• Journal of the Korean Society of Fisheries and Ocean Technology
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• v.33 no.2
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• pp.97-108
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• 1997

Variation of the catches and fishing grounds, and spawning ecology of Lophius litulon caught by large staw net were investigated from following as ; L. litulon caught through the year, and the peak in catches showed on January in winter, and the lowest catches showed on August in summer. The fishing grounds of L. litulon were located in the Yellow Sea and the East China Sea. And the main fishing ground was formed in the adjacent waters of Ilhyang-cho, where catches and CPUE were more than 50 M/T, 5 kg/haul, respectively, and the range of coefficient of variation(C.V) was 0.6~0.7. The spawning season of L. litulon was on March and April, when spawning area was formed in waters between Ilhyang-Cho and Cheju-Do. The fishing grounds distribution of L. litulon was obviously different with seasonal variation. Namely, in winter, the fishing grounds were mainly formed in the western waters of Cheju-Do, and on March and April( in spawning season), the fishing grounds were densely formed in the adjacent waters of Ilhyang-Cho, and after May, the fishing grounds were widely dispersed towards in the Yellow Sea and the East China Sea with temperature upgrade.

• Journal of the Korean Society of Fisheries and Ocean Technology
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• v.32 no.4
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• pp.340-355
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• 1996

In order to suggest the useful information of fishing ground, a data base system on 32bit personal computer was constructed and handled by using the catch data of Korean tuna long-line, catch by species, fishing time and place, fish price and etc. mainly from 1975 to 1992. The results obtained are as follows ; In the fishing ground displaying catch rate, the catch rate has reduced as time passed, and this penomenon was more evident in Indian. And yellowfin have high catch tate in the Western Pacific of low latitute region, bigeye tuna have in the Eastern. The region of high catch rate of bigeye tuna was moved from the Indian and the Atlantic to the Pacific. The patterns of catch numbers of yellowfin and bigeye tuna appeared nearly same that, having nothing to do with catch numbers in all oceans. The region of least catch was the Northwestern Pacific, the regions of most catch were the Western Indian and the Pacific of low latitute. As to simulation of fishing ground estimation, there were economical grounds in the Western Pacific of low latitute region, the Eastern Pacific of this, the Western Indian, the Eastern Indian, and the Atlantic, in order.

• Proceedings of the Korean Society of Fisheries Technology Conference
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• 2000.10a
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• pp.129-130
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• 2000

황해의 남동부에 위치한 한국 남서 연안해역은 남해와 인접한 해역으로 황해저층냉수, 황해난류수, 연안수, 양자강 희석수가 영향을 미치고 있으며, 이들 수계간에 형성되는 수온전선역은 좋은 어장을 형성한다. 또한 이 해역은 주요 수산자원의 어장 및 회유환경 그리고 해조류양식 등과 관련하여 해양학적ㆍ수산학적으로 매우 중요한 해역이다. 조석전선이 해양의 1차 생산자인 식물플랑크톤의 분포 및 성장에 큰 영향을 주는 것으로 밝혀지고 있다(Bowman and Esaias, 1977). (중략)

• 어항어장
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• s.75
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• pp.30-34
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• 2006

'70년대 이후 잡는 어업의 발달과 함께 통발.자망등의 어구가 크게 증가하여 국내 연근해 해역에는 약 40여만 톤의 폐기물이 바다 속에 침적되어 있는 것으로 추정되고 있으며 특히 주요어장 및 폐기물 밀집도가 높은 해역에는 약 115천 톤의 폐기물이 방치되어 있는 것으로 조사되고 있다.

• Proceedings of the Korean Society of Fisheries Technology Conference
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• 2001.10a
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• pp.210-211
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• 2001

연안 해역은 어장환경 악화와 가용 먹이량을 초과한 시설량 증대로 양식 생물의 생존 및 성장률이 저하되어 생산량이 감소하고 있으며 (Keng et ai.,2000; Sugawara ＆ Okoshi, 1991), 부영양화가 진행적지 않은 일부 해역에서도 양식 생물의 미성숙으로 인해 양식 기간이 연장되고 있다 (Choi et al., 1997). 이와 같은 이유로 양식 어장의 지속적인 개발과 이용을 위해서는 해역의 환경용량 (Carrying capacity)에 적합하도록 양식 생물 시설량을 재 조정할 필요성이 제기되고 있다 (Heral et al., 1990; Kang et al., 2000) (중략)

• Proceedings of the Korean Society of Fisheries Technology Conference
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• 2001.05a
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• pp.409-410
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• 2001

태평양 해 역은 1985∼1997년간 우리나라 연승어업에 의한 다랑어류 평균 어획량의 55％를 차지하는 중요한 해역으로 눈다랑어와 황다랑어가 전체 어획량의 82.2％ 차지 하고 있다. 따라서 다랑어 연승어업의 중요 어장인 태평양 해역에 대하여 서부∼동부 해역의 적도 주변에서 한국 다랑어 연승어업에 의해 주로 어획되는 황다랑어와 눈다랑어를 대상으로 풍도 변동, 연직분포, 어획 적수온, 수온 변동에 따른 분포 특성 등을 밝혀 동 해역에서 조업하는 다랑어 연승어업의 과학적인 어장 정보 제공과 다랑어류 자원의 효율적 이용 및 관리에 기여하고자 한다. (중략)

• Journal of the Korean Society of Marine Environment & Safety
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• v.20 no.4
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• pp.358-371
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• 2014

For the systematic scientific management in Cheonsu Bay of Korea, this study was conducedt to survey the particle composition, organic matter(I.L.) and heavy metals in farming and non-farming areas. The sediment of study area showed feature mixed property by sand, silt and clay. The farming area showed superior by fine-grained sediment, non-farming area showed superior by coarse-grained sediment. The organic pollution of farming area were appeared to be heavily polluted more than non-farming area. The concentration of total nitorgen in sediment was higher farming area than non-farming area. Also, in the case of heavy metals pollution in sediments, farming area was higher than non-farming area. The correlation analysis among to heavy metals, organic matter and particle size was found to have a good interrelationship. For evaluation of heavy metals pollution of sediments, three criteria are applied, Enrichment Factor(EF), Geoaccumulation index(Igeo) and NOAA criteria for sediment. In the case of EF, Heavy metals pollution was appeared to artificial effect all heavy metals if except Cu. In the case of Geoaccumulation index, Cu, Al, Pb was shown zero grade, that is non polluted group, and Cd, Hg, Cr was shown to 0~1 grade, that is mid polluted group, As was shown to 2 grade, that is moderately polluted group. In the case of NOAA, pollution levels of heavy metals except Cd belonged to a group of ERL(Effect range low)~ERM(Effect range median).

• Journal of the Korean Society of Fisheries and Ocean Technology
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• v.38 no.1
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• pp.20-35
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• 2002

We studied the fishing ground of a yellowtail and oceanographic conditions around Chujado and Marado around Jeju Island from autumn to winter. Also we investigate the forming mechanism of fishing ground around Marado, which shows the best catch of yellowtail near Jeju island. The obtained results are summarized as follow ; 1. When the high temperature water about 15.0∼19.0 in depth of 50m distributed around Chujado and Marado, the fishing ground of Yellowtail is shows a good catch. On the contrary, when the low temperature water about 11.0∼14.0 is shows a poor catch. 2. Fishing grounds of yellowtail by handline fishing are formed with a school of Yellowtail migrating southward from the coastal sea of Korea and slaying around Marado to winter and spawn due to following factors. Firstly, a front of temperature and salinity is formed between inshore water and oceanic water around Marado. Secondly, small-size eddies and excellent horizontal and vortical mix which is created by strong tide and geographical features including irregular underwater ground and an isolated island. An abundant school of yellow tails stays in front of the tide where a good fishing ground was made.

• Proceedings of the Korean Society of Fisheries Technology Conference
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• 2001.10a
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• pp.39-40
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• 2001

제주도 주변해역은 계절에 따라 다양한 이질수괴(대마난류계수, 황해지층냉수계수, 중국대륙연안수, 한국남해연안수 등)가 출현하고 있으며 이들 여러수괴의 분포상태에 따라 고등어, 전갱이, 방어, 삼치 등과 같은 여러 회유성 어종이 시기별 출현상황이 달라지고 있다(노, 1985; Nakao, 1977; 김ㆍ노, 1994; 김, 1995). 그중 방어(Yellow tail, Seriola quinqueradiata, TEMMINCK et SCHL-ECEL)는 제주도 주변해역에는 추ㆍ동계가 되면 제주도 북서쪽 추자도 주변어장을 시작으로 제주해협의 화도(속칭:관탈도)를 거쳐 제주도 남서부 마라도로 연결되는 방어어장이 매년 형성되며 특히, l1∼12월 사이의 어획량은 전국 방어 채낚기어업의 어획량의 대부분을 차지하고 있을 정도로 그 규모가 매우크다. (중략)

• 어항어장
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• s.46
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• pp.44-45
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• 1999