• Asian-Australasian Journal of Animal Sciences
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• 제16권7호
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• pp.952-961
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• 2003

In the first part of the study, rates of estrus occurrence and success of A.I. service in the Thai-native and Friesian crossbred, and purebred Friesian cows fed in the National Dairy Training and Applied Research Institute in Chiang Mai, Thailand were traced monthly throughout a year. An electric fan and a water sprinkler cooled the stall for the purebred cows during the hot season (March-September). Both rates in pure Friesians were at their highest in the cold-dry season (October- February), but they decreased steadily during the hot-dry season (March-May) and were at their lowest in the hot-wet season (June-September). Seasonal change of a similar pattern was observed in the incidence of estrus, but not in the success rate of insemination in the crossbred cows. By the use of reproductive data, compiled in the same institute, on the 75 % cross- and purebred Friesian cows, and climatological data in Chiang Mai district, effects of ambient temperature and humidity on the reproductive traits of cows were examined by regression analysis in the second half of the study. Significant relationships in the crossbred, expressed by positive-linear and parabola regressions, were found between reproductive parameters such as days to the first estrus (DTFE), A.I. service (DTFAI), and conception, the number of A.I. services required for conception and some climatic factors. However, regarding this, no consistent or intelligible results were obtained in purebred cows, perhaps because electric fans and water sprinklers were used for this breed in the hot season. Among climatic factors examined, the minimum temperature (MINT) in early lactation affected reproductive activity most conspicuously. As the temperature during one or two months prior to the first estrus and A.I. service rose, DTFE and DTFAI steadily became longer, although, when MINT depleted below $17-18^{\circ}C$, the reproductive interval tended to be prolonged again on some occasions. The maximum temperature also affected DTFE and DTFAI, but only in limited conditions. The effect of humidity was not clear, although the inverse relationship between DTFE and minimum humidity during 2 months before the first estrus in the crossbred seemed to be significant. Failure to detect any definite effect of climate on the reproductive traits of pure Friesians seemed to indicate that forced ventilation by electric fans and water sprinklers were effective enough to protect the reproductive ability of this breed from the adverse effects of a hot climate.

• 한국환경농학회지
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• 제17권3호
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• pp.215-219
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• 1998

본 실험은 담배의 염스트레스에 대한 생장특성 및 생리적반응을 구명하기 위하여 NaCl을 농도별로 처리하여 시험한 결과를 요약하면 다음과 같다. NaCl농도가 높아질수록 생장은 크게 억제되었으며, 90mM의 지상부/지하부율이 약 2.0이하에서 생육형질이 크게 감소하여 생리적인 제한농도로 나타났다. 광합성량, 증산량 및 수분이용효율은 NaCl농도가 높아질수록 감소하였으며, 광합성량은 60mM에서 대조구의 50%의 감소로 염해에 민감하게 반응하였으며, 증산량과 수분이용효율은 처리농도간에 큰 차이는 없었다. 잎수분포텐셀은 염농도의 증가에 따라 낮아졌으며 30mM에서 대조구의 2배로 낮아졌으며 처리농도간에는 120mM에서 크게 감소하였다. Proline함량은 NaCl농도가 높아짐에 따라 120mM가지는 일정하게 증가하다가 150mM에서 감소하였다. NaCl농도에 따라 $Ca^{2+}$, $Mg^{2+}$, $K^+$의 함량은 90mM까지는 증가하였고, 120mM이상에서는 감소하였다. $K^+$은 염농도의 증가에 따라 완만히 증가하다가 150mM이상에서 급격히 증가하였다. $Cl^-$은 염농도의 증가에 따라 30mM의 일시적 증가외는 처리간의 차이는 없이 감소하는 경향이었다. $K^+/Na^+$율은 염농도가 높아질수록 감소하였으며 90mM의 1.0이하에서 세포내의 항상성이 유지되는 농도로 나타났다. $K^+$와 $Na^+$함량과는 부의 상관을, $K^+/Na^+$율과 단백질함량과는 정의 상관을 나타냈다.

• 한국산학기술학회논문지
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• 제18권1호
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• pp.210-215
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• 2017

로터리 제진기의 rake에 대한 설계 및 구조강도 해석을 수행하였다. 수중부의 경우 물에 의해 발생되는 수중 마찰력 및 협착물에 발생되는 수중 마찰력 등을 계산하여 하중조건을 주었고, 수상부는 rake의 자중 $239kg_f$를 분포 하중으로 설정한 후 협착물의 위치에 따라 협착물 하중 $261kg_f$을 좌측, 중앙, 우측 집중하중으로 나누어서 해석하였다. 3가지 하중조건의 해석결과는 최대 등가응력이 모두 86MPa 이하이므로 3가지 하중조건 모두 소성변형이 발생하지 않고, 안전성이 있다고 판단되었다. 협착물의 무게와 물에 의한 마찰력에 따라 발생할 수 있는 하중에 대해 $1,000kg_f$, $1,300kg_f$, $1,500kg_f$ 3가지 하중으로 나누어서 해석하였다. $1,000kg_f$, $1,300kg_f$의 해석 결과의 경우 각각 143.6MPa, 186.6MPa의 등가응력이 발생하였고 소성변형이 발생하지 않아 안전성이 있는 반면에, $1,500kg_f$의 경우는 215.41MPa의 등가응력이 발생하였고 소성변형이 발생하고 안전성이 없다고 해석되었다. ANSYS를 활용한 로터리 제진기의 rake에 가해지는 하중에 대한 구조강도 해석의 결과는 기본설계의 지침이 될 수 있었으며, 이 시제품의 기능 및 성능시험을 통하여 유한요소해석의 결과를 신뢰할 수 있었다.

• 대한환경공학회지
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• 제27권6호
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• pp.581-589
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• 2005

최근, 하 폐수 처리에 있어서 처리수의 보다 나은 수질과 엄격한 기준의 만족을 위해 기존의 공정외에 덧붙여 막분리 공정이 이용되고 있다. 그러나, 수처리 과정에서 막분리 공정의 사용은 막의 막힘 현상과 용존 유기오염물 제거의 어려움 등의 문제점이 있다. 본 연구에서는 막분리 공정에 응집제 alum과 PAC을 이용한 응집공정을 첨가하여 막 투과유속과 처리효율을 증가시켰다. 그리고 응집제 주입효과와 최적운전조건은 투과유속, 누적부피, 막의 총저항, 입자크기, 용존성 유기오염물, 용존성 알루미늄, 처리수의 수질을 분석하여 연구하였다. alum 응집에 비교해 PAC 응집은 큰 입자를 형성하여 여과 매체의 막힘현상을 줄이고 높은 투과유속과 누적 부피량을 보였다. 또한 PAC 응집에서 낮은 용존 유기오염물과 용존성 알루미늄은 투과유속 감소율을 낮추었다. $0.2\;{\mu}m$ 막 사용시 케이크여과의 모습을 보였으며, $0.45\;{\mu}m$ 막 사용시 순환운전으로 인한 플럭 깨짐 현상으로 공극보다 작은 플럭의 투과가 발생하여 투과유속이 계속 감소하고 막의 총저항이 증가하는 모습을 보였다. PAC과 alum 모두 약 $300{\pm}50\;mg/L$가 최적 응집주입량이었으며, PAC 응집과 $0.2\;{\mu}m$ 막 사용시 처리 효율이 가장 높고, $0.45\;{\mu}m$ 막 사용시 투과수량이 가장 많았다. 처리 효율은 탁도 99.8%, SS 99.9%, $BOD_5$ 94.4%, $COD_{Cr}$ 95.4%, T-N 54.3%, T-P 99.8%이었다.

• 유기물자원화
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• 제12권3호
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• pp.86-94
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• 2004

우리나라 음식물쓰레기의 특징은 높은 수분함량과 고농도의 염분(NaCl)을 함유한다. 음식물쓰레기 수분함량은 가정의 경우 80.0%이고 음식점이나 농수산물시장에서 발생되는 것은 각각 76.9%와 90.0%의 함량을 가지며 염분 함량은 가정쓰레기와 음식점쓰레기가 각각 3.36%와 4.84%를 함유하고 있다. 음식물쓰레기 퇴비 중 염분함량을 1% 이하로 조절하기 위해 지금까지 여러 가지 방법이 개발되었다. 그러나, 이런 방법들은 침출수 과다로 인한 환경오염 또는 높은 장치비 등의 문제를 가지고 있어 실용화에 어려움을 가지고 있다. 염분이 충분히 제거되지 않은 음식물쓰레기 퇴비를 농경지에 사용할 경우 염해로 인한 식물의 성장장애 및 염류축적이 일어날 수 있다. 본 연구는 음식물쓰레기 퇴비에 함유된 염분을 $KHSO_5$, $KHSO_4$, $K_2SO_4$로 구성된 삼중염을 이용하여 분해하는 방법이며, 기존 화학적 처리방법과 달리 염분을 분해하여 칼륨비료의 원료인 KCl로 전환시켰다. 또한 상추재배시험 결과 음식물쓰레기 퇴비와 삼중염을 처리한 음식물쓰레기 퇴비 간에는 발아율 및 성장상태에서 많은 차이를 나타냈다.

• Preventive Nutrition and Food Science
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• 제14권3호
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• pp.240-245
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• 2009

High-performance liquid chromatography (HPLC) was applied to determine the carotenoid composition of carrots during storage and cooking. Analyses were conducted immediately after harvest and 1, 2, 4, and 8 weeks after harvest. During the course of the storage, the carotenoid levels generally decreased, and this decrease was found to be greater during the first week for $\beta$-carotene (all-trans-$\beta$-carotene) and lutein, and during the second week for $\alpha$-carotene. Additionally, the amount of the $\alpha-$ and $\beta$-carotenes in carrot leaves changed slightly within the first 2 weeks of harvest when stored at $4^{\circ}C$. Specifically, the level of lutein, the main component of carrot leaves, increased from 233.8$\pm$11.7 to $346.2\pm26.7{\mu}g$/g DW during the first 2 weeks. In addition, the change in carotenoid contents was observed during the home-processing of one Korean cultivar. Carrots fried in oil showed the highest amount of $\beta$-carotene ($164.3\pm6.6{\mu}g$/g DW) and $\alpha$-carotene ($50.1\pm0.4{\mu}g$/g DW), while carrots that were prepared by sauteing, pressure-cooking in water and microwaving had the second highest levels. The greatest loss of in carotenoids occurred in response to boiling in water containing 1% NaCl, braising and baking. The content of lutein increased slightly after boiling in water containing 1% NaCl ($9.3\pm0.4{\mu}g$/g DW), while a loss in lutein occurred after preparation using other home-processing methods. A cis-isomer of all-trans-$\beta$-carotene, 13-cis-$\beta$-carotene, was present in detectable amounts in all processed samples, but not in raw roots. Another isomer, 9-cis-$\beta$-carotene, was detected in carrots that were prepared by boiling, frying and pressure-cooking.

• 한국작물학회:학술대회논문집
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• 한국작물학회 2017년도 9th Asian Crop Science Association conference
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• pp.227-227
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• 2017

This study was conducted to analyze the reduction of quality and ripening rate of rice due to submergence during ripening stage and identify the physiological cause. Korean japonica type rice cultivars, Nampyeong was used in the experiment. The following 7, 14 day after heading, they were then moved into submergence treatment facility and we conducted the tests under three different submergence conditions - T1(clear water and overhead submergence), T2(Muddy water and exposure of Flag leaf end ), T3(Muddy water and overhead submergence), and the treatment lasted for 4days. The decrease of ripening rate was most severe in T3 treatment at 7days after heading, and the decrease of head rice ratio was most severe in T3 treatment at 14days after heading. Meanwhile the starch synthesis was inhibited, as the supply of assimilation products was inhibited in grain during the submergence treatment. And in stem, sucrose content was increased because the soluble carbohydrates accumulated before heading were decomposed. These changes may be due to the consumption of respiratory substrate in anaerobic conditions and the inhibition of the production of photosynthetic products by light interception. In order to see what kind of reaction occurs at the molecular level, we examined the degree of RNA expression in grain, stem and leaf. First, the expression of rna associated with starch synthesis in grain was decreased in all submergence treatment. and especially Ospul(DBE) was more decreased in 14days after heading treatment than 7days after heading treatment. This difference can explain the result that the decrease of head rice ratio was more severe at 14days after heading. And in stem, the expression of rna associated with the supply of assimilation products was decreased in submergence treatment. Finally in leaf, the expression of rna(ADH, ALDH) associated with anaerobic respiration was increased, while the expression of rna associated with photosynthesis was decreased. These results of physiological analysis can used to develop the cultivation technique and to offer the information for breeding the cultivars with tolerant characteristics to submergence stress during ripening stage in rice.

• 한국작물학회:학술대회논문집
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• 한국작물학회 2017년도 9th Asian Crop Science Association conference
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• pp.239-239
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• 2017

The enhancement of leaf photosynthetic capacity can have the potential to improve the seed yield of soybean. Key targets for the increase of leaf photosynthetic capacity remains unclear in soybean. Peking, Chinese local variety, has been the useful material for soybean breeding since it shows various resistances against biotic and abiotic stress. Sakoda et al., 2017 reported that Peking had the higher capacity of leaf photosynthesis than Enrei, Japanese elite cultivar. They identified the genetic factors related to high photosynthetic capacity of Peking. The objective of this study is to elucidate the physiological basis underlying high photosynthetic capacity of Peking. Peking and Enrei were cultivated at the experimental field of the Graduate School of Agriculture, Kyoto University, Kyoto, Japan. The sowing date was July 4, 2016. Gas exchange parameters were evaluated at the uppermost fully expanded leaves on 43, 49, and 59 days after planting (DAP) with a portable gas exchange system, LI-6400. The leaf hydraulic conductance, $K_{leaf}$, was determined based on the water potential and transpiration rate of the uppermost fully expanded leaves on 60 DAP. The morphological traits related to leaf photosynthesis were analyzed at the same leaves with the gas exchange measurements. The light-saturated $CO_2$ assimilation rate ($A_{sat}$) of Peking was significantly higher than that of Enrei at 43 and 59 DAP while the stomatal conductance ($g_s$) of Peking was significantly higher at all the measurements (p < 0.05). It suggested that high $A_{sat}$ was mainly attributed to high $g_s$ in Peking. $g_s$ is reported to be affected by the morphological traits and water status inside the leaf, represented by $K_{leaf}$, in crop plants. The tendency of the variation of the stomatal density between two cultivars was not consistent throughout the measurements. On the other hand, $K_{leaf}$ of Peking was 59.0% higher than that of Enrei on 60 DAP. These results imply that high $g_s$ might be attributed to high $K_{leaf}$ in Peking. Further research is needed to reveal the mechanism to archive high $g_s$ on the basis of water physiology in Peking. The knowledge combining the genetic and physiological basis underlying high photosynthetic capacity of Peking can be useful to improve the biomass productivity of soybean.

• 한국작물학회:학술대회논문집
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• 한국작물학회 2017년도 9th Asian Crop Science Association conference
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• pp.201-201
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• 2017

Delayed stem senescence of soybean is a phenomenon of retarded leaf and stem yellowing, where plants maintain a high stem water content and remain chlorophyll in leaf and stem at maturity stage. This phenomenon was one of the most important physiological disease in Japanese soybean cultivation. The occurrence of delayed stem senescence was affected by sowing time. And the most of Japanese field, soybean seeds were sowed in June. June is the rainy season in Japan, and the soil water content of field become higher in this season. In this study, the effects of late sowing (July sowing) on the yield and the occurrence of delayed stem senescence in soybean cultivars Enrei, Tachinagaha and Ayakogane were examined from 2013 to 2015, in the experimental farm at Nihon University (Fujisawa-city, Kanagawa, Japan). The seeds of all cultivars were sowed in June (June-normal density plot) or July (July-normal density plot, July-high density plot and July-super high density plot) in field experiment. The pot experiments were carried out in 2014. In all cultivars, the yield of July-high density plot and July-super high density were higher than that of June normal density plot. And the yield of June-normal density plot was the same as that of July-normal density plot. In all cultivars, the occurrence of delayed stem senescence was increased by seeding in June sowing. And in July sowing plots, no significance difference in the occurrence of delayed stem senescence was observed among density plots. One of reason about the increasing the occurrence of delayed stem senescence in June-normal plot was the increasing of the damaged seeds by bean bugs. Add one of reason about the decreasing of the occurrence of delayed stem senescence of July plots was the decreasing of the amount of cytokinin supplied from root to top and water stress after the flowering time was improved compared with the June plot. In conclusion, the yield of Enrei, Tachinagaha and Ayakogane were not changed by changing the sowing time from June to July. In all cultivars, the occurrence of delayed stem senescence were decreasing by seeding in July.

• 환경영향평가
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• 제22권6호
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• pp.591-607
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• 2013

본 연구에서는 생물학적 바이오마커, 물리적 서식지 지표 및 화학적 수질지표를 종합하여 12-메트릭 생태평가 모형을 확립하였고, 도심하천에 적용하여 수생태계 평가를 실시하였다. 생태모형 적용을 위해 도심하천의 상류역의 대조군 지역($C_Z$), 중류의 전이대($T_Z$) 및 하류역의 오염지역(IZ)을 선정한 후, 모델값에 대한 계절별 변이특성을 분석하였다. DNA 손상도 분석은 혈액을 이용한 단세포 전기영동법(Single-cell gel electrophoresis, SCGE)인 Comet assay 지표에 의거한 생지표 메트릭으로 이용되었고, Tail moment, Tail DNA(%) 및 Tail length(${\mu}m$)값이 분석되었다. DNA의 손상은 하류역의 오염지역($I_Z$)에서 분명하게 나타났지만, 대조군($C_Z$) 지역에서는 그렇지 않았다. 개체군 지표로서 비만도 지수인 $C_F$ 값 분석, 체장빈도 분포 지표 및 개체 이상도(Abnormality) 지표가 생물지표로서 이용되었다. 물리적 서식지 지표는 QHEI 모델을 이용하였고, 4개 메트릭이 분석되었다. 화학적 수질지표는 부영양화 지표인 인(P)/질소(N), 화학적 산소요구량 및 전기전도도 지표가 이용되었다. 본 연구를 종합해보면, 12-메트릭 생태모형의 생지표 속성은 대조군($C_Z$)지역에 비해 오염지역($I_Z$)에서 화학적 스트레스 지표(부영양화 지표)에 아주 민감하게 반응 하는 것으로 나타났으며, 또한 이들은 부분적으로 서식지 평가지표에 의해 영향 받는 것으로 분석되었다.