Odorous compounds from the operation of wastewater treatment plants (WWTPs) have increasingly become public health concerns and civil complaints. This study identifies priority management stages in WWTPs by quantitatively analyzing the distribution of complex odor and designated odor substances across key processes using a dimensionless tool (the Odor Activity Value, OAV), while providing a statistical basis and operational strategies for efficient odor mitigation in public facilities. Although there was a very poor correlation between designated odorous concentrations and complex odor level (dilution ratio), the application of the OAV yielded much more accurate results with a strong correlation (R2 = 0.7) specifically at high-temperature condition. Odor potential in the wastewater treatment processes fluctuates substantially depending on the specific unit. Statistical analysis using Kruskal–Wallis tests demonstrated that influent and sludge treatment process (return flow and centrate) produce much higher odor intensities compared to the biological reactor and secondary clarifier. Based on PERMANOVA analysis, differences in the profiles of complex odor and the OAVs of designated odorants across 6 treatment stages explained 64.1% of the total variance. Principal Coordinates Analysis (PCoA) showed that sludge treatment processes form a distinct, unique cluster, whereas sewage treatment streams present a more gradual transition of odor profiles. Statistical assessment using the Mann-Whitney U test demonstrated that mean odorants levels did not have considerable shift under high-temperature and low-temperature conditions. However, the sensory perception in higher temperatures enhanced relative to the OAVs. In conclusion, the OAV is an effective dimensionless tool, as it establishes priorities in odor management and control, offering a practical supplementary indicator for addressing civil complaints. These findings provide a robust foundation for optimizing deodorization systems designs and operational efficiency of odor mitigation systems within WWTPs.

Odor complaint data collected in Seoul between 2014 and 2021 exhibited significant departures from normality. To address this, a Box-Cox transformation (l = 0.1149) was applied to stabilize variance and improve distributional normality. The transformed data were then evaluated for normality using the Shapiro-Wilk, Kolmogorov- Smirnov, and Anderson-Darling tests, all of which failed to reject the null hypothesis of normality (p > 0.05). However, the corresponding test statistics (0.989, 0.039, and 5.757, respectively) were close to their respective critical thresholds, indicating a substantial improvement in distributional normality. Based on the Box-Cox transformed dataset (l = 0.1149), the inlier range was defined as 4~190 cases/day, while observations of ≤3 cases/day and ≥191 cases/day were classified as low and high outliers, respectively. Within the inlier range, the meteorological variables exerting the strongest influence on IOCE (cases/day) were air (49.5), dew point (48.2), and surface temperature (48.1), whereas precipitation showed the weakest influence (39.7). The highest SROCE interval within the inlier range was associated with mean meteorological conditions of air (27.7±1.0oC), dew point (15.2±1.2oC) and surface temperature (30.4±1.1oC), and precipitation (0.6±1.8 mm). By contrast, the corresponding conditions in the high-outlier range were 19.6±1.2oC, 14.7±1.7oC, 23.1±1.4oC, and 0.3±0.7 mm, respectively. Across both the inlier and high-outlier ranges, the mean variation rate (VMF, %) of meteorological observations within the highest SROCE interval across the 13 meteorological factors was approximately ±11%. However, in the high-outlier range, mean meteorological conditions within complaint-concentrated intervals exhibited noticeable divergence from those observed in the inlier range. This study elucidated the meteorological drivers of IOCE and peak SROCE conditions across both inlier and high-outlier ranges. In addition to facilitating odor occurrence forecasting based on meteorological predictions, these findings provide a scientific basis for managing odor emission sources from specific facilities and regulated areas, extending beyond community level odors in residential areas.

This study investigated odor generation and external leakage characteristics in a combined sewer system through field monitoring of manholes, catch basins, and box culverts. Odor samples were analyzed for malodor intensity in terms of the dilutionto- threshold (D/T) ratio using the air dilution sensory (ADS) test. In addition to the ADS tests, 22 offensive odorants as defined in the Korean Malodor Prevention Act were quantified. Among the odorants monitored, hydrogen sulfide showed not only the highest concentrations but was also the most frequently detected, indicating representative odor compounds. The mean hydrogen sulfide concentration reached 1,132 ppbv, with a maximum of 13,709 ppbv, corresponding to complex odor concentrations of up to 1,442 dilution-to-threshold units. On average, approximately 13% of the internal sewer odors escaped through manhole openings, which could easily cause odor nuisance exceeding the legal threshold at boundary lines. A comparison with national odor management standards indicated that the current regulations, based solely on in-pipe hydrogen sulfide concentration, do not adequately represent human sensory perception. The findings highlight the need to establish practical odor-control criteria that consider external leakage and perceptual intensity for effective sewer odor management in urban environments.

This study evaluated the effects of dietary cellulose-to-starch ratios on nutrient digestibility, fermentation characteristics, and greenhouse gas emissions in the rumen. For 48 h of in vitro rumen incubation, each substrate (0.3 g) was incubated with rumen fluid mixture (30 mL) in quadruplicate. Six treatments were formulated with different ratios of structural (cellulose-based) and non-structural (starch-based) carbohydrates (10:0, 8:2, 6:4, 4:6, 2:8, and 0:10). After incubation, total gas emission was measured and analyzed for CO2 and CH4. The remaining contents were centrifuged to determine rumen fermentation characteristics and digestibility. The crude protein level of all treatments was maintained at 15% by combining soybean meal and urea. After incubation, in vitro dry matter digestibility (IVDMD) and organic matter digestibility (IVOMD) increased linearly with higher starch content, while ammonia-N and total volatile fatty acid (VFA) concentrations decreased quadratically. In addition, acetate concentration and the acetate to propionate (A:P) ratio increased along with starch content (p<0.05), whereas propionate concentration decreased (p<0.05). As starch content increased, CO2 and CH4 emissions based on DM increased linearly (p<0.05) but decreased (p<0.05) quadratically and linearly based on DMD and OMD, respectively. Therefore, this study concluded that the dietary cellulose-to-starch ratios affected rumen fermentation characteristics and greenhouse gas emissions, particularly methane mitigation by increasing dietary starch content. Further study should be conducted to determine the concentrate-to-forage ratio that reduces greenhouse gas emissions without adverse effects on animal performance.

본 연구는 새만금 방조제 준공(2010년)을 전후한 20년간의 기상자료를 분석하여 새만금 방조제 건설 전후 군산 공항의 기상 변화를 고찰하였다. 방조제의 영향을 파악하기 위해, 유사한 기상 특성을 갖지만 방조제의 영향을 받지 않는 서산공항의 관측값을 대조군으로 활용하였다. 분석 결과, 방조제 완공 이후 군산공항에서는 월평균 해무 발생일수가 2.6 일에서 1.9일로 약 27% 감소하였으며, 저고도 구름 유입시 운고가 203 m에서 264 m로 약 30% 상승하는 유의미한 기상 변화를 보였으나, 서산공항에서는 변화가 미미했다. 그 원인을 찾기 위한 기상요소별 분석에서 기온, 풍속, 상대습도에서 특별한 사항은 없었으나, 해수면 온도 분석 결과, 방조제 내부 해역은 외부보다 평균 수온이 높고(내측 16.4oC vs 외측 15.4oC), 연간 변동폭도 크며(내측 24.9oC vs 외측 22.1oC), 담수화 특성이 뚜렷하게 나타났다. 이러한 결과는 방조제를 포 함한 주변환경의 변화(간척, 담수화, 수온 상승 등)가 군산공항의 해무 소산에 실질적으로 기여했음을 알 수 있었다.

In this study, we investigated the characteristics of meteorological factors influencing odor emissions based on odor complaint records and meteorological observation data collected from 2014 to 2021 in Seoul, a megacity with a high population density and no regulated facilities or management zones apart from public environmental infrastructure and neighborhood living facilities. A total of 134,976 odor complaints were recorded over eight years (2,922 days), with a daily peak of 946 cases. From 2018 onward, daily complaints consistently exceeded 200 cases, reaching their highest level in 2019. Complaints were regularly and intensively concentrated during specific periods of the year. Among meteorological factors, dry tide time and dominant wind direction exhibited bimodal distributions within the observation range, while the other 11 meteorological factors were concentrated at a single value. The average meteorological conditions during the period with the highest number of odor complaints and observation days were: temperature 24.2oC, surface temperature 26.7oC, local pressure 1,000.4 hPa, sea-level pressure 1,010.8 hPa, vapor pressure 4.3 hPa, solar irradiance 10.5 MJ/m2, precipitation 0.6 mm, relative humidity 61.5%, wind speed 2.2 m/ s, and dominant wind direction 57.9o. These factors corresponded with the periods of highest odor complaints and observation days; however, dew point temperatures (15.3oC and 19.1oC), dry tide times (14.7 hours and 9.7 hours), and sunshine times (15.1 hours and 9.0 hours) did not coincide with those periods. The meteorological factors with the highest odor complaint emission rates (SROCE, cases/day) across 13 sections, ranked in descending order, were: dry tide time (73.5), surface temperature (67.7), solar irradiance (65.1), sea-level pressure (64.3), temperature (62.7), local pressure (62.7), dew point temperature (60.3), vapor pressure (58.7), sunshine times (54.1), relative humidity (53.1), wind speed (51.2), dominant wind direction (48.7), and precipitation (46.3). The intensity of odor complaint emission (IOCE, cases/day), calculated across the entire meteorological observation range, was highest in the following order: solar irradiance (63.8), dry tide time (60.5), sunshine times (60.3), local pressure (57.2), surface temperature (57.1), sea-level pressure (57.0), temperature (56.4), vapor pressure (55.8), dew point temperature (55.7), relative humidity (49.4), dominant wind direction (49.2), wind speed (49.0), and precipitation (46.5). The IOCE for solar irradiance was 37.2% higher than that for precipitation, which had the lowest IOCE. Additionally, the average IOCE of sunlightrelated meteorological factors such as dry tide time, sunshine times, and solar irradiance was 61.5 cases/day, which is 29.5% higher than that of moisture-related factors, including precipitation and relative humidity (47.5 cases/day). These results suggest that sunlight-related factors significantly contribute to odor complaints. This study evaluated the characteristics of odor emissions associated with complaints within the meteorological observation range, identified meteorological factors corresponding to the highest observed odor emissions, and assessed the contribution of these factors to odor emissions based on the IOCE metric. Based on these results, we anticipate being able to predict odor emission levels using weather forecast data.

본 연구는 Peperomia 속 두 종(P. argyreia ‘Watermelon’과 P. obtusifolia ‘Variegata’)을 대상으로 실내환경에서 광질(백 색, 청색, 적색)이 생장, 색소 조성, 무늬 면적에 미치는 영향을 분석함으로써, 적정 광질 조건을 탐색하고자 하였다. 생장 반응 은 엽장, 엽폭, 초장, 엽수 등 모든 지표에서 통계적으로 유의한 차이가 나타나지 않았으며(p ≥ 0.05), 이는 실내 광도 수준에서 광질 변화가 생장에는 제한적인 영향을 미침을 나타낸다. 그러 나 색소 조성과 무늬 면적에서는 뚜렷한 차이가 확인되었다. P. obtusifolia ‘Variegata’는 적색광 처리 시 chl a와 b, 총 car 함량이 감소하고, 무늬 면적 또한 유의하게 줄어드는 반응 을 보였다. 반면 청색광에서는 chl a와 car 함량 증가, chl a/b 비율 상승과 더불어 printed area의 안정적인 유지가 확인되 어, 청색광이 생리적 활성 유지에 유리한 광질로 평가되었다. 이러한 결과는 무늬의 발현 방식에 따라 광질 반응성이 다르며, 실내 재배 시 광질 조절이 관상성과 생리적 안정성 확보를 위한 핵심 전략이 될 수 있음을 보여주었다.

This study investigates and analyzes the major characteristics of naturally occurring asbestos (NOA) in the Seosan area, based on a geological map of NOA distribution. The study area includes Daesan-eup, Seokmun-myeon, and Palbongmyeon in Seosan-si, Chungcheongnam-do, South Korea, with 32 samples collected from nine sites. The asbestos-containing rocks primarily consist of dolomite, limestone, calcareous silicate rock, and marble, most of which exhibit a mass-fiber morphology. While the weathering grade of the outcrops is generally within level 3, some areas show higher weathering levels (grade 4), indicating potential risks of asbestos dispersion into the air. The collected samples were analyzed using polarized light microscopy (PLM), X-ray diffraction (XRD), scanning electron microscopy with energy-dispersive spectroscopy (SEM-EDS), and transmission electron microscopy with energy-dispersive spectroscopy (TEM-EDS). The primary asbestos types identified were tremolite and actinolite asbestos of the amphibole group, with anthophyllite asbestos detected in some locations. Notably, certain asbestos-containing rocks were found near coastal areas and docks, highlighting the need for continued monitoring in the event of future development activities.

This study aimed to estimate the rumen fermentation characteristics and greenhouse gas emissions of major domestic feed sources for Hanwoo. Five feed sources mainly used in South Korea were selected: corn meal (CM), soybean meal (SM), wheat flour (WF), palm kernel cake (PKC), and corn distiller’s dried grains with soluble (DDGS). These feed sources were purchased from a commercial feed company. For 24 h rumen incubation, each feed source (0.3 g) was placed into the incubation bottle with the rumen mixture (30 mL) in quadruplicates. After incubation, total gas production was measured and sub-sampled for CO2 and CH4 analyses, and the bottle content was centrifuged for rumen fermentation characteristics and in vitro dry matter digestibility (IVDMD). Crude protein content was highest in SM and lowest in CM. Ether extract content was highest in DDGS and lowest in SM, while neutral detergent fiber and acid detergent fiber contents were highest in PKC and lowest in CM. Propionate content was highest in DDGS, and butyrate and A:P ratio contents were highest in PKC (p<0.05). Total gas emission (mL/g DMD) was lowest in SM and DDGS, while CH4 emission (mL/g DMD) was lowest in DDGS (p<0.05). Therefore, this study concluded that DDGS could be an alternative feed source to reduce methane emissions.

Oyster mushrooms were analyzed to confirm the effect of installing a convection fan on the uniformity of the environment inside the cultivation house, the quantity of fruiting bodies, and marketability for stable production. When using a convection fan, it was confirmed that the temperature, relative humidity, and CO2 concentration were maintained more uniformly than when not used.As for the characteristics of the fruiting bodies, the quantity per bottle was 177.3 g when using a convection fan, which was 17% higher than when not used, and the individual weight was 49% higher. In addition, the cap diameter, cap thickness, and stem thickness increased slightly in the convection fan treatment, and the stem length was shorter.

Time-series and spatial analysis of collected odor complaints in Seoul megacity during 2014~2021 were conducted for the characterization of odor complaints emitted from the living environment. The ratio of odor complaints in the environmental complaints was 16.7%, and odor complaints increased 3.3 times from 9,053 cases in 2014 to a maximum of 29,425 cases in 2019. In the time-based evaluation (monthly, daily (day of the week), and hourly variations), the highest number of complaints occurred in June, Monday, and 9:00 AM, respectively. While the lowest number of complaints occurred in December, Sunday, and 3:00 AM, respectively. Among 25 provinces in Seoul megacity, the odor complaints that occurred from 2014 to 2021 were concentrated in Eunpyeonggu. The odor complaints of Seodaemun-gu and Nowon-gu occurred at the highest levels in January-February and June, respectively. Based on the characteristics of odor complaint occurrence according to the above time-series and spatial analyses, more effective odor management and control can be implemented by focusing on those hotspot areas and specific time periods.

PURPOSES : According to government data, the Black Spot Program has resulted in an average 28.8% reduction in traffic accidents within one year of project implementation in areas where road conditions improved. However, there has been a lack of in-depth analysis of the midto- long-term effects, with a predominant focus on short-term results. This study aimed to analyze the mid-to-long-term effects of the Black Spot Program to assess the sustainability of its reported short-term impact. Additionally, the differences in the mid-to-long-term effects were investigated based on the scale of traffic accidents at intersections and the characteristics of these effects are revealed. METHODS : The mid-to-long-term effects of the Black Spot Program were analyzed at 122 intersections in Seoul, Korea, where the program was implemented between 2013 and 2017, using traffic accident data spanning five years before and after implementation. Additionally, the differences in the program's effects were analyzed at the top-100 intersections with the highest traffic accident concentration in Seoul using the chi-square test to identify these differences. To theoretically validate these differences, the Hurst exponent, commonly used in economics, was applied to analyze the regression to the mean of the intersections and reveal the correlation with improvement. RESULTS : Through the Black Spot Program at 122 intersections, a 33.3% short-term accident reduction was observed. However, the midto- long-term effect analysis showed a 25.8% reduction, indicating a slightly smaller effect than previously reported. Specifically, the top-100 intersections exhibit a 15.4% reduction. A chi-square test with a 95% confidence level indicated significant differences in the program’s effects based on the scale of traffic accidents at intersections. The Hurst index (H ) was measured for the top-100 intersections, yielding H = 0.331. This is stronger than the overall H = 0.382 for all intersections in Seoul, suggesting that the regression to the mean is more pronounced, which may lead to a lower effectiveness of the improvement. CONCLUSIONS : The mid-to-long-term effects of the Black Spot Program were relatively lower than its short-term effects, with larger differences in effectiveness observed based on the scale of traffic accidents at intersections. This indicates the need to redefine the criteria for selecting project targets by focusing on intensive improvements at intersections, where significant effects can be achieved.

최근 시멘트 콘크리트 포장의 아스팔트 덧씌우기 포장을 유지보수 공법으로 채택할 경우 반사균열이 다수 발생하여 유지보수 비용 증가로 이루어지고 있다. 반사균열 발생일 지연시키기 위하여 다양한 재료 및 공법을 사용하고 있으나 이에 대한 효과를 정확하게 평 가하는 시험방법 및 평가기준이 미비한 상태이다. 미국에서도 반사균열 문제로 인하여 유지보수 비용이 급격히 증가하고 있으며, 아스 팔트 함량을 높게 하고 개질제 및 그리드를 사용하여 반사균열 발생을 지연시키려는 노력을 하고 있다. 미국 및 선진국에서는 반사균열 평가 시험법으로 Texas Overlay Tester를 범용으로 사용하고 있으며, 반사균열 저항성 평가에 유일무 이한 장비로 알려져 있다. 최근 93%에 이르는 하중 감소율에 도달하는 하중 재하횟수 시험에 시간적 노력과 편차가 크다는 논란이 재 기되어 1000회 까지만 수행하여 균열발생(crack initiation)과 균열전파(crack propagation) 특성울 계산하여 보다 역학적인 방법에 의한 반 사균열 저항성 평가가 시도되고 있다. 밀입도, PSMA, 구스, 그리드 보강 아스팔트 혼합물에 대한 Overlay Tester를 이용하여 반사균열 수행을 수행하였으며, 이에 대한 균 열발생과 균열 전파 특서을 정량화 하여 비교 분석을 실시하였다.

청주와 증평에서 채집한 섬서구메뚜기(Atractomorpha lata)의 발생과 온도(20°C, 25°C, 30°C)에 따른 령기별 발육기간, 성충수명, 산란수 및 부화율 등을 조사하였다. 섬서구메뚜기는 5월 말부터 부화약충이 나타나기 시작하여 7월말부터 성충이 출현하고 8월 중순에 성충의 밀도가 가장 높았다. 청주와 증평에서 채집된 모든 령기에 대한 야외개체의 암수 비율은 각각 0.49와 0.45로 유사하게 조사되었다. 섬서구메뚜기 암컷은 6령까 지의 약충기를 거쳐 성충이 되지만 수컷은 5령 약충기만으로 성충이 되었다. 령기별 약충의 발육기간은 온도가 높아질수록 짧았으며 암컷이 수컷보 다 모든 온도에서 더 길었다. 성충의 수명은 온도가 높아질수록 암수 모두 감소하였고 암컷과 수컷 모두 20°C에서 각각 158.9일과 127.3일로 가장 긴 기간 동안 생존하였다. 온도가 높아질수록 산란전기는 짧아졌으나, 산란수는 반대로 증가하였다. 그러나 난괴당 산란수는 온도별 큰 차이를 보이 지 않았다. 섬서구메뚜기의 알은 30°C이상에서만 부화하여 52.0% 부화율을 보였다. 본 연구결과는 섬서구메뚜기를 방제하기 위하여 발생과 발육 에 관한 기초자료로써 활용가능 할 것으로 생각된다.

This study was conducted to estimate the effects of the forage process on rumen fermentation characteristics and greenhouse gas emissions of rye. Rye was grown at the Taeyoung Livestock farm and harvested at the heading stage. The harvested rye (5 kg) was sub-sampled for fresh forage, hay, and silage in triplicates. The sub-sampled rye was freeze-dried or air-dried for fresh forage or rye hay, respectively. For rye silage, the sub-sampled rye forage was ensiled into a 10 L mini bucket silo and stored for 90 days. For 72 h rumen incubation, each forage (0.3 g) was placed into the incubation bottle with the rumen mixture (30 mL) in quadruplicates. After the incubation, total gas was measured and sub-sampled for CO2 and CH4 analyses, and the bottle content was centrifuged for in vitro digestibilities of dry matter (IVDMD) and neutral detergent fiber (IVNDFD), and rumen fermentation characteristics. Silage had higher crude protein, crude ash, and acid detergent fiber concentrations than fresh forage and hay but lower non-fiber carbohydrates and relative feed value (p<0.05). And, silage had higher lactic acid bacteria than the other forages but lower pH (p<0.05). After 72 h incubation in the rumen, fresh forage had higher IVDMD and butyrate content than the other forages (p<0.05). However, silage had higher rumen pH and propionate content than the other forages but lower A:P ratio (p<0.05). Regarding greenhouse gases, silage had lowest total gas (mL/g DMD and NDFD) and CH4 (mL/g DMD and NDFD) emissions, while fresh forage had lowest CO2 (mL/g DMD) emission (p<0.05). Therefore, this study concluded that the ensiling process of rye can effectively mitigate greenhouse gas emissions of Hanwoo.

The study aimed to investigate the impact of varying levels of neutral detergent-soluble fiber (NDSF) in Hanwoo growing cattle diets on rumen fermentation and methane (CH4) emissions. An in vitro rumen fermentation experiment utilized feeds with different NDSF levels, incorporating ingredients such as corn grain, soybean meal, soybean hulls, palm kernel meal, beet pulp and timothy hay. The NDSF contents in the diets were 9.02% (T1), 10.09% (T2), 12.42% (T3) and 14.63% (T4). In vitro dry matter digestibility (IVDMD) at 48 h was 7.4% higher for T4 compared to T1 (p<0.05). Total gas production at 48 h was 6.6% higher for T4 than T1 (p<0.05). CH4 production significantly decreased at 9 h and 12 h for T1 and T2 (p<0.05). At 48 h, CH4 production was 5.6% higher for T4 compared to T1 and 6.7% higher compared to T2 (p<0.05). At 12 h ans 24 h, the ammonia nitrogen concentration of T4 was approximately 33.1% and 40.4% lower, respectively, compared to T1 (p<0.05). The acetate to propionate ratio at 48 h was approximately 18.8% higher for T4 than T1 (p<0.05). From 9 h to 48 h, the proportions of butyrate and valerate were significantly higher for T4 (p<0.05). At 48 h, the dominant phylum in T4's rumen microbial community was Candidatus Thermoplasmatota Methanomassiliicoccus, an Archaea. Therefore, this study confirmed that increasing the NDSF content in growing Hanwoo cattle diets up to 12.42% increases IVDMD without increasing CH4 emissions, which is expected to positively impact Hanwoo productivity.