• Proceedings of the Korean Society of Fisheries Technology Conference
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• 2000.05a
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• pp.412-413
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• 2000

준치(Ilisha elongate)는 분류학상 청어목(Clupeiformes), 준치과(Pristigasteridae)에 속하는 어종으로(Nelson, 1994; Kim and Kim, 1997, 우리나라, 일본, 동중국해, 싱가포르, 인디아 등지에 분포한다(Whitehead, 1987). 준치는 우리나라의 제주도 서남 해역에서 월동하고, 강 하구나 기수역에서 산란하며 남하하는 계절회유성 어종이다(Kim et al., 1994). (중략)

• The Sea:JOURNAL OF THE KOREAN SOCIETY OF OCEANOGRAPHY
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• v.5 no.3
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• pp.216-223
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• 2000

In order to study origin and mixing ratio of surface water masses in the East China Sea (ECS), the South Sea of Korea and the Korea Strait, we use three end-member mixing equation. We use $^{228}$Ra/$^{226}$Ra activity ratio and salinity as two conservative tracer and the Changjiang Water (CW), the Yellow Sea Water (YSW), and the Kuroshio Water (KW) as three end members, Results show that ECS surface water includes all the three end member water, in the order of KW (50-90%), YSW (20-40%) and CW (0-20%) in August 1997. Also, the amount of CW can be approximately estimated by salinity alone. Surface water of the South Sea and the Korea Strait includes very small or almost no CW (below 2% except station 9) in May 1998. Thus in the Korea Strait mixing ratio could be estimated by $^{228}$Ra/$^{226}$Ra activity ratio tracer alone between two end-members, KW and YSW. However, in order to Set more accurate results or in case of rainy season, a mixing equation based on two tracers and three end-members is required.

• Journal of the Korean Society for Marine Environment & Energy
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• v.8 no.2
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• pp.100-110
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• 2005

We carried oui a study on the marine environment and distribution of phytoplankton community, such as chlorophyll a, species composition, dominant species and standing crops in the Northern East China Sea during early summer of 2004. According to the analysis of a T-S diagram, three characteristics of water masses were identified. We classified them into the coastal water mass, the cold water mass and the oceanic water mass. The first was characterized by the low temperature and the low salinity originated from China territory, the secondary was characterized by the low temperature, the low salinity and the high density originated from bottom cold water of Yellow Sea, and the third was done by the high temperature and salinity originated from Tsushima warm current. The internal discontinuous layer among them was farmed at the intermediate depth (about $5{\sim}30m$ layer). And the thermal front by upwelling region between the cold water mass and Tsushima warm current appeared in the central parts of the South Sea of Korea. The Phytoplankton community in the surface and stratified layers was a total of 44 species belonging to 26 genera. Dominant species were Prorocentrum triestinum, Scrippsiella trochoidea, Skeletonema costatum & Leptocylindrus mediterraneus. Standing crops of phytoplankton in the surface layer fluctuated between $0.3{\times}10^3$ cells/L and $10.8{\times}10^3$ cells/L. Diatoms appeared mainly in the Tsushima warm current regions, and flagellates occurred in the frontal zone and the low salinity regions where was the transfer areas of Chinese continental coastal waters. Chlorophyll a concentration by controlled phytoflagellate ratio in the South Sea of Korea was high values in the frontal zone and sub-surface layer. It was high concentration in the upwelling and coastal waters regions, but low concentration in the Tsushima warm current regions. The Chl-a maximum layers appeared in the thermochline depth or sub-surface layer lower than thermocline. The phytoplankton production in the South Sea of Korea was controlled by the expanded coastal waters of Chinese Continent which include a high concentrations of nutrients.

• Journal of the Korean Society of Marine Environment & Safety
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• v.26 no.5
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• pp.493-505
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• 2020

Food web structures in the lower trophic levels of the seas around the Korean peninsula were investigated in August 2019 using stable isotopes. There were variable ratios of the carbon (-26.18 ~ -20.61 ‰) and nitrogen stable (5.36 ~ 15.20 ‰) isotopes in the particulate organic matter (POM). Most of the organisms ingested micro-POM as a major food source, but this varied spatially. The chaetognaths (3.40 ± 0.61) occupied the highest trophic level. The isotope mixing model showed that the proportions (13 ~ 51 %) of some organisms (i.e., copepods and euphausiids) reflected the relative contributions as major food sources for chaetognaths at each site.

• The Sea:JOURNAL OF THE KOREAN SOCIETY OF OCEANOGRAPHY
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• v.8 no.3
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• pp.327-339
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• 2003

During the winter in February 1998, January and April 1999, interdisciplinary research was conducted in a large area including the South Sea of Korea and northern East China Sea to examine distribution and structure. Water masses identified from the observed data are Warm Water originated from Tsushima Warm Current, Yellow Sea Cold Water (Northern or Central Cold Water) and Korean Southern Sea Cold Water. In the southern Yellow Sea, Warm Water originated from Tsushima Warm Current, flowing into the Cheju Strait after turning around the western Cheju Island, makes a front of '┍' shape, which is bounded by the Yellow Sea Central Cold Water in the southern part of Daeheuksan Island and by the Yellow Sea Northern Cold Water in the eastern part of the Yangtze Bank. This front changes its corner shape and position with strength of the warm water extension toward northwestern Yellow Sea. The position and structure of the fronts off the southwestern tip of the Korean peninsular and near the Yangtze Bank varies with observation period. In the front in the South Sea of Korea, cold coastal water which if formed independently due to local cooling, ,sinks along the sloping bottom. We explained the processes of variations in the distribution and structure of these winter fronts in terms of up-wind and down-wind flow by the seasonal monsoon, heat budget through the sea surface and density difference across the fronts.

• Korean Journal of Fisheries and Aquatic Sciences
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• v.31 no.5
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• pp.695-706
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• 1998

SST (Sea Surface. Temperature) fronts which were found in the South-West Sea of Korea and the northern area of the East China Sea were examined in order to clarify their positions, shapes, seasonal changes and the formation mechanism, For this study used SST data rearranged from the SST IR image during 1991 to 1996 and oceanographical data obtained by National Fisheries Research and Development Institute. Temperature front in the Cheju Strait was analyzed by the data obtained from a fisheries guidance ship of Cheju Provincial Government, The coastal frontal zone in the South-West Sea of Korea and the offshore frontal zone in the northern area of the East China Sea can be divided into several types (Type of Winter, Summer, Spring, Autumn and late Autumn), Short term variations of SST fronts have a tendency not to move to any Bleat extent for several days. The location of the frontal zone in the southwestern sea of Cheju Island changes on a much large scale than that of the one in the southern coast of Korea, The frontal Tone, formed every year in the southern sea of Korea approaches closer to the coastal area in winter, and moves closer to the south in spring and autumn. The frontal zone of the southwestern sea of Cheju Island moves in a westerly direction from the east, and reaches its most westerly point in the winter and its most easterly point in the summer related to the seasonal change of the Tsushima Current. Additionally, the frontal zone of the southwestern sea of Korea becomes extremely weak in March, April and November. SST fronts are formed every year around the line connecting Cheju Island to Yeoseo Island or to Chungsan Island in the Cheju Strait. A Ring-shaped tidal mixing front appears along the coastal area of Cheju Island throughout the year except during the months from November to January. Especially, in May and October fronts are formed between the coastal waters of Cheju Island and the Tsushima currents connecting the frontal zone of the coastal region in the southern sea of Korea with that of the southwestern sea of Cheju Island.

• Proceedings of the Korean Society of Fisheries Technology Conference
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• 2003.05a
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• pp.300-301
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• 2003

갈치 (Trichiurus lepturus Linnaeus)는 우리나라 서해 및 남해, 동중국해, 발해, 일본 서부 및 류슈 연안 등 한국 주변 수역에 넓게 분포하는 난류성 저어어종이다. 우리나라 갈치의 주어장은 EEZ 설정 후 어장이 많이 축소되어 최근에는 흑산도, 제주도 인근의 서해남부 및 제주도 서방해역에서 근해안강망, 쌍끌이기선저인망, 대형트롤, 대형선망, 근해채낚기 등에 주로 어획된다. 우리나라 갈치의 어획량은 1970년대 초반에는 급격한 증가추세로 1974년에 17만톤으로 가장 많았으며, 이후 1977년에 7만톤 수준으로 떨어졌고, 1997년부터 다시 높은 수준으로 회복 되면서 1983년에 다시 15만톤의 어획을 기록하였다. (중략)

• Journal of Fisheries and Marine Sciences Education
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• v.9 no.1
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• pp.71-82
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• 1997

The squid fishery from the East China Sea has increased in importance in recent years, for management of resources were carried out selection experments using diamond and square mesh cod-end with enclosing small mesh cover net by trouser net method during 1991-1994 year. Mesh selection studies on Short-finned squid and Long-finned squid divided from catches by trial experiments. The results that square mesh cod-end retained proportionally fewer small and undersized Short-finned squid and Long-finned squid, square mesh cod-end were greater selection factor and 50% selection length than diamond mesh cod-end.

• Proceedings of the KSRS Conference
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• 2007.03a
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• pp.210-215
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• 2007

북극 다산기지가 있는 니알슨 인근 해역인 Kongsfjorden만은 일부 해역이 해빙으로 덮혀 있는 반폐쇄적인 만으로 수심이 평균 200m 이상 된다. 이곳 북극 지방은 하절기 라도 태양의 고도가 낮아 해색위성분야의 극지활용에 대한 가능성 여부도 명확하게 알려져 있지 못하다. 따라서 본 연구에서는 북극 다산기지가 위치한 스발바드 군도의 니알슨 주변 해역(Kongsfjorden 해역)을 중심으로 2006년 8월 현장관측된 자료들을 유사한 시기의 한반도 주변 해역에서 현장관측된 자료들과 비교/분석하여 해양환경적 특성과 해수광학적인 특성이 어떤 차이가 있는지를 비교 분석하였다. 또한 북극 지방에서 인공위성을 이용한 해색위성자료의 극지활용이 가능한지를 검토하였다. 해수의 광 특성으로, 니알슨 주변 해역의 ${\alpha}^*_{ph}(440)$ 최대값은 $0.1m^2/mg$으로 한반도 주변해수의 ${\alpha}^*_{ph}(440)$ 최대값보다 약 2배정도 높게 측정되어 플랑크톤의 광 흡수효율이 중위도보다 상대적으로 높은 것으로 분석되었다. ${\alpha}^*_{ss}(440)$ 값은 $0.04-0.1m^2/g$으로 동중국해와 유사하며，한반도 주변해수보다 높은 값을 나타냈다. 이것은 Kongsfjorden 해역의 부유물질(SS) 구성성분이 동중국해와 유사한 무기광물 입자로 주로 구성되어 있음을 보여주고 있다. ${\alpha}_{dom}(400)$ 값은 $0.08-0.25m^{-1}$로 한반도 주변해수의 ${\alpha}_{dom}(400)$이 값과 유사하고 연안해역의 ${\alpha}_{dom}(400)$ 값보다 낮은 값을 나타냈다. $E_d(460)$의 평균값은 Konsfjorden 해역 $40mW/cm^2/{\mu}m$, 동중국해 $120mW/cm^2/{\mu}m$, 황해남부 $110mW/cm^2/{\mu}m$, 남해연안 $100mW/cm^2/{\mu}m$, 진해만 $100mW/cm^2/{\mu}m$이었다. 이와 같은 현장관측결과를 토대로 분석한 북극 다산기지 주변 해역의 해수광학적인 환경 특성은 용존유기물의 흡광도를 기준으로 볼 때 대양(Open Sea)의 광 특성과 유사하였다. 또한 북극지방에서 태양의 해수 입사 광량은 중위도의 약 40%정도이지만 해색위성자료의 극지활용이 가능하다고 판단되었다.

• Journal of the Korean Geophysical Society
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• v.7 no.3
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• pp.225-232
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• 2004

To investigate the depositional environment and the geological structure of the Jeju Basin in the South Sea of Korea, we acquired 54-channel seismic data of about 1,980 line-km. The study area lies at the northeastern part of the East China Sea Trough, a Tertiary back-arc basin. The sedimentary basin formed by rifted activities resulted in the formation of graben and/or half-graben structures. The basin is composed of pre-rift, syn-rift and post-rift sediments bounded by regional unconformity. The pre-rift and syn-rift sediments consist of Oligocene, Early and Middle Miocene sequence, whereas the post-rift sediments consist of Late Miocene and Plio-Pleistocene sequences. Seismic and well data from the Jeju Basin indicate that Oligocene-Miocene sediments were deposited under fluvial and lacustrine depositional conditions. Following compressional tectonic movements in the Late Miocene time and a subsequent period of erosion, regional subsidence during the Pliocene time brought the Jeju Basin under marine conditions, resulting in the deposition of dominantly marine sediments.