한반도와 그 접경지역에 분포하는 Harpalina아족 30종에 대해 그들의 분포, 분류학적 소고, 그리고 모시표본에 대한 정보등을 정리하였다. 이들 재료들은 과거 러시아인 Schmidt 씨(1950년), Borchsenius씨(1950년)등에 의해 한반도 전역에서 채집, 러시아과학원 동물연구소(St. Petersburg)와 생물토양연구소(Vladivostocle)에 보관된 것들과 북한인 주동열씨에 의해 북한에서 채집된 표본들이었다. 그들 중 5종은 우리나라에서 처음 보고되는 미기록종이었다.

The distribution and abundance of fish in the Cheju southeastern area was studied by the combined hydroacoustic and bottom trawl surveys in April 1994 and in July 1995, respectively. The main purpose of these investigations was to provide the basic data for this management and the biomass estimation of commercially important demersal fish stocks in this area. The hydroacoustic surveys were performed by using a 50 kHz scientific echo sounder system with a microcomputer-based echo integrator. Acoustical measurements of fish abundance and distribution were conducted along the cruise tracks of research vessel and during all trawl hauls by continuous echo sounding. The average weight-normalized target strength for demersal fish aggregations was derived from the relationship between the mean volume backscattering strength for the depth strata of trawl hauls and the weight per cubic meter of trawl catches. The geographical distribution of fish stocks in the 1994 survey area was investigated in relation to oceanographic conditions. The results obtained can be summarized as follows: 1. From the 1994 and 1995 survey data, the relationship between the mean volume backscattering strength (〈SV〉, dB) for the depth strata of trawl hauls and the weight (W, kg/m3) per cubic meter of trawl catches was expressed by the following equation 〈SV〉 = - 32.8+ lOlog(W) The average weighted-target strength value at 50 kHz derived from this equation was .. 32.8 dB/kg. 2. In 1994 and 1995, both surveys showed a trend of decreasing fish abundance toward the southern area of the Cheju Island with high densities offish along the west coast ofth.e Tsushima Island. The highest demersal concentrations in the southern area of the CheJu Island appeared in bottom waters colder than 12℃.. . 3. From the results of combined bottom trawl and hydroacoustic surveys, the estunated fish densities in the southeastern area of the Cheju Island were 1.5488 x 10-4kg/m3 in the 1994 surveyand 1.9498 x 10-4kg/m3 in the 1995 survey, respectively.

Distribution of Anchovy was analyzed from the experimental operations by the small anchovy drag net fishery in the coastal area of Yang yang - gun and Myongju - gun of Kangwon Province from October to December, 1994. Temperature ranged from 11.4℃.to 17.4℃.throughout the experimental period. Fishes caught by experimental operation vessels were composed of anchovy, Clupanodon Punctatus, Pleuronectidae, Tetraodantidae, Acanthopagrus Schlegeli etc., and the anchovy occupied more than 99.6% of the total catch. Anchovy was characterized by the most abundance of the catch for the individual less than 6cm and the gradual increase after October for those larger than 6cm. CPUE(catch per tow) of anchovy was 684kg in October, 784kg in November, 1,590kg in December and mean CPUE of 3 months from October to December was 1,066kg. Fishing grounds of anchovy were formed in coastal area, from 37˚45'N to 38˚04'N, off Kangwon Province. Distribution density of anchovy in Chumunjin - up, Kyohang - ri Sachon - myon, and Sachonjin - ri coasts was higher than the other areas. Anchovy caught in this surveyed area was recruited from July to September at the length class between 2cm and 3cm, and grew to the sizes between 4cm and Bem in October, between 5cm and tcm in November, between tcm and Bem in December. Recruitment of anchovy increased from July to September and suddenly decreased after September. Individual number of the population was the largest during the period from August to October and gradually decreased after October. Biomass continuously increased after August, and was the largest in December.

1. 배양액의 EC(mS/cm)와 배양액의 수분포텐셜은 직선적인 관계가 있고, EC의 증가는 배양액의 수분포텐셜 저하로 나타났으며 이에 따라 상위엽의 수분포텐셜이나 침투포텐셜이 변화하는 경향을 보였다. 2. 물리화학, 열역학적인 지표가 되는 수분포텐셜(Φw)은 배양액 뿐만 아니라 식물의 근, 경, 엽 및 과실에서의 수분 상태를 동일 단위로 나타내는 것으로 식물의 생장을 제어할 때 유일한 지표인 것으로 나타났다. 3. 배양액의 수분포텐셜 저하에 따라 상위엽의 수분포텐셜이나 침투포텐셜이 저하하는 경향을 보였다. 4. 배지내 Cu 농도가 5μm이상으로 되면 생육, 지상부의 생체중, 지하부의 건물중, 엽록소 함유율이 동시에 급격히 저하하는 경향을 보였다. 5. 배지내 Cu 농도의 증가에 따라서 생장율의 저하가 나타났으며 생장율의 저하에 따라 상위엽의 수분포텐셜이 저하하는 경향을 보였다. 팽압은 처리에 관계없이 거의 일정하게 나타나 팽압과 배지내 배양액의 Cu 농도 스트레스간에는 직접적으로 관계가 없는 것으로 나타났다. 수분포텐셜(ψw)은 식물신장, 세포신장을 수적으로 표현하는 것이 가능하다. 수원이 되는 용액이나 배지, 식물체를 동일 단위(㎫)로 관찰하는 것이 가능해 식물체의 수분생리적 비교 검사를 위한 유효한 방법으로 생각되었다.

This paper intends to investigate commercial fish and shellfish 25 species (fish 8 species, shellfish 7 species, crustacean 3 species, molusc 4 species and echinodermata) for the distribution of sanitary indicator organisms (total viable counts, coliforms, staphylococci, vibrios, and enterococci) and diatributional change of indicator organisms according to storage temperature and period. The logarithmic mean of total viable counts for total commercial fish and shellfish 25 species was 5.41±0.26 CFU/g, and in accordance with fish and shellfishes, crustacean 6.76±0.67 CFU/g, shellfish 5.67±0.56 CFU/g, echinodermata 5.47±0.50 CFU/g, fish 5.021±0.38 CFU/g, and mollusc 5.03±0.65 CFU/g. The logarithmic mean of enterococci was 2.36±0.37 CFU/g, and in accordance with fish and shellfish, crustacean 3.44±0.12 CFU/g, shellfish 3.87±0.45 CFU/g, echinodermata 3.38±0.0 CFU/g, fish 2.16±0.41 CFU/g and mollusc 0.01±0.0 CFUIg. The logarithmic mean of vibrios was 1.60±0.59 CFUIg, and in accordance with fish and shellfish, crustacean 4.23±0.11 CFU/g, shellfish 3.58±0.90 CFUIg, echinodermata 1.64±0.34 CFU/g, fish 1.79±0.67 CFU/g and mollusc 1.07±0.61 CFU/g. The logarithmic mean of staphylococci was 1.60±0.59 CFU/g, and in accordance with fish and shellfish, shellfish 0.01±0.00 CFU/g, echinodermata 3.51±0.60 CFU/g, fish 1.68±0.64 CFU/g, crustacean 0.34±0.33 and mollusc 2.90±0.11 CFU/g. The logarithmic mean of coliforma was 2.2±0.32 CFU/g, and in accordance with fish and shellfish, echinodermata 3.58±0.89 CFU/g was highest, shellfish 3.25±0.30 CFU/g, crustacean 3.23±0.49 CFU/g, fish 2.18±0.63 CFU/g, peeled shellfish 1.80±0.51 CFU/ g and mollusc 1.55±0.95 CFU/g. As the results of research of the change of the contaminated indicator microflora in working with storage period at 10℃, 20℃ and 30℃, total viable counts was increased without storage temperature and enterococci were decreased slowly at 10℃, but increased at 20 and 30℃ Vibrios were decreased slowly at 10℃, decreased at 20℃ and 30℃ in 2 days after increased rapidly. Staphylococci were increased promptly without storage temperature in 2 days, then the total viable counts were maintained. Coliforms were increased at 10℃ by 7 days, then decreased or maintained after 14 days, changed at 20℃ in accordance with fish species in 2 days, then returned to the initial total viable count, and decreased rapidly at 30℃ on 2 days. By the way, there were no difference among the species.

평판형 모듈 설계의 최적화를 목적으로 feed 흐름 조건에 따른 feed 온도 및 유속분포를 예측할 수 있는 모델식을 확립하였고 모델 모사를 통해 흐름 조건들이 온도 분포에 끼치는 영향들을 조사하였다. 모델내의 유체의 Re 크기가 커지면 채널 두께방향으로의 유속 구배가 커질 뿐 아니라 투과물 증발을 위한 에너지원인 feed 흐름 속도가 커져 물질 및 열흐름이 증가하여 투과물 증발로 인한 feed 온도 강하가 증어든다. 반면에 채널 간격이 작아지면 feed 흐름량이 상대적으로 작아져 급격한 온도 강하를 야기시킨다. Re 크기에 따른 feed 온도 변화는 실험결과와 일치함이 관찰되었다.

Spatial distribution characteristics, volume backscattering strength and species composition of midwater trawling catch was analyzed biological and acoustical characteristics of anchovy shoal, using a high resolution echo - sounder at the south region of East sea of Korea. 1) In the survey site A of Lat.35˚55'N, Long.129˚45'E, the anchovy shoal of small to middle size with the horizontal range of 10~25m and large size with the horizontal range of 40~50m were distributed together. However in the survey site B of Lat.35˚38'N, Long.129˚40'E, the anchovy shoal was observed to be mainly small size which about 78% of the detected shoal. Another was that the anchovy shoal with the vertical range of 2~8m occupied about 68.6% in the survey site A and that of 6~12m occupied about 42.5% in the survey site B. The mainly the site A and B were found to be 10~50m super (2), 64.5% and 20~80m super (2), 66%, respectively. 2) The volume backscattering strength in the site A and B were observed to be -44.0~ -28.0dB, respectively. In the site A, the backscattering strength of -40.0~ -30.0dB was analyzed about 41.4%. 3) Most of total anchovy shoal was concentrated in the water layer of 50~100m in depth with 15.3~18.5℃, 34.0~34.3‰ in the survey site A and 14.2~16.4℃, 34.1~34.2‰ in the survey site B. 4) Mean total length(TL) and body weight(BW) of anchovy in the survey site A were 9.9cm and 4.4g respectively, with TL-BW relationship of BW=0.0007TL3.65super (3.85). In site B, mean total length(TL) and body weight(BW) were 11.2cm and 8.7g, with TL-BW relationship of BW=0.0023TL3.36.

본 연구에서는 TIMA를 전구체로 하는 수직형 MOCVD 반응기를 대상으로 수학적 모델을 세우고 컴퓨터에 의한 수치모사를 수행하여 반응기 설계 변수 및 공정조건이 AI의 증착속도와 증착두께 분포에 미치는 영향을 알아보았다. 수학적 모델은 수직형 반응기를 축대칭으로 보아 2차원으로 수립하였으며 반응기내의 운동량전달, 열전달, 물질전달을 포함한다. 이 수학적 모델의 지배 방정식들에 대하여 Galerkin 유한요소법을 적용하여 수치적으로 반응기 내의 유체 흐름 구조, 온도분포와 반응물의 농도 분포를 구하였다. 수치모사 결과 AI의 증착속도는 반응기 압력이 0.47torr, 기판온도가 250˚C, 유량이 7.5sccm일 경우, 190-230Å/min로 나타났다.