• 생명과학회지
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• 제26권2호
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• pp.190-197
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• 2016

원유중의 아플라톡신 M₁의 오염도를 측정한 결과, 일부 지역 원유 중, 일반수준으로 관리한 지역의 집합유, HACCP으로 지정되어 관리되는 농가의 집합유, 아플라톡신 M₁ 저감화 배합사료를 제공한 지역의 집합유를 검체로 하여 1년간 아플라톡신 M₁의 수준을 모니터링을 실시한 결과, 일반적인 관리를 통해 집유된 집합유의 평균검출농도는 0.023±0.005 μg/l, HACCP 지정관리를 통해 집유된 집합유의 평균검출농도는 0.017±0.004 μg/l 그리고 저감화배합사료 제공을 통해 집유된 집합유의 평균검출농도는 0.013±0.003 μg/l으로 나타났다. 이러한 결과는 3개 지역 모두 한국이나 미국 그리고 유럽에서 정한 아플라톡신 M₁의 기준치 이하로 검출되었으며, 저감화 배합사료를 제공한 농가의 아플라톡신 M₁수준이 가장 적게 검출되었다. 아플라톡신 M₁의 특성으로서 사료공급상태에 따른 평균검출농도가 계절별로 차이가 나는 경향을 보이며, 3가지 실험군에서 공통적으로 여름철에 비해 겨울철 아플라톡신 M₁ 수준이 가장 높게 검출되었다. 이는 겨울철 사료의 관리미흡과 더불어 사료 보관기간이 늘어나며 일반배합사료의 섭취량이 증가되고 장기화됨에 따라, 젖소에서의 아플라톡신 B₁의 양이 농축되어 결과적으로 아플라톡신 M₁ 수준이 증가된 것으로 판단된다. 아플라톡신 M₁의 수준을 낮출 수 있는 가장 직접적인 방법으로는 곰팡이 독소를 흡착하게 하는 배합사료를 공급하여 원유로 아플라톡신 M₁이 전이되지 못하도록 하는 것으로써 일반수준으로 관리한 농가의 집합유에 비해 아플라톡신 M₁의 수준이 감소하는 경향을 보였다. 효율적이고 경제적인 측면을 고려하여 아플라톡신 M₁의 수준을 낮출 수 있는 가장 효과적인 방안은 HACCP 지정관리를 통한 농가 및 사료의 관리라 할 수 있다. 또한 보다 실질적인 아플라톡신 M₁의 수준을 감소시키기 위해서는 정부의 제도적인 지원과 낙농업계의 관리 및 농가의 철저한 위생관리가 필요하다고 사료된다.

• 대한건축학회논문집:구조계
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• 제33권12호
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• pp.81-90
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• 2017

This study was conducted to investigate the thermal environment status of nursery rooms in workplace daycare centers in Jeju and propose measures to improve their indoor physical thermal environment. For this purpose, measurements were performed in the winter indoor physical environment of 51 nursery rooms in 11 workplace daycare centers and a psychological evaluation survey on the thermal environment of nursery rooms was conducted for 70 nursery teachers. The investigation was carried out over 11 days in January 2017. The results are as follow. The average indoor temperature of the nursery rooms was $21.3^{\circ}C$($18.7-23.8^{\circ}C$) and the indoor temperatures of 47 nursery rooms (92.9%) were higher than the environmental hygiene management standard for domestic school facilities ($18-20^{\circ}C$). The average relative humidity was 33.9% (16.4-56.0%), and 37 nursery rooms (86.3%) showed a lower average relative humidity than the standard (40-70%). The average absolute humidity was $9.1g/m^3$ ($4.7-13.6g/m^3$), which was lower than the standard for preventing influenza ($10g/m^3$). When the indoor temperature and humidity of the nursery rooms were compared with international standards, it was found that 85% or more of the 51 nursery rooms maintained appropriate indoor temperatures, but 40-50% of the nursery rooms maintained a low humidity condition. Therefore, they need to pay attention to maintaining the appropriate humidity of the nursery room to keep the children healthy. The average indoor temperature of the nursery rooms showed a weak negative correlation with the average relative humidity. The indoor temperature had a significant effect on the relative humidity: a higher indoor temperature resulted in lower relative humidity. Regarding the fluctuations in the average indoor temperature of the nursery rooms during the day, in daycare centers that used floor heating, the indoor temperature gradually increased form the morning to the afternoon and tended to decrease during lunch time and the morning and afternoon snack times, due to ventilation. The daycare centers that used both floor heating and ceiling-type air conditioners showed a higher indoor temperature and greater fluctuations in temperature compared to the daycare centers that used floor heating only. In the survey results, the average value of the whole body thermal sensation was 3.0 (neutral): 32 respondents (62.7%) answered, "Neutral", Which was the largest number, followed by 21 respondents (30%) who answered, "Slightly hot" and 17 respondents (24.2%) who answered, "Slightly cold." Twenty-nine respondents answered, "Slightly dry," which was the largest number, followed by 28 respondents (54.9%) who answered, "Neutral" and 10 respondents (19.6%) who answered, "Dry." The total number of respondents who answered, "Slightly dry" or "Dry" was large at 39 (56.4%), which suggests the need for indoor environment management to prevent a low-humidity environment. To summarize the above results about the thermal environment of nursery rooms, as the indoor temperature increased, the relative humidity decreased. This suggests the effect of room temperature on the indoor relative humidity; however, frequent ventilations also greatly decrease the relative humidity. Therefore, the ventilation method and the usage of air conditioning systems need to be re-examined.