Reinforced concrete (RC) piloti buildings are vulnerable in the event of earthquake because the stiffness in the 1st story columns is weak to compare with the members in upper stories. In this study, seismic performances of RC piloti structures were evaluated considering with different types of floor plane layouts according to core eccentricity. With four types of floor plane layouts, five stories plioti structures were evaluated by two approaches, a nonlinear pushover analysis and a nonlinear time-history analysis. In order to improve seismic performances by satisfying the collapse prevention (CP) level, two ductile reinforcing methods by carbon fiber sheets and steel jackets were applied. Due to eccentricities in stiffness and mass with directions of plane and vertical stories, piloti structures were greatly influenced by higher order modes, so the seismic performances by the time-history analysis were significantly different from by the static pushover analysis.

본 연구는 사과 ‘홍로’의 생육 시기별 품질 변화를 분석하여 숙기를 진단하기 위한 최적 수확 지표를 선정하고, 기계 수확 이 가능한 사과 ‘홍로’의 품질 기준을 설정하고자 수행되었다. 전라북도 완주군에 위치한 국립원예특작과학원에서 재배된 7년생 사과 ‘홍로’ 품종을 대상으로 2021년부터 2023년까지 만개 후 58－59일(6월 상순)부터 수확 시기가 지난 만개 후 164－173일(9월 하순)까지 10일 간격으로 과실 품질을 조사 하였다. 또한 완주군, 화성시, 포천시에서 수집된 품질 데이터 를 활용하여 지역별 ‘홍로’ 품질 변화를 분석하였다. 과중은 생육이 진전됨에 따라 증가하다가 수확기 직전 250－320g 범 위에 도달했다. 경도와 산도는 생육이 진전되면서 감소했고, 가용성 고형물 함량은 증가하다가 12－14°Brix 에서 더 이상 증가하지 않는 경향을 나타냈다. 또한 당산비는 생육이 진전 될수록 증가하여 수확기에는 50 이상으로 증가했다. 색도 L* 값과 b*값은 증가하다가 수확기에는 급격하게 감소했으며, a* 값은 수확기에 급격히 증가하였다. 전분 함량은 생육 후반부 에 급격히 감소하여 수확기에는 20mg·g-1 이하로 낮아졌다. 전분 함량과 과실 특성들 간의 상관분석을 한 결과, 경도와 산도가 각각 0.86과 0.84로 높은 상관성을 나타냈다. 따라서 경 도와 산도를 최적 수확 지표로 선정하였으며, 수확 가능 최소 품질 범위는 경도 39.7±6.4N, 산도 0.255±0.052%, 가용성 고 형물 함량 13.6±1.3°Brix, 색도 a*값 14.7±12.8로 설정하였 다. 이 기준과 함께 회귀 계수가 높은 비파괴 조사항목인 종경, 횡경, 색도a*값을 활용한다면 기계 수확뿐만 아니라 재배자 에게도 유용한 정보를 제공하여 수확 시기를 최적화시킬 수 있을 것으로 기대한다.

In treatment processes of drinking water, the use of disinfectants is essential for eliminating microorganisms and pathogenic viruses. Chlorine dioxide (ClO2) is one of the most promising disinfectants. To ensure its effective application in drinking water treatment, it is crucial to investigate the stability and reactivity of ClO2 in drinking water treatment environments. Therefore, we examined the effects of various environmental factors such as temperature, light type, fluorescence intensity, and water quality on its stability. We also examined its reactivity with activated carbon and other inorganic compounds such as coagulants and hypochlorous acid. Findings revealed that ClO2 stability was influenced by several environmental factors. Typically, ClO2 is highly volatile. However, the rate of its volatility is independent of its concentration. As temperature and fluorescent light intensity increased, the concentration of ClO2 showed a rapid decline. Additionally, the presence of activated carbon significantly reduced ClO2 levels. In contrast, the reactivity of ClO2 with coagulants and hypochlorous acid was negligible. These findings provide essential insights for optimizing the use of ClO2 in drinking water treatment facilities.

This review examines the importance of measuring practical enteric methane emissions from ruminants, considering their significant impact on global warming. Global warming is significantly driven by an increase in greenhouse gases, with rising methane (CH4) emissions from ruminants accelerating global warming recently. To successfully mitigate CH4 emissions and establish effective strategies, it is essential to apply reliable measurement techniques. This will allow for an accurate assessment of on-farm CH4 emissions. The priority should be to gather CH4 emission data that reflects the actual state of CH4 emissions from ruminants. The review provides an overview of the methods used to measure CH4 emissions from ruminants by compiling existing researches. It introduces the concepts, principles, and limitations of these methods to facilitate comparisons between existing approaches. This review discusses methods for measuring enteric CH4 emissions from ruminants at the farm level, including the tracer technique, laser methane detector, GreenFeed, and sniffer system. These methods are highlighted as potential tools to accumulate substantial data on on-farm CH4 emission from domestic animals with provides examples of international cases. Among these, this review introduces the Sniffer method, a CH4 emission measurement techniques that are suitable for on-farm use under domestic conditions, and emphasizes the necessity of its application. In addition, by presenting international cases where predictive models were developed based on on-farm CH4 measurement techniques, it is projected that if predictive models for CH4 emissions are developed by accumulating data at the farm level, it can contribute to sustainable livestock industry in various promising ways.

This study presents a systematic causal analysis of the fuel consumption rate reduction phenomenon observed in mortar-carrier tracked vehicles during driving tests. The investigation focused on identifying the root causes and developing effective improvement measures. Through comprehensive inspections and tests of the chassis and power pack components, along with data analysis, the study identified the damage of the engine flywheel housing gasket and the clogging of the transmission exhaust pump strainer as the main causes of the reduced fuel consumption rate. The causal relationship between the two phenomena was empirically proven using material composition analysis and statistical techniques, enhancing the reliability and validity of the diagnosis. Based on the root cause analysis results, improvements were implemented, including the replacement of the engine gasket and the cleaning of the transmission exhaust pump strainer. The effectiveness of the improvements was quantitatively verified, confirming a significant enhancement in fuel consumption rate and cruising range. By employing a systematic and scientific analysis methodology, this study provides a foundation for improving the reliability and maintenance efficiency of similar weapon systems and power transmission systems in general.

국내에서 V. parahaemolyticus로 인한 식중독 사고가 지 속적으로 보고되고 있으며, 최근 국내 수산물 판매량 및 수산물 양식에 사용되는 항생제 판매량은 증가하는 추세 이다. 따라서 본 연구는 국내에 유통되는 수산물에서 분 리한 V. parahaemolyticus의 분포, 항생제 감수성, 유전적 특성 및 유전학적 통계를 조사하였다. 79건의 유통 수산 물로부터 47건(59.5%)에서 V. parahaemolyticus가 분리되 었다. 항생제 내성 양상의 경우, 총 47균주의 분리 균주에 서는 ampicillin에 2균주(4.3%)가 내성을 보였으며, 이외 균주는 모든 항생제에 대해 감수성을 보였다. 항생제 내 성 유전자의 경우, 모든 균주(100%)로부터 blaCARB family gene, tet(35), catC가 확인되었으며, 1균주(2.1%)에서는 fos 가 확인되었다. 병원성 유전자 여부의 경우, 모든 분리 균 주에서 tdh, trh 유전자는 확인되지 않았으나, T3SS1은 모든 균주(100%), T3SS2는 1균주(2.1%)에서 확인되었다. MLST의 경우, 17균주로부터 15가지의 ST가 확인되었으 며, ST 658가 3균주, 이외 14가지 ST는 1균주씩 확인되 었다. 확인된 ST는 대부분 중국, 태국 등의 환경 분리주로 확인되었으며, ST 396, ST 3042는 중국 임상 분리주로부터 확인되었다. 이로써, 최근 국내에 수산물과 관련한 식중독, 유통량, 항생제 판매량 등의 추세에 따른 위험성에 V. parahaemolyticus에 대한 지속적인 연구가 필요할 것으로 사 료되며, 본 연구는 그에 대한 도움이 될 것이라 사료된다.

우리나라에서 공용중인 시설물은 총 172,111개로 집계되고 있으며, 그 중 교량은 34,199개로 사회 기반시설 중 가장 많은 비중을 차지한다. 이러한 교량은 공용하중, 온도, 습도 등에 의해 거더간 신축 량이 발생하게 되고 신축량 발생으로 인한 유간거리에 대해 차량의 통행 안정성 및 주행성 확보를 위 한 신축이음장치를 설치하게 된다. 신축이음장치를 설치하여 차량의 통행 안정성 및 주행성을 확보할 수 있지만 누수 및 퇴적물 낙하 등을 직접적으로 방지하지 못하여 고무지수재를 별도로 설치하게 된 다. 하지만 이러한 고무지수재는 다양한 원인에 의해 쉽게 손상이 발생한다. 손상된 고무지수재를 통 해 거더의 부식, 교량하부 인명사고 등 다양한 2차 피해가 발생할 수 있다. 피해방지를 위한 교량의 유지관리를 지속적으로 수행하고 있지만 고무지수재 특성상 지속적인 교체가 불가피한 실정이다. 따라 서 본 연구에서는 기존 신축이음장치에 활용되는 고무지수재의 문제점을 해결하기 위하여 초탄성 형 상기억합금을 활용한 새로운 지수재 개발 연구를 수행하였다. 이에 대해 초탄성 형상기억합금 지수재 와 고무지수재에 대한 유한요소해석을 수행하고 비교 및 분석하였으며, 하중 제거 후 원형으로 복원되 는 효과를 통해 지속 사용 가능한 지수재 연구를 검증하였다.

This study aimed to assess and determine the optimal model for predicting the full bloom date of ‘Fuji’ apples across South Korea. We evaluated the performance of four distinct models: the Development Rate Model (DVR)1, DVR2, the Chill Days (CD) model, and a sequentially integrated approach that combined the Dynamic model (DM) and the Growing Degree Hours (GDH) model. The full bloom dates and air temperatures were collected over a three-year period from six orchards located in the major apple production regions of South Korea: Pocheon, Hwaseong, Geochang, Cheongsong, Gunwi, and Chungju. Among these models, the one that combined DM for calculating chilling accumulation and the GDH model for estimating heat accumulation in sequence demonstrated the most accurate predictive performance, in contrast to the CD model that exhibited the lowest predictive precision. Furthermore, the DVR1 model exhibited an underestimation error at orchard located in Hwaseong. It projected a faster progression of the full bloom dates than the actual observations. This area is characterized by minimal diurnal temperature ranges, where the daily minimum temperature is high and the daily maximum temperature is relatively low. Therefore, to achieve a comprehensive prediction of the blooming date of ‘Fuji’ apples across South Korea, it is recommended to integrate a DM model for calculating the necessary chilling accumulation to break dormancy with a GDH model for estimating the requisite heat accumulation for flowering after dormancy release. This results in a combined DM+GDH model recognized as the most effective approach. However, further data collection and evaluation from different regions are needed to further refine its accuracy and applicability.

This study was conducted to determine the optimal irrigation starting point by analyzing tree growth, physiological responses, fruit quality, and productivity in peach orchards. Seven-year-old ‘Kawanakajima Hakuto’ peach trees were used in an experimental field (35°49′30.4″N, 127°01′33.2″E) located within the National Institute of Horticultural and Herbal Science located in Wanju-gun, Jeollabuk-do. The irrigation starting point was set with four levels of –20, –40, –60, and –80 kPa from June to September 2022. While there were no significant differences in increase of trunk cross-section area and leaf area among treatments, shoot length and diameter decreased in the –80 kPa and –20 kPa treatments. The photosynthetic rate measured in August was highest for –60 kPa (17.7 μmol·m-2·s-1), followed by –40 kPa (15.6 μmol·m-2·s-1), –20 kPa (14.5 μmol·m-2·s-1) and –80 kPa (14.0 μmol·m-2·s-1). SPAD value measured in May and August was lower in the –80 kPa and –20 kPa treatments than in the –60 kPa and –40 kPa treatments. The harvest date reached three days earlier in the –20 kPa treatment compared to other treatments. The fruit weight was highest in the –60 kPa (379.1 g), followed by –40 kPa (344.0 g), –80 kPa (321.0 g) and –20 kPa (274.9 g). Firmness was the lowest in the –20 kPa treatment. The soluble solid content was highest in the –60 kPa treatment (13.3°Bx).The ratio of marketable fruits was highest in the –60 kPa treatment (50.7%) and lowest in the –80 kPa treatment (23.4%). In conclusion, we suggest that setting the irrigation starting point at –60 kPa could improve the fruit quality and yield in peach orchards.

식량 작물의 확보 및 생산량 예측은 국가 발전에 있어 필수적이며, 국가 경제뿐만 아니라 전 세계 식량 안보에 기여 한다. 최근 환경오염으로 인한 이상기후는 식량 작물 생산량에 직ㆍ간접적으로 부정적 영향을 끼치고 있어, 작물 수확량 예측 불확실성이 높아지고 있다. 특히, 노지 작물의 경우 생산량 감소와 품질 저하 문제가 화두 되고 있다. 이러한 문제는 농가들뿐만 아니라 소비자들에게도 큰 피해를 안겨주고 있다. 이러한 생산량 예측 이슈를 해결하기 위해 최근에는 인공지능 기술이 농업 분야에도 활발히 적용되고 있다. 작물 수확량의 정확한 예측을 위한 머신러닝 기반 연구가 집중적으로 수행되고 있다. 따라서, 본 연구에서는 이와 같은 인공지능 기반의 노지 작물 수확량 예측 기술(머신러닝, 딥러닝, 하이브리드 모델 등) 현황 및 작물 수확량에 가장 영향을 많이 끼치는 모델 파라미터 등을 조사하였다.

Freshwater jellyfish, a type of jellyfish exclusively found in freshwater, has a limited number of species but is found globally. However, their ecology and causes of occurrence are largely unknown. Therefore, understanding the distribution of polyps, which produce the larvae of freshwater jellyfish, can provide important data for comprehending their ecology. This study aims to explore the COI gene of freshwater jellyfish using environmental DNA from the microbial film in the Miho River system. Among the 12 survey points in the Miho River watershed, genetic material of freshwater jellyfish was detected in 8 points, mainly located upstream near reservoirs. These genetic materials were identified as genes of the well-known freshwater jellyfish species, Craspedacusta sowerbii. Notably, the C. sowerbii genes found in the Miho River watershed survey points were closely related to a species previously discovered in Italy. Consequently, utilizing environmental DNA to explore the genetic traces of freshwater jellyfish enables rapid screening of areas with a high likelihood of freshwater jellyfish occurrence. This approach is deemed to provide crucial information for understanding the distribution and ecology of freshwater jellyfish in Korea.

This study was conducted to provide basic data on the antioxidant activity, inhibition of adipocyte differentiation and reactive oxygen species (ROS) production of a mixture of Brassica juncea extract (BJE) and fermented black rice fraction (BRF). We investigated the total phenol content, total flavonoid content, antioxidant effects (DPPH radical scavenging, ABTS radical scavenging, reducing power, FRAP and ORAC assay) and anti-obesity activity of the mixture in 3T3-L1 cells. Our results showed that the total phenol and flavonoid content increased with increasing BRF mixture ratio. The antioxidant activity increased as the BRF mixture ratio increased. In addition, BJE and BRF mixtures did not show any cytotoxicity during the 3T3-L1 differentiation period. During adipocyte differentiation, BJE and BRF mixtures significantly inhibited lipid accumulation and ROS production compared to the control group. These results warrant further experiments to develop an anti-obesity functional food using a mixture of BJE and BRF.

주소 관련 미래 산업의 확장으로 새로운 주소체계에 대한 수요가 증가하였으며, 특정 사물에 주소를 부여하는 체계인 사물주소의 중요성이 강조되고 있다. 현행 사물주소는 행정안전부가 제작 및 배포하고 있으며 데이터베이스 제작 등 사물주소의 활성화를 위한 노력이 지속되고 있다. 하지만 현행 사물주소는 하향식 방법으로 부여되고 있기 때문에 수요자 응답형 정보제공 대응에 미흡한 현실이다. 이에 본 연구에서는 상향식 방법으로 운영 중인 포켓몬 고 DB와 사물주소 DB의 공간적 분포를 탐색함으로 써 사용자 참여형 주소정보 생성 및 적용 가능성을 제시하였다. 각 DB의 지점별 티센 폴리곤을 생성한 뒤 ANOVA 분석을 수행한 결과 두 DB간의 면적 차이가 있음을 확인하였다. 또한 지니 계수를 산출하여 분포 불평등성을 확인하여 DB를 통합하여 활용하는 방법을 제시하였다. 본 연구는 사물주소의 확산과 알기 쉬운 대국민 주소정보체계 확립에 정책적인 활용이 가능할 것이다.

홍삼의 일반적인 가공법인 물과 주정 혼합용매로 추출여과하여 농축액으로 제조 시 증숙 등의 가열처리에 의해 가수분해되거나 중합반응이 일어나게 되어 현재 기능성이 밝혀진 30여 가지 주요 진세노사이드 외 극미량인 200여 종의 진세노사이드가 검출되고 있어서, 오히려 홍삼 본래 의 기능성 규명과 효능 구현을 복잡하게 만들고, 추출 횟 수를 거듭할수록 떫은맛이 강해지는 등 건강기능식품으로 서 부정적인 영향을 배제하기 위하여 저온(40oC 미만)에 서 1차만 추출한 홍삼농축액을 제조한 결과 수율은 고형 분 66-77% 정도에서 26-30%를 나타내어 기존의 연구 결 과인 40.47±0.47% 보다 현저히 적은 수율을 나타내었고, 동결건조 분말의 진세노사이드 함량분석시험을 진행한 결 과 시료 18종 전체에서 진세노사이드 34종이 검출되었고, 특히 홍삼 지표성분 3종인 Rb1, Rg1, Rg3 합계는 42.48 mg/ g으로 시판 홍삼제품의 환산량 9.0 mg/g과 8.7 mg/g 보다 4-5배 많았다. 본 시료는 진한 홍삼의 향취와 함께 면역력 증진 등 6가지 기능발현에 9-25%의 소량 복용으로 1일 복 용량이 유의성 있게 작아서 복용의 편의성과 함께 제품의 보관, 유통에 장점이 있는 것으로 판단된다.

Targeting Microcystin (MC), which is most abundantly detected in the North-Han River water area, we analyzed the relationship between the MC biosynthesis gene (mcyA gene), cyanobacteria cell density, and MC concentration, derived an RNA-MC conversion formula, and derived the cyanobacteria. The concentration of MC present in cells was predicted. In the North-Han River waters, the mcyA gene was found mainly at downstream sites of the North-Han River after Muk-Hyeon Stream junction, and higher copy numbers were found on average than other sites. In the Uiam Lake waters upstream of the North-Han River, the mcyA gene copy number increased at the Kong-Ji Stream point, and after September, the mcyA gene copy number decreased throughout the North-Han River waters. The expression of the mcyA gene was concentrated in the short period of summer due to the spatio-temporal difference between upstream and downstream water bodies. The mcyA gene expression level was not only highly correlated with MC concentration, but also correlated with the cell density of Microcystis aeruginosa and Dolichospermum circinale, which are known to biosynthesize MC. Six conversion formulas derived based on the RNA-MC relationship showed statistical significance (p<0.05) and exhibited high correlation coefficients (r) of 0.9 or higher. The expression level of MC biosynthesis gene present in eRNA determines the synthesis of cyanotoxin substances in water, quickly quantifies gene activity, and can be fully utilized for early warning of MC development.

PURPOSES : With the recent enactment of the 「Framework Act on Sustainable Infrastructure Management」 in Korea, the establishment of mid- to long-term management plans for social infrastructure and the feasibility evaluation of maintenance projects have become mandatory. To this end, the life cycle cost analysis is essential. However, owing to the absence of a deterioration model, trials and errors are in progress. METHODS : In this study, a deterioration model was established for bridges, which are the representative social infrastructures of roads, particularly for expansion joints that can cause enormous damage to not only the superstructure but also the substructure. The deterioration model was classified into rubber and steel, based on the material of the expansion joint. The analysis used the inspection and climate data conducted in Korea over the last 12 years. The Bayesian Markov Hazard model was applied as the analysis technique. RESULTS : The average life expectancy by type of expansion joint was analyzed to be 8.9 and 6.6 years for rubber and steel, respectively. For probabilistic life cycle cost analysis, the probability distribution of the life expectancy, validity range by confidence level, and Markov transition probability matrix were presented. CONCLUSIONS : In this study, the basis for deterministic and probabilistic life cycle cost analysis of expansion joints was laid. In future studies, it will be necessary to establish a standardized deterioration model for all types of infrastructure, including all bridge elements.