젠에 의한 피해를 적게 받았다. 이는 SOD2 유전 자나 NDPK2 유전자가 단독으로 도입된 형질전환 계 통간 교잡에 의해 획득된 후대들이 그들의 교배모본 (SOD2 유전자나 NDPK2 유전자가 단독으로 도입된 형질전환 계통)이나 비형질전환체 보다 산화적 스트레 스에 대한 저항성이 증진되었음을 증명해 준다고 할 수 있다. 이들 교잡후대들은 초장 등 11종류의 양적형질의 특성이 비형질전환체에 비해 약간 길거나 짧긴 하였지 만 비형질전환체와 거의 유사하였으며, 꽃 색갈이나 모양 또한 그들의 교배모본 (SOD2 유전자나 NDPK2 유전 자가 단독으로 도입된 형질전환 계통)이나 비형질전환 체와 차이가 없었다.

tasks that require nematode extraction and microscopic examination. To develop a more efficient detection method for Bursaphelenchus xylophilus, we first generated monoclonal antibodies (MAbs) specific to B. xylophilus. Among 2,304 hybridoma fusions screened, a hybridoma clone named 3-2A7-2H5 recognized a single protein from B. xylophilus specifically. We finally selected the MAb clone 3-2A7-2H5-D9-F10 (D9-F10) for further studies. To identify the antigenic target of MAb-D9-F10, we analyzed proteins in spots, fractions or bands via nano liquid chromatography electrospray ionization quadrupole ion trap mass spectrometry (nano-LC-ESI-Q-IT-MS). Peptides of galactose-binding lectin-1 of B. xylophilus (Bx-LEC-1) were commonly detected in several proteomic analyses, demonstrating that this LEC-1 is the antigenic target of MAb-D9-F10. The localization of MAb-D9-F10 immunoreactivities at the area of the median bulb and esophageal glands suggested that the Bx-LEC-1 may be involved in food perception and digestion. The Bx-LEC-1 has two non-identical galactose-binding lectin domains important for carbohydrate binding. The affinity of the Bx-LEC-1 to D-(+)-raffinose and N-acetyllactosamine were much higher than that to L-(+)-rhamnose. Based on this combination of evidences, MAb-D9-F10 is the first identified molecular biomarker specific to the Bx-LEC-1.

The pinewood nematode (PWN, Bursaphelenchus xylophilus) is known as a virulent factor of the pine wilt disease, transmitted to pinewoods by the pine sawyer beetle, Monochamus alternatus. It is very hard to discriminate B. xylophilus from B. mucronatus because these Bursaphelenchus species are genetically and biochemically very close. Therefore, it has been necessary to detect PWN-infected trees for the prevention of pine wilt disease transmission in a short time. We developed polyclonal antibodies against B. xylophilus in BalbC mice and primarily screened with ELISA. Positive clones releasing polyclonal antisera revealed B. xylophilus-specific immuno-reactivity, which were at least two times higher than that of B. mucronatus. Two clones, D9-F10 and 1F3, were finally selected and exhibited specific immuno-reactivity for B. xylophilus, not for B. mucronatus in Western blot analysis. D9-F10 clone was reactive with a 43-kDa whereas 1F3 clone with two proteins, 40- and 45-kDa. Their isotypes against mouse Ig family were identical, kappa-light chain. These results suggest that these monoclonal antibodies can be useful for the development of diagnostic kit for the pine wilt disease.

The Black Soldier Fly (BSF, Hermetia illucens) was widely distributed throughout Korea. This insect was mainly found in the vicinity of and in cattle sheds, manure sheds, living waste dump grounds, and food waste dump grounds. This fly is a kind of a beneficial fly because BSF adults do not go into houses, they do not regurgitate on human food, they do not bite, bother or pester humans in any way and they are not associated in any way with the transmission of disease. But their greatest attribute lies their ability to eat and digest raw waste. They can devour, for example, a large, raw, Irish potato and others in just a few hours. Unlike many other flies, since the BSF larvae have very powerful mouth parts and digestive enzymes, they can ingest raw waste far more efficiently than any other known species of fly. On this study, to investigate whether feeding strategy of the BSF larvae involves extra-oral digestion or not, and to better understand this process, the salivary glands and a few tissue from the BSF were dissected and subjected to morphological and preliminary enzyme characterization.

Varroa destructor is an ecto-parasite mite and worldwide pest of the honey bee Apis mellifera L. The pyrethroid tau-fluvalinate (Apistan), an acaricide that is tolerated by honey bees, has been used for varroa mite control since the mid 1980s. Even though various resistances to tau-fluvalinate in varroa mites have been reported from Europe, Israel, and USA, the nature of tau-fluvalinate resistance in varroa mites in Korea has never been investigated. To investigate and understand tau-fluvalinate resistance in varroa mites in Korea, we conducted bioassay in several apiaries located different regions in Korea. To understand the molecular mechanisms underlying the difference of tau-fluvalinate resistances in varroa mites, partial genomic DNA fragments of a voltage-sensitive sodium channel gene from varroa mites were cloned and sequenced, since tau-fluvalinate is known to act on the sodium channels directly. Two novel mutations in sodium channels of varroa mites were present in eight apiaries. Two mutations might be a geographical polymorphism of sodium channel of varroa mites in Korea.

The pine sawyer beetle, Monochamus alternatus, transmits the pinewood nematode (PWN, Bursaphelenchus xylophilus), causing the pine wilt disease (PWD), which gives rise to enormously economic as well as forest damage. However, PWN has been identified as a pathogen of PWD, it is very difficult to discriminate B. xylophilus from B. mucronatus in a short time, which are genetically and morphologically very similar. Therefore, it has been necessary to detect and eliminate PWN-infected trees in the forest area for the prevention of PWD transmission. Up to date, there is no report on biomarkers such as DNA and protein for the diagnosis of B. xylophilus. In this study, we produced a B. xylophilus monoclonal antiserum (D9-F10) from BalbC mice and screened its specificity with various proteins extracts. Western blot analysis revealed that the D9-F10 is only reactive with B. xylophilus protein extract among other tested protein extracts, indicating that the D9-F10 is specific for a B. xylophilus protein. Furthermore, two-dimensional electrophoresis showed the D9-F10 detects a very highly acidic protein, pI≒3.5. These results suggest that the D9-F10 monoclonal antibody is useful for the development of a diagnostic kit for the pine wilt disease.

Pine wilt is the most important disease of pine trees in Korea, Japan and China. The pathogen causing this disease, the pinewood nematode (Bursaphelenchus xylophylus), is transmitted vectored by adults of some cerambycid beetle species and the Japanese pine sawyer, Monochamus alternatus, is the major vector species in Korea. Although chemical insecticides have been used to kill vector insect and thus prevent transmission of the pathogen, the efficacy is not good. In Japan, to control this insect, an entomopathogenic fungus was studied and developed as an insecticide. This is thought to be the convenient and effective method to control M. alternatus. Recently, there are several reports about the pinewood nematode is vectored by also the pine sawyer, M. saltuarius, in Korea. The objective of this study, therefore, was to isolate and identify entomopathogenic fungi from M. saltuarius cadaver to control it. We collected the cadaver of M. saltuarius and then screened several fungi colonies. The pathogenicity of each fungus was tested using oak longicorn beetle, Moechotypa diphysis, as substitutive insect. M. diphysis is also serious pest to various trees in forest. As the result, only one of them showed high pathogenicity against M. diphysis. Selected fungus was identified by microscopic examination and DNA analysis. Pathogenicity was also evaluated to M. saltuarius.

The pinewood nematode (PWN, Bursaphelenchus xylophilus) causes the pine wilt disease, transmitted to pinewoods by the pine sawyer beetle, Monochamus alternatus. It is very difficult to discriminate B. xylophilus from B. mucronatus. Therefore, it has been necessary to detect PWN-infected trees for the prevention of pine wilt disease transmission in a short time. The development of biomarkers such as DNA and protein is important for diagnosis of B. xylophilus. However, there have been no reports regarding biomarker identifications of B. xylophilus. In this study, polyclonal antisera were raised against whole proteins of B. xylophilus in BalbC mice and were primarily screened with ELISA. Twenty five among over 500 cell lines releasing polyclonal antisera revealed B. xylophilus-specific immuno-reactivity, which was at least three times higher than that of B. mucronatus. Three cell lines among them were secreting monoclonal antibody through further screening. These cell lines only detect about a 33-kDa protein in B. xylophilus in the western blot. These results suggest that these monoclonal antibodies will be useful for the development of diagnostic kit for the pine wilt disease.