This study is to contribute to income growth of fishermen by the common octopus fishery characterized in the Tando Bay on the southwest coast of Korea. This area is engaged in Longline fishing (301 persons), Shovel fishing (196 persons), Trap fishing (14 persons) and Torch light fishing (40 persons) in 2008. Population who is joined in the spring becomes main fishery target population of longline fishery in the fall because entering fishing ground in August, and is joined in the fall becomes main fishery target population of longline fishery in the spring because entering fishing ground in December. Average size of common octopus examined by longline 6.26cm, 5.82cm for Shovel fishing, 8.09cm for trap, and expressed big difference by fishery. It needs necessary various kinds of Octopus resource management actions and methods in continuous use. Specially, Fishing force increased by fishing automation system, so the reduction of fishing force is needed to increased by fishing force. Government support and fishermen's self-conscious of resource management is needed.
This investigation was carried out to research on the actual states for bycatch and discards of catches caught by funnel net from December, 2007 to June, 2010. Fishing grounds were Manheung-dong and Ocheon-dong in the coastal waters of Yeosu. The number of the investigation was 21 in Manheung-dong and 7 in Ocheon-dong fishing ground. In Manheung-dong, the species of catches were 26 of fish, 6 of cephalopod and 5 of crustacean. In Ocheon-dong, the species of catches were 25 of fish, 6 of cephalopod and 4 of crustacean. In the two all fishing grounds, the largest amount of species was revealed as gray mullet. Among these catches, the number of non marketable species that were classified and discarded ones, were 9 in Manheung-dong and 7 in Ocheon-dong. Also, among the marketable species which were small entity or too tiny catches to commercialize and not fresh ones were discarded. The proportion that they dominate in the whole catches was 37.1% in the number of catches and 5.4% in the weight of catches in Manheung-dong, and 6.9% in the number of catches and 0.3% in the weight of catches in Ocheon-dong. In case of Manheung-dong, the monthly discarding proportion was the highest with 59.4% in the number of catches in may and 17.6% in the weight of catches in November, and in case of Ocheon-dong, the both of them were the highest in February, with 28.0% in the number of catches and 5.1% in the weight of catches.
A model experiment using circulation water channel was carried out to investigate the dynamic characteristics of bottom trawl net which can be used in sea mount of North Pacific. Hydrodynamic resistance and shape variation according to the flow velocity and angle of hand rope transformation for net were measured, and experimental value was analyzed as the value of full-scale bottom trawl net. The results summarized are as follows; At the 30˚ of angle of hand rope to net, hydrodynamic resistance varied from 0.5kgf to 2.68kgf as the flow velocity increased between 0.31m/s and 0.92m/s, and formula of hydrodynamic resistance for the model net was Fm=3.04 · r1.53. At the fixed angle of hand rope, Net height was low and Net width was high according to the increase of flow velocity, and in addition, vertical opening was low and Net width was high by the increase of angle of hand rope at the fixed flow velocity. At the 30˚ of angle of hand rope to net, net opening area was 0.214m2 as flow velocity was 0.61m/s, and formula of net opening area for the model net was Sm=-0.22r+0.35. At the 30˚ of angle of hand rope to net, catch efficiency seemed to be highest as 0.319m3/s of filtering volume at the 0.76m/s(51kt's) of flow velocity. Shape variation of net showed the gradual laminar transform for the variation of flow velocity but there needed some improvements due to the occurrence of shortening at the ahead of wing net.
The distribution and composition of marine floating debris were recorded from a training ship 'Kyeongyang' of Gangwon Provincial University at May 19-29, 2004 and Aug.24-31, 2004. The sampled area is the middle part of East Sea of Korea(the coast of Gangwondo and region of Ulleung island and Tokdo), divided into 27 unit segments on survey areas. Debris fabrication materials were categorized with 6 items using the following; styrofoam, paper & cardboard, net & rope, vinyl & plastic, floating metal & glass, man-made or natural wood. From the investigation on May,2004, total numbers of marine floating debris in the middle part of the East Sea of Korea was 996 individuals. The No. 1 and No. 2 unit segment located at south-west region of Ulleung Island showed higher density than others. The styrofoam and vinyl & plastic accounted for 72.8% of all debris fabrication materials. From the investigation on August, 2004, total numbers of marine floating debris in the coast of the Gangwondo of Korea was 2,473 individuals. The No. 13 and No. 14 unit segment located at the vicinity of Samcheok showed higher density than others. The styrofoam and vinyl & plastic amounted to 76.1%. In the coast of the Gangwondo, the vinyl & plastic showed the highest density of 6 items were 41.3% and 68.0% on May and August, respectively. The total numbers of marine floating debris on May and August were 3,399 individuals. Vinyl & plastic accounted for 59.4%(2,019 ind.) among all debris, next styrofoam 15.8%(537 ind.) and wood 11.2%(379 ind.).
The experiments were conducted to fine out the handling characteristics of the FMT(Frame Mideater Trawl) in the southern waters of Korea using a trawler "DONGBAEK" belongs to Yosu National University. The realtionship between the net depth D(m) and the warp length L(m) at the towing speeds of 2.5k't and 3.5k't werw as follows ; D(m) = 0.30L - 1.3(2.5k't), D(m) = 0.16L - 1.5(3.5k't). Therefore, the net depth was 3.0m deeper when the warp length was 10m longer at the towing speed of 2.5k't and was 1.6m deeper for 10m longer at the speed of 3.5k't, respectively. The sinking speed of FMT was 6.5m/min when the warp releasing speed was 24m/min at the towing speed of 2.5k't and was 3.8m/min for 25m/min at the towing speed of 3.5k't, respectively. The rising speed of FMT was 6.9m/min when the warp rewinding speed was 28m/min at the towing speed of 2.5k't and was 5.3m/min for 25m/min at the towing speed of 3.5k't, respectively. The mean elapsed time getting to the stable towing condition was 104sec at the towing speed of 2.5k't and was 105sec at the towing speed of 3.5k't, respectively, and there was no time difference for the towing speed variation. During the towing, the net depth was comparatively stable on the condition of no change for the warp length and the towing speed.
붕장어에 대한 스프링형 그물통발의 망목선택성 및 적정망목을 추정하기 위한 시험조업은 경남 거제시 능포 인근해역에서 2002년 9월25일~9월27일에 실시되었다. 시험어구는 현용어구인 15mm, 20mm 및 시험을 위해 제작한 25mm, 30mm 그리고 수산자원보호령에서 규정하고 있는 35mm와 대조어구로써 통수공 6.7mm의 플라스틱 통발을 각각 50개씩 제작하여 사용하였다. 망목선택성은 Kitahara(1968)와 Fujimori(1996)의 방법을 사용하여 분석하였고, 적정망목은 어체 동주와 체장과의 관계 그리고 망목선택성 Master Curve를 사용하여 추정하였다. 그 결과를 요약하면 다음과 같다. 1. 시험조업 결과 총어획미수는 835미로, 붕장어 537미(64.4%), 게류 225미(26.9%), 기타 73미(8.7%)였다. 2. 망목선택성 곡선의 Master Curve에서 최대 전장/망목(max. 1/m)의 값은 23.9로 추정되었다. 3. 붕장어 스프링 통발의 적정망목은 34.0mm로 추정되었다.
The power and scale of 950 hPa typhoon "Maemi" which struck the shore of Gosung in Kyungnam Province was same as that of 951 hPa typhoon "Saraho" in 1959. For the purpose of getting the safety of training ship "KAYA", we anchored at Jinhae Bay with riding at two anchors paid out 8 shackles of cable respectively. By the way when wind force being over 30m/s, we could not keep the safety of the ship "KAYA" by means of the holding power of an anchor only. Just by using the main engine moderately, we were able to maintain the security of the ship. The holding the main engine moderately, we were able to maintain the security of the ship. The holding power of an anchor according to the way of anchoring, the quality of sea bottom, the direction and speed of wind and current, and the length of an anchor cable were analyzed. The obtained results are summarized as follows : 1. When riding at two anchors rather than lying at single anchor we could get a good holding power. 2. There was a big difference in holding power according to the quality of the bottom. 3. It would be best anchoring in a soft mud area than in any other place as possible. 4. It would also be desirable to set anchor shackles much more than equipment number prescribed in regulation in order to get safety of a ship providing against typhoon.
새우조망 끝자루의 망목선택성을 조사하기 위한 시험조업은 여수 거문도 주변해역에서 2002년 10월 중에 끝자루의 망목을 28, 38, 51 그리고 61mm로 구성하여 덮그물 방식으로 각각 5 회씩, 총 20회 거문도 주변해역에서 실시하였다. 주 어획대상 어종인 수염대롱새우의 끝자루 망목별 어획률과 망목선택성 곡선 S=1/(1+exp-αCL+β))의 기울기 (a)와 절편 (b) 및 선택계수 그리고 표본망목선택성곡선 S=1/(1+exp(-α(CL/M)+β)))의 기울기(a)와 절편 (b) 및 적정망목을 추정한 결과는 다음과 같다. 1. 시험조업 결과 어획미수는 끝자루 11,504마리, 덮그물 12,879마리로 총 24,374마리, 313.1kg이 어획되었고 종별구성은 새우류, 어류, 게류, 연체동물 순이었으며, 부수 어획물은 어류의 자치어가 대부분을 차지하였다. 2. 끝자루 망목 28.0, 38.0, 51.0, 61.0 mm에 어획되는 대롱수염새우의 어획률은 각각 0.72, 0.63, 0.46, 0.29로 나타났다. 3. 끝자루 망목 28.0, 38.0, 51.0, 61.0 mm에 대한 선택성곡선의 a와 b 값은 0.53 -12.65, 0.35 -9.40, 0.28 -8.97과 0.24 -8.27이었고, 선택계수는 0.85, 0.71, 0.62, 0.55이었다. 4. 표본망목선택성곡선의 기울기(α)와 절편(β) 값 은 8.44, -5.49이었고, 대롱수염새우의 최소성숙갑각장 20.6 mm에 대한 적정망목은 30.7 mm, 상품(上品) 최소갑각장 25 mm에 대한 적장망목은 38.5 mm로 나타났다.
우리나라 남해안에서 플라스틱 붕장어 통발을 사용하는 통발어선이 연간 유실하는 통발의 개수는 통상 조업시 시용하는 통발의 2~4배인 것으로 나 타났다. 이러한 통발의 유실은 보통 조업중에 발생되므로 어구의 유실과 함께 어획물의 손실도 발생하게 된다. 어획불과 미끼가 들어있는 유실된 통발 은 붕장어뿐만 아니라 다른 해양 생물을 유인하여 어획할 수 있는 것으로 밝혀졌다. 그리고 유실된 붕장어 통발에는 어류, 갑각류, 두족류 등이 들어있었고, 이들 가운데는 붕장어의 먹이가 되는 베도라치, 청보리멸, 양태, 붉은메기와 새우류 등이 어획되어 있었다. 따라서 조업시 어획된 붕장어 이외에도 붕장어가 이들 통발 속에 들어있는 어획물을 섭이하기 위해 통발에 들어가므로서 추가적인 Ghost fishing의 가능성은 크다고 할 수 있다.
붕장어 통발 어업에 있어서 침지 시간과 어획과의 관계를 조사하기 위하여, 연안 통발 조업선을 이용하여 2002년 3월 15일부터 2002년 4윌 7일 사이에 실시한 시험 조업의 결과를 요약하면 다음과같다. 1. 침지 시간 3시간, 6시간 그리고 12시간에서 평균 어획은 각각 44.6마리/60개, 60.0마리/60개 및 81.3마리/60개였고, CPUE(catch number 10pots·hour)는 3시간, 6시간 그리고 12시간의 침지 시간에서 각각 2.5마리, 1.7마리 및 1.1마리로 나타났다. 2. 침지 시간의 경과에 따른 잔존 미수의 변화는 24시간과 48시간 사이에서 11.3%, 48시간과 72시간 사이에서 3.3% 로 침지 시간이 증가함에 따라 잔존 미수의 변화를은 감소했다. 3. 12시간까지의 침지 시간에서 혼획률은 매우 낮았다(1.5-3%). 그러나 24시간 이상의 긴 침지 시간에서는 침지 시간이 경과함에 따라 혼획도 증가되는 것으로 나타났다. 붕장어에 대한 미끼의 유인 효과는 통발의 설치 후부터 곧바로 감소하는 것으로 추정되며, 미끼의 상태에 따라 어획량의 차이가 큰 것으로 나타났다.
Ghost fishing으로 추정되는 유실된 플라스틱 붕장어 통발에 어획된 붕장어의 섭이 상태와 개체의 성장에 대해 조사하기 위하여, 통발 조업선에 어획된 붕장어와 트롤 그물에 어획된 붕장어를 이용하여 비교 분석하였다. 어획된 붕장어의 평균 전장은 연안 통발 조업선과 시험 조업에서 어획된 것이 33.6cm, 트롤 그물에 어획된 것이 48.9cm 그리고 수거된 유실 통발에 어획된 것이 45.6cm이었다. 이러한 체장의 분포는 붕장어가 성장하면서 연안에서 외양으로 나간다는 사실과 일치한다. 위내용물 조사에서 먹이를 섭이하지 못해 위내용물이 전혀 없었던 붕장어의 비율은 통발 조업선 5.0%, 트롤 4.2% 그리고 유실 통발 87.6%로 유실 통발에서 17~20배 높게 나타났다. 먹이로써 어류를 섭이한 붕장어의 비율은 통발 조업선이 98.7%, 트롤이 78.8% 그리고 유실 통발이 63.3%로 나타났으며, 그 외의 먹이 생물은 갑각류와 두족류 등이었다. 순체중과 전장을 이용하여 계산한 비만도는 트롤 어획물이 1.514이고, 유실 통발 어획물이 1.292로서 약 15%의 차이가 있었으며, 이들 자료에 대한 공 분산분석에서 실시한 t검정 결과 5% 유의수준에서 위치의 차이가 있는 것으로 나타났다.
이 연구는 1996년 8월부터 2002년 1월까지 우리나라에서 붕장어를 어획하는 대표적인 어구인 플라스틱 붕장어 통발이 바다 속에 어느 정도 유실되거나 버려져 있는지를 조사하고, 이들 통발에 의한 Ghost fishing의 실태를 파악하기 위하여 실시되었다. 유실되거나 버려진 통발의 수는 조사가 이루어진 해구에서 평균 34개/ km2 나타났으며, 106해구에서 94개/ km2로 가장 많았고, 113해구에서 5개/ km2 가장 적었다 수심에 따른 분포에서는 61~70m의 수심대에서 89개/ km2으로 가장 많았고, 130m 이상의 수심에서는 수집되지 않았다. 이들 통발에 의한 Ghost fishing의 평균 어획률은 8.1%였고, 224해구에서 어획률이 25%로서 가장 높았고, 92, 110, 243 및 253해구에서는 어획이 없었다. Ghost fishing을 하고 있는 통발의 수는 99해구에서 14.2개/ km2 추정되어 가장 많았다. 수심에 따른 어획률은 71~80m에서 20%로 가장 높았고, Ghost fishing을 하고 있는 통발의 수는 81~90m에서 12.7개/ km2로 가장 높은 것으로 추정되었다. Ghost fishing에 의해 어획된 붕장어의 체장 분포는 25.5cm~66.0cm였다.
인도네시아 어장에서 조업한 트롤어선의 물때별, 조업시간대별 어획량을 분석한 결과는 다음과 같다. 1. 가장 어획이 많았던 물때는 조금∼두물로 전체 어획량의 22.8%였고, 가장 적었던 물때는 아홉물∼열한물로 16.9%였다. 2. 조기류, 갈치, 가오리의 어획이 가장 많았던 물때는 각각 열두물∼열네물(20.8%), 조금∼두물(33.8%), 아홉물∼열한물(22.0%)이었고, 가장 적었던 물때는 조기류와 갈치는 아홉물∼열한물(18.7%와 10.0%), 가오리는 여섯물∼여덟물(16.8%)이었다. 3. 08∼12시 시간대의 어획량이 전체의 19.7%로 가장 많았고, 20∼24시에 14.1%로 가장 어획이 부진하였다. 4. 조기류, 갈치, 가오리의 어획이 가장 많았던 조업시간대는 각각 00:00-04:00(21.0%), 08:00-12:00(35.0%), 12:00-16:00(21.2%) 이었고, 가장 어획이 부진했던 조업시간대는 12:00 -16:00(12.7%), 20:00-24:00(4.5%), 20:00- 24:00(13.4%)이었다.
The fishing experiment was carried out by the training ship Saebada in order to analyse the mesh selectivity for trawl cod-end, in the Southern Korea Sea and the East China Sea from June. 1991 through August, 1992. The trawl cod-end used in this experiment has the trouser type of cod-end with cover net. and the mesh selectivity was examined for the five kinds of the opening of mesh in its cod-end part. A total of 163 hauls, of which having mesh size 51.2mm ; A 89, 70.2mm ; B 54, 77.6mm ; C 55, 88.0mm ; D 52 and 111.3mm ; E 20 were used respectively. Selection curves and selection parameters were calculated by using a logistic function, S=1/(1+exp super(-(aL+b)) ). The mesh election master curves were estimated by S=1/(1+exp super(-[a(L/M)+β]) ). and the optimum mesh size were calculated with (L/M) sub(50) of master curve. In these cases 'a' and 'α' are slope, 'b' and 'β' are intercept. 'L' is body length of the target species of fishes, 'M' is the mesh size, and 'S' denotes mesh selectivity. In this report, the four species of compressed form fishes were taken analized according to fish shape, and 'S' denotes mesh selectivity. In this report, the four species of compressed form fishes were taken analized according to fish shape, and the results obtained are summarized as follows: 1. Red seabream Pagrus major(Temminct et Schlegel) and yellow porgy Dentex tumifrons(Temminct et Schlegel) ; Selection rate in each mesh size of A, B, C, D and E were 99.7%, 97.5%, 91.4%, 76.7% and 57.8% respectively. Selection parameters 'a' and 'b' of mesh sizes C, D and E were 2.65 and -28.62, 4.40 and -77.73, 2.31 and -46.99, and their selection factors were 1.39, 2.10, 1.83 respectively. Selection parameters of master curve 'α' and 'β' were 3.05 and -5.65 respectively, and (L/M) sub(50) was 1.85. The optimum mesh size of Red seabream was 141mm. 2. Filefish Thamnaconus modestus (Gunther) ; Selection rate in each mesh size of A, B, C, D and E were 99.6%, 98.3%, 91.2%, 80.0% and 48.6% respectively. Selection parameters 'a' and 'b' of mesh sizes C, D and E were 5.82 and -55.10, 2.92 and -36.90, 3.91 and -63.09, and their selection factors were 1.35, 1.44, 1.45 respectively. Selection parameters of master curve 'α' and 'β' were 3.02 and -4.32 respectively, and (L/M) sub(50) was 1.43. The optimum mesh size was 129mm. 3. Target dory Zeus faber Valenciennes ; Selection rate in each mesh size of A, B, C, D and E were 99.7%, 100%, 83.2%, 91.6% and 65.0% respectively. Selection parameters 'a' and 'b' of mesh sizes C, D and E were 3.85 and -32.46, 4.19 and -57.38, 2.45 and -40.03, and their selection factors were 1.09, 1.56, 1.47 respectively. Selection parameters of master curve 'α' and 'β' were 2.64 and -3.53 respectively, and (L/M) sub(50) was 1.34. The optimum mesh size was 127mm. 4. Butterfish Psenopsis anomala (Temminct et Schlegel) ; Selection rate in each mesh size of A, B, C, D and E were 99.2%, 34.1%, 46.5%, 14.3% and 2.4% respectively. Selection parameters 'a' and 'b' of mesh sizes B, C and D were 5.35 and -71.70, 5.07 and -69.25, 3.31 and -62.06 and their selection factors were 1.91, 1.75, 2.13 respectively. Selection parameters of master curve 'α' and 'β' were 3.16 and -6.24 respectively, and (L/M) sub(50) was 1.98. The optimum mesh size was 71mm.