• 제목/요약/키워드: cold water mass

검색결과 198건 처리시간 0.019초

The Ecosystem of the Southern Coastal Water of the East Sea, Korea II. Primary Productivity in and around Cold Water Mass

  • Han, Myung-Soo;Jang, Dong-Hyuk;Yang, Han-Soeb
    • Journal of the korean society of oceanography
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    • 제33권4호
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    • pp.196-204
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    • 1998
  • $^{14}$C uptake experiments were carried out in and around the cold water mass in the southern part of the Korean East Sea in August and October 1995 to assess spatial and seasonal variability of primary productivity and its relation to physical and chemical factors. The cold and high saline water mass in the bottom layer extended upward to the surface layer and developed along the eastern coast of Korea in August. Chlorophyll-a concentration was maintained high in the cold water mass through August to October and its maximum concentration was 6.3 ${\mu}$g 1$^{-1}$ at Stn. 209-4 in August. Primary productivity and daily primary productivity ranged from 0.29 to 8.02 mgC m$^{-3}$ hr$^{-1}$ and from 58.3 to 63.1 mgC m$^{-2}$ d$^{-1}$, respectively, throughout the study period. Primary productivity of the cold water mass was higher than that of offshore waters in both summer and autumn seasons. P$_{max}$ and I$_{max}$ of the cold water mass in August were higher than those in October, except Stn. 208-5. These results suggest that high primary productivity in the cold water mass may be established by the upwelled nutrients and light adaptaion to convected phytoplankton due to upwelling of the bottom waters.

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Spatio-Temporal Variation of Cold Water Masses along the Eastern Coast of Korea in 2013 and 2014

  • Han, In-Seong;Park, Myung-Hee;Min, Seung-Hwan;Kim, Ju-Yeon
    • 해양환경안전학회지
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    • 제22권3호
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    • pp.286-295
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    • 2016
  • With the results of observations in 2013 and 2014 including ocean buoys, in-situ investigations and wind data, we examined the spatio-temporal variation of cold water masses along the eastern coast of Korea. Usually, a cold water mass first appears along the northern part of the eastern coast from May to July, and then along the southern part of the eastern coast from late June to mid-August. Cold water masses appear 3~5 times a year and remain for 5~20 days in the southwestern part of the East Sea. A distinctive cold water mass appeared usually in mid-July in this area, the surface temperature of which was below $10^{\circ}C$ in some cases. During the appearance of a cold water mass in the southwestern part of the East Sea, the horizontal temperature gradient was large at the surface and a significant low water temperature below $8^{\circ}C$ appeared at the bottom level. This appearance of cold water masses clearly corresponded to southwesterly winds, which generated coastal upwelling.

부산지역 기온에 미치는 냉수대의 영향에 대한 연구 (A Study on the Effect of Cold Water Mass on Observed Air Temperature in Busan)

  • 박명희;이준수;안지숙;서영상;한인성;김해동;배헌균
    • 한국지리정보학회지
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    • 제17권3호
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    • pp.132-146
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    • 2014
  • 본 연구에서는 부산(Busan)에 설치된 자동기상관측망(AWS)과 국립수산과학원에서 관측하는 부산(Busan)과 기장(Gijang)지점의 해수면온도(SST)자료를 활용하여 부산(Busan)지역의 연안에서 발생하는 대규모 냉수대에 의해 형성된 차가워진 냉기가 도시기온에 미치는 영향을 살펴보았다. 첫째, 냉수대가 발생한 날(cold water)은 연안지역과 도심지역의 기온차가 약 $1^{\circ}C$이상 나타났으며, 냉수대가 발생하지 않은 날(non cold water)은 연안지역과 도심지역의 기온차가 약 $0.5^{\circ}C$로 냉수대가 발생한 날(cold water)보다 낮은 기온차를 보였다. 둘째, 주간의 경우 냉수대가 발생한 날(cold water)은 연안지역이 도심에 비해 약 $1^{\circ}C$ 정도 낮았다. 반면 냉수대가 발생하지 않은 날(non cold water)은 연안지역과 도심의 기온차가 약 $0.4^{\circ}C$로 냉수대가 발생한 날(cold water)에 비해 낮은 분포 차를 보였다. 반면 야간의 경우는 냉수대가 발생한 날(cold water)의 연안지역이 도심에 비해 약 $1.2^{\circ}C$, 냉수대가 발생하지 않은 날(non cold water)은 연안지역이 도심에 비해 약 $0.9^{\circ}C$ 낮았다. 야간의 기온은 주간의 기온에 비해 냉수대 발생 유 무에 상관없이 높은 기온차를 보였다.

Study on the Anthropometric and Body Composition Indices for Prediction of Cold and Heat Pattern

  • Mun, Sujeong;Park, Kihyun;Lee, Siwoo
    • 대한한의학회지
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    • 제42권4호
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    • pp.185-196
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    • 2021
  • Objectives: Many symptoms of cold and heat patterns are related to the thermoregulation of the body. Thus, we aimed to study the association of cold and heat patterns with anthropometry/body composition. Methods: The cold and heat patterns of 2000 individuals aged 30-55 years were evaluated using a self-administered questionnaire. Results: Among the anthropometric and body composition variables, body mass index (-0.37, 0.39) and fat mass index (-0.35, 0.38) had the highest correlation coefficients with the cold and heat pattern scores after adjustment for age and sex in the cold-heat group, while the correlation coefficients were relatively lower in the non-cold-heat group. In the cold-heat group, the most parsimonious model for the cold pattern with the variables selected by the best subset method and Lasso included sex, body mass index, waist-hip ratio, and extracellular water/total body water (adjusted R2 = 0.324), and the model for heat pattern additionally included age (adjusted R2 = 0.292). Conclusions: The variables related to obesity and water balance were the most useful for predicting cold and heat patterns. Further studies are required to improve the performance of prediction models.

On the Cold Water Mass Around the Southeast Coast of Korean Peninsula

  • An, Hui Soo
    • 한국해양학회지
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    • 제9권1_2호
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    • pp.10-18
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    • 1974
  • The cold water mass around the southeast coast of the Korean Peninsula is analyzed by using CSK data from 1966 through 1970. It is shown that this water mass flows down from the region offshore of Jukbyun to the area of Youngil Bay along the 100meter contour line of bottom topography. In ordinary summer conditions when the current velocity in the Korea Strait is usually above about 50cm/sec and the wind direction is southwest, the cold water ascends to the surface and makes the surface temperature gradient large, unless disturbed by a tropical cyclon. The bottom water of the Korea Strait is formed by the stratification after the Tsushima intermediate water and the Japan Sea intermediate water have been mixed. In winter the Tsushima intermediate water with high salinity sinks rapidly around the inlet of the Japan Sea and prevents the Japan Sea intemediate water from entering the Korea Strait.

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한국 동해안에 출현하는 냉수괴의 특성과 기원 (CHARACTERISTICS AND ORIGIN OF THE COLD WATER MASS ALONG THE EAST COAST OF KOREA)

  • 김철호;김구
    • 한국해양학회지
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    • 제18권1호
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    • pp.73-83
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    • 1983
  • 동해안에 출현하는 냉수괴의 특성과 기원을 규명하기 위하여 해수의 물리적 특성을 검토하였다. 동해 서남 해역에서 북한 한류계수는 동한난류계수와 만나 전선을 형성하며, 난류계수의 밑으로 침강하여 동해고유수의 위에 위치한다. 침강한 북한 한류계수의 염분은 낮고 용존산소량은 매우 높아 동해고유수와 구별 이 가능함이 발견되었고, 이와 같은 염분과 용존산소의 특성치로써 하계 죽변-축산 연안 해역의 냉수괴는 용승한 동해고유수가 아니라 남하한 북한 한류계수임이 밝혀 졌다. 북한 한류계수는 동계보다 하계에 우세하게 남하하며 남하 하한은 축산-장기갑 해역으로 보인다. 국립수산진흥원이 정밀관측을 실시한 1973년에는 이보다 남쪽인감포 해역에서도 북한 한류계수의 특성이 발견되었다.

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한국 동해안 냉수괴의 해양화학적 고찰 (CHEMICAL OCEANOGRAPHIC ASPECT OF THE COLE WATER MASS IN OFFSHORE OF THE EAST COAST OF KOREA)

  • 박청길
    • 한국수산과학회지
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    • 제11권2호
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    • pp.49-54
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    • 1978
  • 한국 동해안해역에서 하계에 출현하는 냉수괴의 생성기구를 해양화학적인 측면에서 검토한 결과를 요약하면 다음과 같다. 1. 동해연안의 냉수괴출현해역의 인산염과 용존산계의 특수한 관계를 조사한 결과 동해남부 연안해역인 감포부근 해역에서만 용승현상을 인정할 수 있었으나 그 이북 동해중부해역에서는 용승현상을 인정할 수 없었다. 2. $\sigma_t-O_2$ diagram에 의해 동해연안해역의 구성수괴를 분석하면 T-S diagram 으로는 구별하기 어려운 북한한류계수와 일본해고유냉수를 구별할 수 있었다. 3. 동해남부 연안해역을 제외한 동해중부 연안해역에 출현하는 냉수괴의 기원은 일본해고유냉수의 용승에 의한 것이 아니고, 북한한류가 안안을 따라 남하하는 현상 때문으로 보인다.

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Seasonal Variation of Water Mass Distributions in the Eastern Yellow Sea and the Yellow Sea Warm Current

  • Pang, Ig-Chan;Hyun, Kyung-Hoon
    • Journal of the korean society of oceanography
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    • 제33권3호
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    • pp.41-52
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    • 1998
  • A seasonal circulation pattern in the eastern Yellow Sea (EYS) is suggested from the water mass analysis and geostrophic calculation using the hydrographic data collected by National Fisheries Research and Development Institute during the years of 1970 to 1990. This research focuses on the presence of inflow of warm (and saline) waters into EYS in summer. EYS is divided into two regions in this paper: the west coast of Korea (WCK) and the central Yellow Sea (CYS). In CYS, waters are linked with warm waters near Cheju Island in winter, but with cold waters from the north in summer (in the lower layer). It is not simple to say about WCK because of the influences of freshwater input and tidal mixing. Nevertheless, water mass analysis reveals that along WCK, waters have the major mixing ratios (40-60%) of warm waters in summer, while the dominant mixing ratios (50-90%) of cold waters in winter. Such a seasonal change of water mass distribution can be explained only by seasonal circulation. In winter, warm waters flow northward into CYS and cold waters flow southward along WCK. In summer, warm waters flow northward along WCK and cold waters flow southward into CYS. This circulation pattern is supported by both statistical analysis and dynamic depth topography. Accordingly, Yellow Sea Warm Current may be defined as the inflow of warm waters to CYS in winter and to WCK in summer.

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한국 서해 중부 연안역의 수질환경 특성 (Water Quality Characteristics Along Mid-western Coastal Area of Korea)

  • 임동일;강미란;장풍국;김소영;정회수;강양순;강영실
    • Ocean and Polar Research
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    • 제30권4호
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    • pp.379-399
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    • 2008
  • Spatial-temporal variations in physiochemical water qualities (temperature, salinity, DO, SPM, POC and nutrients) of surface and bottom waters were investigated along the mid-western coastal area (Taean Peninsula to Gomso Bay) of Korea. Spatial distribution patterns of temperature and salinity were mostly controlled by the physical mixing process of freshwater from Geum River and/or Gyunggi Bay with nearby coastal water. A strong tidal front is formed off Taean Peninsula during spring and summer. Seasonal variations in nutrient concentrations, lower in spring and summer and higher in fall and winter, are primarily regulated by magnitude of phytoplankton occurrence rather than freshwater loadings into the bay. Based on seasonal and spatial variability of physicochemical parameters, water quality of the study area can be divided into four water masses; Gyunggi Bay-influenced Water Mass (GBWM), Geum River-influenced Water Mass (GRWM), Yellow Sea Bottom Cold Water Mass (YSBCWM) and Cheonsu Bay Water Mass (CBWM). Water quality of the GBWM (Taean Peninsula coastal area), which has relatively low salinity and high concentrations of nutrients, is strongly controlled by the Gyunggi Bay coastal water, which is under influence of the Han River freshwater. In this water mass, the mixed layer is always developed by strong tidal mixing. As a result, a tidal front is formed along the offshore boundary of the mixed layer. Such tidal fronts probably play an important role in the distribution of phytoplankton communities, SPM and nutrients. The GRWM, with low salinity and high nutrients, especially during the flood summer season, is closely related to physiochemical properties of the Geum River. During the flood season, nutrient-enriched Geum River water mass extends up to 60 km away from the river mouth, potentially causing serious environmental problems such as eutrophication and unusual and/or noxious algal blooms. Offshore (<$30{\sim}40m$ in water depth) of the study area, YSBCWM coupled with a strong thermocline can be identified in spring-summer periods, exhibiting abundant nutrients in association with low temperature and limited biological activity. During spring and summer, a tidal front is formed in a transition zone between the coastal water mass and bottom cold water mass in the Yellow Sea, resulting in intensified upwelling and thereby supplying abundant nutrients to the GBWM and GRWM. Such cold bottom water mass and tidal front formation seems to play an important role in controlling water quality and further regulating physical ecosystem processes along mid-western Korean coastal area.

Water Mass Formation Variability in the Intermediate Layer of the East Sea

  • Min, Hong-Sik;Kim, Cheol-Ho
    • Ocean Science Journal
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    • 제41권4호
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    • pp.255-260
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    • 2006
  • Long-term variability in the intermediate layer of the eastern Japan Basin has been investigated to understand the variability of water mass formation in the East Sea. The simultaneous decrease of temperature at shallower depths and oxygen increasing at deeper depths in the intermediate layer took place in the late 1960's sand the mid-1980's. Records of winter sea surface temperatures and air temperatures showed that there were cold winters that persisted for several years during those periods. Therefore, it was assumed that a large amount of newly-formed water was supplied to the intermediate layer during those cold winters. Close analysis suggests that the formation of the Upper Portion of Proper Water occurred in the late 1960's and the Central Water in the mid-1980's.