• Proceedings of the Korean Society of Coastal and Ocean Engineers Conference
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• 1992.08a
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• pp.5-9
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• 1992

세종기지 주변해역의 해수면 자료는 남극 해양환경을 연구하고 환경변화를 예측하는데 필수적이므로 자료를 지속적으로 획득할 목적으로 기지주변 수심 37.7 미터에 수압식 조위계를 설치하여 1991년 1월 24일 부터 자료를 수신하였으며 1991년 10월 14일 계기 유실전인 9월 30일까지 자료를 분석하였고 92년 1월 3일부터 1월 26일까지의 자료를 정리하였다.(중략)

• Journal of The Korean Society of Grassland and Forage Science
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• v.40 no.1
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• pp.50-56
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• 2020

The field experiment was carried out to evaluate changes of dry matter productivity and feed value of Italian ryegrass and triticale at different growth stages in Wonju from 2018 to 2019. Italian ryegrass and triticale forages were harvested at an interval of seven days from May to June. The dry matter yield of Italian ryegrass with 7,870 kg/ha harvested on May 16 was significantly higher than that harvested on May 3 and May 9. The dry matter yield of triticale with 12,050 kg/ha harvested on June 7 was significantly higher than that harvested from May 3 to May 16. The crude protein yields harvested on May 16 were 890 kg/ha for Italian ryegrass and 1,103 kg/ha for triticale and were significantly higher than those harvested on May 3 and May 9. The total digestible nutrient yield(TDN) of Italian ryegrass with 5,223 kg/ha harvested on May 16 was significantly higher than that harvested on May 3 and May 9. The total digestible nutrient yield of triticale with 8,277 kg/ha harvested on June 7 was significantly higher than that harvested during May, but not different from that harvested after June 7. Considering the dry matter yield, crude protein yield and total digestible nutrient yield, it is suggested that the optimal harvesting times for Italian ryegrass and triticale seem to be May 16 and June 7, respectively.

• Korean Journal of Fisheries and Aquatic Sciences
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• v.15 no.1
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• pp.42-46
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• 1982

Followings are the results of growth of Pacific oysters transplanted from the temperate waters of Korea in February 1981, and cultivated upto early July in the tropical waters of Ambong Bay in Malaysia: The shell length increased from 5.78 mm in February to 25.01 mm in July, and the shell height increased from 7.33 mm in february to 38.91mm in July. The meat weight progressively increased and reached the maximum value of 1.66g in May, but then gradually decreased until July, and the fatness varied from $28\%$ of maximum in March to $11\%$ of minimum in July-Survival rate was $47\%\;and\;39\%$ of the initial number in June and July respectively.

• Korean Journal of Fisheries and Aquatic Sciences
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• v.2 no.1
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• pp.16-24
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• 1969

The present paper deals with the seasonal changes in abundance and composition of diatoms in the Suyung Bay, Pusan, Korea. This study was carried out from August 1966 through July 1967 As a result of the present study, 123 species of diatoms were Identified. While the highest number of diatoms (2,554,000 cells per liter) was recorded in April of 1967, the lowest number (20,400 cells per liter) appeared in December of 1966. In genera the standing stock of diatoms was high in spring and early fall and was low in late fall and winter. Two genera of the diatoms, Chaetoceros and Skeletonema, occupied a great portion of the diatom population throughout the course of this study. The following genera also appeared abundantly: Asterionella, Eucompia, Leptocylindrus and Nitzschia.

• KOREAN JOURNAL OF CROP SCIENCE
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• v.30 no.4
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• pp.398-404
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• 1985

This study was conducted to define the seasonal differences in the morphological characteristics, the photosynthetic abilities and the dark respirations of the 4-year old ginseng leaves. Chlorophyll-a content in the ginseng leaf was significantly decreased at September than at June but content of chlorophyll-b was not showed seasonal difference. At June, the amounts of chlorophyll a and b in the ginseng leaves grown in the back row were rather abundant than those grown in the front row, but no significant differencies were detected between rows at September. The estimated optimum light intensity for the photosynthesis of ginseng leaves was higher at June than at September and higher in the front row than the back row but was significantly decreased by air temperature above 25$^{\circ}C$. The light compensation point was elevated in higher temperature and at September than June. The amount of photosynthesis was significantly increased in the ginseng plant grown in the front row than the back row at June but the reverse was significant at September. The highest photosynthesis was observed in temperature range of 20 - 25$^{\circ}C$ at June and range of 15 -20$^{\circ}C$ at September. The optimum temperature range of photosynthesis was 21$^{\circ}C$ to 25$^{\circ}C$ at June and 14$^{\circ}C$ to 21$^{\circ}C$ at September, and that was higher in the back row than the front row. High temperature significantly stimulated the dark respiration of ginseng leaves and the respiratory quotients(Q$\_$10/) of the ginseng leaves showed a significant seasonal variation.

• Korean Journal of Fisheries and Aquatic Sciences
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• v.3 no.4
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• pp.219-227
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• 1970

The shrimp fishery for Penaeus japonicus on the Koje-Do coast commences in May and continues to October. The best catches are made twice a year, namely June and September. Modal carapace length for the female is $51\~55\;mm$ in May, $51\~60\;mm$ in June occupying about 80 percent of the total catch. There is conspicuous mode in July and $46\~50\;mm$ in August. Modal carapace length for the male is $41\~45\;mm$ in May, $46\~50\;mm$ in June, $41\~45\;mm$ in July and August. The stock of p. japonicus can be divided into two groups, namely, spring and fall groups. Among samples of p. japonicus during the period from May through August the sex ratio consisted of about 33 percent females and 67 percent males, showing wide departure from a 1:1 ratio. The relationships between carapace length ($\iota$), body length (L) and body weight (W) are expressed by the following formulae : $$L=2.9418{\iota}+2.0166$$, $$W:1.449{\iota}^{2.2858}$$ (Mayssample) $$L=2.5551{\iota}+4.2986$$, $$W=1.528{\iota}^{2.2595}$$ (June sample) $$L=2.6738{\iota}+3.4037$$, $$W=1.341{\iota}^{2.3598}$$ (July sample) The relatlonship between carapace length ($\iota$) and ovary weight (W) is shown as follows: $W=2.695\times10^{-3}\iota^{4.2973}$ for May, June and July Samples.

• Parasites, Hosts and Diseases
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• v.33 no.1
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• pp.19-26
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• 1995

Ecological studies of Aedes togoi, the vector of malayan filariasis, were ci,wind out at Tolsando, Yosu and Sokcho area in 1991. The adult population of Aedes togoi was continuously appeared from the first week of April to the end of November showing the highest density in .truly. The larvae of Aedes togoi were found at rock pools from March to December in Sokcho area and the density was highest in July and August, whereas in the southern coastal area (Yosu), the larvae were found throughout the year and the density was the highest in Tune. The rate of larvae inhabited below 0.5% salinity was 45.7% in Sokcho and 51.7% in Yosu. The feeding activity of Aedes togoi was nocturnal, with the peak period of 01 :00-03:00 hours. Indoor feeding activities were slightly higher than outdoors showing the biting ratio of 1 :0.8 (indoor: outdoor). The average number of Aedes togoi attracted to CO2 gas was 8.5 whereas 117 Anophelei sinensis was attracted. The result indicates that CO2 is not an effective attractant for host seeking of Aedes togoi compared to Anopheles sineteis. The most common place was bedroom with 54.5% of total collections and next to stock place (18.2%), floor(9.1%) and kitchen (9.1%).

• Proceedings of the Korea Water Resources Association Conference
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• 2012.05a
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• pp.704-704
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• 2012

우리나라에 16,000개 이상의 농업용 저수지가 존재하고 있으나, 대부분의 농업용 저수지는 홍수조절량을 갖고 있지 않다. 하지만, 농업용 저수지는 관개용수의 공급으로 홍수기 (6-8월)에 빈 공간이 생겨 실제로 홍수조절량을 갖게 되나, 지금까지 이에 대한 평가는 전반적으로 이루어지지 않은 실정이다. 농업용 저수지의 저수율은 일반적으로 관개기 직전인 4월말에 100%가 되고 관개기 동안 서서히 감소하며 홍수기에는 홍수의 유입으로 증가하다가 이후 용수공급으로 인해 감소하여 관개기의 끝인 9월 중순에는 최소가 된다. 홍수조절량은 일반적으로 [유효저수량 ${\times}$ (1-저수율)]로 산정된다. 본 연구에서는 유효저수능력 100만 $m^3$ 이상의 농업용 저수지를 대상으로 홍수조절능력을 평가하고자 하였다. 1,000만 $m^3$ 이하의 저수지 16개, 1,000만 $m^3$ 이상의 저수지 15개로 대상으로 각각의 저수지에 대한 21년 (1991-2011년)동안의 저수율 자료를 이용하여 10년 빈도 강수량의 해를 대상으로 유효저수량과 월별 홍수조절량의 회귀식을 유도하였다. 또한, 이 회귀식을 이용하여 유효저수량 1,000만 $m^3$ 이하 397개, 1,000만 $m^3$ 이상 34개의 농업용 저수지의 유효저수량으로부터 홍수조 절량을 추정하였다. 월별 홍수조절량은 1000만 $m^3$ 이하 소규모 저수지에서 6월 1.9억 $m^3$, 7월 0.4 억 $m^3$, 8월 0.9억 $m^3$ 이며, 1000만 $m^3$ 이상 중규모 저수지에서 6월 2.0억 $m^3$, 7월 1.1억 $m^3$, 8월 1.2억 $m^3$으로 나타났다. 총 저수지에 대한 각각 홍수조절량의 비율은 유효저수량 1000만 $m^3$ 이하 소규모 저수지에서 6월 (49 %) > 8월 (41 %) > 7월 (26 %) 순으로 나타났으며, 1000만 $m^3$ 이상 중규모 저수지에서 6월 (51 %) > 8월 (59 %) > 7월 (74 %) 순으로 나타났다. 두 종류의 저수지의 유효저수량은 비슷하나, 홍수조절량은 소규모보다 중규모 저수지가 더 크다고 판단된다. 여기서 얻은 결과는 우리나라의 농업용 저수지의 홍수조절용량을 설정하는 지표를 제시하는 데 사용할 수 있을 것으로 생각된다.

• Current Research on Agriculture and Life Sciences
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• v.16
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• pp.55-63
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• 1998

This experiment was conducted to know tolerance to cold temperature of the grape shoots collected at different locations and dormant periods in 1996 to 1997. The results from this experiment were as follows; (1) There is a little difference among locations in their electric conductance of Campbell Early cultivar, in Dec. 1996. But the least damage was shown at Kyung Joo while severe at Young Dong district in Jan. 1997. (2) Electric conductance of Sheridan cultivar was showing the same tendency as Campbell Early. (3) Early dormant period(December) affected severe bud browning at Young Dong than that of January. The grape shoot collected at Kyung San and Kyung Joo Showed a little influence on bud browning during December and January. (4) Likewise, bark browning of the grape shoot collected at Young Dong showed the same tendency with bud browning test. (5) The bud of grape shoot was bursted even at $-20^{\circ}C$. But rate of bud bursting was lower at Young Dong than the other districts at $-15^{\circ}C$ and $-20^{\circ}C$. From these results, the authors believe that we must introduce and test for suitable cultivation area and temperature before selection of permanent cultivating location.

• Pediatric Gastroenterology, Hepatology & Nutrition
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• v.6 no.2
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• pp.120-128
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• 2003

Purpose: Recently, while the authors were experiencing that the epidemic period of rotaviral infection happened more in the early spring, we tried to find out how the outbreaks of rotaviral infection are changing in detail depending on the weather condition since it has something to do with the climate factors and PM10. Methods: Fourteen hundreds seventy nine patients who were proved to be positive to rotavirus were chosen among children less than 5 years old from January 1995 to June 2003. Among various climate factors, monthly average temperature, humidity, rainfall and PM10 were selected. Results: Rotaviral infection was most active in 2002 as 309 (20.9%) patients. It has been the spring that is the most active period of rotaviral infection since 2000. The temperature (RR=0.9423, CI=0.933424~0.951163), rainfall (RR=1.0024, CI=1.001523~1.003228) and PM10 (RR=1.0123, CI=1.009385~1.015248) were significantly associated with the monthly distribution of rotaviral infection. Conclusion: Through this study we determined that the epidemic period of rotaviral infection is changed to spring, which is different from the usual seasonal periods such as late fall or winter as reported in previous articles. As increased PM10 which could give serious influence to the human body, and changing pattern of climate factors such as monthly average temperature and rainfall have something to do with the rotaviral infection, we suppose that further study concerning this result is required in the aspects of epidemiology, biology and atmospheric science.