• 한국수산과학회지
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• 제45권5호
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• pp.493-498
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• 2012

We derived biological reference points for Pacific cod Gadus macrocephalus in southeastern Korean waters by applying a yield-per-recruit analysis based on a daily simulation that adopted size-dependent fecundity, growth, and natural mortality functions. This showed that the yield per recruit of Pacific cod can be maximized at an instantaneous rate of fishing mortality (F)=0.37 $yr^{-1}$ under the current regulations, where the minimum catch size ($L_c$)=30 cm in total length (TL). The maximum economic yield was estimated to be attained at $L_c$=35-45 cm TL, if F>1 $yr^{-1}$ but at $L_c$=35-40 cm TL, if F<1 $yr^{-1}$. Despite great uncertainty in the stock assessment, to develop fisheries management plans for the sustainable exploitation of Pacific cod in southeastern Korean waters, it is necessary to estimate F using capture-recapture or other expedient methods.

• 수산경영론집
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• 제18권1호
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• pp.59-97
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• 1987

Tuna and tuna fishing extend over most of the tropical waters of the world oceans, especially, this study of the Indian Ocean and the fish and the fishing vessels are highly mobile. No country can deal in isolation with the problems of its tuna fishery and of any tuna fishery in its waters, without collaborating with other countries. This cooperation is often best established through some formal international mechanism. The essential requirements are for information-on the resources, the fishery, the trade-and to identify where management actions are needed to consore the resources or to maintain the economic or social function of the fishery. These will also usually require some form of international mechanism. With the changes in the Law of the Sea, the siuuation in respect of management of tuna-considered among the highly migratory species, requirng special treatment-has also changed. At present there are both uncertainty regarding tuna management and political arguments as to how such management can be best implemented. Bearing this in mind, together with the fact that only few tuna stocks have shown clear evidence of serious depletion through over-exploitation, present emphasis will be placed on information requirements. This study included compiling the data necessary to review the state of stoks in the Indian Ocean tuna fishing grounds. Information on the resources-where the fish are, their quantity, their movements, etc. is important, whether in planning development of new fisheries, or considering the need for collaboration with other countries (in ascertaining to what extent their catches may affect catches of the natoinal fleet) or for conservation measures. A major source of information is the statistics of for conservation measures. A major source of information is the statistics of catch and fishing effort from existing commercial vessels. These need to be assembled for all fisheries on the same stock on an oceanwide basis. The statistical data also need to be analysed and intepreted, and combined with biological data(e.g., on growth, mortality and migration rates) to provide information that is intelligible and useful for administrators and other decision-makers. This must also be undertaken on a resource-wide or ocean-wide basis. Finally, because of the world-wide similarities in the methods of datching, processing and marketing fish, there is a particular tut not exclusive need in those countries just beginning to develop their tuna fisheries-to have ready access to a syntheis of information on tuna, tuna biology and tuna fisheries and tuna fisheries economics and management on the Indian Ocean.

• 한국수산과학회지
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• 제42권5호
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• pp.487-493
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• 2009

Available ecological and fishery data of sailfin sandfish, Arctoscopus japonicus, was examined to ascertain its population dynamic parameters in Korean waters. The instantaneous coefficient of total mortality (Z) was estimated to be 1.361/yr, and annual survival rate (S) was 0.256. The estimated instantaneous coefficient of natural mortality (M) was 0.482/yr, and the instantaneous coefficient of fishing mortality (F) for recent years was calculated to be 0.879/yr from Z and M values. Age at first capture was estimated to be 1.958 years. These parameters, in conjunction with catch landings data between 1991 and 2008, were used to estimate annual biomass using a biomass-based cohort analysis. The biomass of A. japonicus was estimated at approximately 7,600 mt in 1991, but since 1994 decreased to below 4,000 mt by 2001. After 2002 they started to increase gradually, and showed the level of more than 5,000 mt in recent years.

• 한국수산과학회지
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• 제55권5호
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• pp.721-729
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• 2022

We investigated the ecological characteristics and biomass of white croaker Pennahia argentata population in the South Sea of Korea using catch data from Danish seins fishery and biological data from 2018 to 2020. Survival rate (S), which was estimated using Pauly method (1984) was 0.361 per year, and the instantaneous coefficient of total mortality (Z) was 1.019 per year. The instantaneous coefficient of natural mortality (M) and that of fishing mortality (F) were estimated as 0.351 and 0.668 per year, respectively. At first capture, age was estimated to be 1.19 years and length at this age was 18.7cm. The annual biomass was estimated with a biomass-based cohort analysis using annual catch data between 1997-2020 in Korean water. The biomass of the white croaker declined sharply from 4,000 tons in 1999 to the lowest level of approximately 1,000 tons in 2004. Post 2004, the biomass started to increase gradually and reached approximately 7,000 tons. The amount of resources was 35.7%, 34.8%, and 16.5% at age one, two, and three years, respectively, and 86.9% of all captured white croaker individuals belonged to the age group of 1-3 years.

• 생태와환경
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• 제44권2호
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• pp.172-177
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• 2011

본 연구는 최적화된 자원량을 기반으로 최대 생산성을 얻을 수 있는 잠재생산량 추정을 통한 어족자원(꺽지)의 효율적 관리방안을 모색하고자 하였다. 이를 위해 섬진강 중 상류 수계에서 2008년 8월부터 2009년 4월까지 계절별로 총 4회 조사를 실시하였다. 자원량 추정은 소해면 적법(Swept Area method)을 이용하였으며, 잠재생산량은 생물학적 허용어획량(Allowable Biological Catch, ABC)에 기초한 어족자원 잠재력 추정시스템을 수정 보완하여 사용하였다. 또한, 꺽지 자원의 효율적인 관리 방안을 검토하기 위해 가입당생산량모델(Beverton and Holt)을 사용하였다. 연구결과, 어획개시연령($t_c$)은 1.464 age로 나타났으며, 이를 체장으로 환산한 결과 7.8 cm(BL)로 확인되었다. 현재 어획강도를 나타내는 순간어획사망계수(F)는 0.061 $year^{-1}$이었으며, 이를 기준으로 한가입당 생산량(Y/R)은 4.124 g로 추정되었다. 어획개시연령($t_c$)과 순간어획사망계수(F)를 기준으로 한 적정어획사망계수($F_{ABC}$)는 0.401 $year^{-1}$로 추정되었는데 이는 현재 꺽지 자원에 대한 어획강도가 매우 낮은 상태임을 시사한다. 꺽지의 연간 자원량은 3,048 kg으로 나타났으며, 현재 어획개시연령과 적정어획사망계수를($F_{ABC}$)를 바탕으로 한 잠재생산량은 861 kg으로 추정되었다. 가입당 생산량 모델을 사용하여 어획개시연령을 3 age로 어획사망계수는 0.643 $year^{-1}$로 가정할 경우, 가입당 생산량은 현재의 4.12 g에서 13.84 g로 약 3.4배 증가될 것으로 예상되었다.

• 생태와환경
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• 제43권1호
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• pp.82-90
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• 2010

본 연구는 섬진강 중 상류 수계의 꺽지자원에 대해서 자원평가의 기초로 사용되는 자원생태학적 특성치들을 분석하고자 하였다. 연령사정을 위한 연령형질로서 이석(otolith)을 사용하였으며, 연령사정 결과, 최고연령은 5세로 나타났다. 체장(BL)과 체중(BW)의 관계식은 $BW=0.0195BL6{3.08}$($R^2=0.966$) 이었으며, 윤문이 형성되었을 때의 체장을 역계산하기 위한 체장(BL)과 이석경(R)과의 관계식은 BL=3.882R+1.66($R^2=0.944$)로 나타났다. 비선형회귀방법을 이용한 von Bertalanffy 성장모델의 매개변수는 이론적 최대체장($L_{\infty}$)이 19.68 cm, 이론적 최대체중($L_{\infty}$)이 188.64 g, 성장계수(K)가 0.17, 체장이 0 일 때의 연령이 -1.46세 등으로 각각 추정되었다. 이를 통해 추정된 성장식은 Lt=19.68(1-$e^{-0.17(t+1.46)}$)($R^2=0.997$)로 나타났다. 생존율을 추정하는 6가지 방법 중 평방오차합(Sum of squared error: SSQ) 이 가장 작은 어획물곡선법을 이용하여 생존율을 추정하였으며, 추정된 생존율(S)는 $0.666\;year^{-1}$으로 확인되었다. 순간자연사망계수(M)와 순간전사망계수(Z)는 $0.346\;year^{-1}$과 $0.407\;year^{-1}$로 각각 추정 되었으며, 이를 통해 확인된 순간어획사망계수(F)는 $0.061\;year^{-1}$로 확인되었다.

• 한국수산과학회지
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• 제30권4호
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• pp.620-626
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• 1997

본 연구는 한국 연근해 갈치의 연도별 연령별 어획량 자료를 사용하여 생체량을 기초로한 코호트 분석법 (Zhang, 1987)에 의하여 갈치의 $1970\~1988$년 자원량을 추정하였다. 연도별 자원량은 1975년 약 24만톤으로 가장 높은 수준을 보였으며, 1980년부터는 14만톤의 수준으로 떨어졌다. 성어자원량에 있어서는 1978년 약 5.5만톤의 최대수준을 보인 이후, 계속 감소되어 1980년 이후 약 9 천톤의 낮은 수준에 머물러 있다. 연령별 자원량의 경년 변동에 의하면 1970년대와 1980년대의 연령조성은 큰 차이를 나타내었다. 1980년대의 연령조성에서는 4세 이상의 대형어는 거의 나타나지 않고 있으며, $1\~3$세까지의 소형어 수준도 70년대 수준에 크게 못미치고 있다. 또 1973년 연급군이 비교적 탁월연급군으로 나타났다. 코호트 분석에 의해 추정된 1970년대와 80년대의 연도별 순간어획사망계수는 서로 유의성 (P<0.05)을 보여 80년대의 어획사망계수가 증가한 것으로 나타났다. 자원량에 대한 가입량에 있어서는 Ricker curve를 나타내 밀도종속적인 관계를 보여주고 있다.

• 한국패류학회지
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• 제26권4호
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• pp.291-296
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• 2010

본 연구에서는 제주도산 소라의 자원생태학적 특성치인 생잔율, 순간자연사망계수 및 순간어획사망계수, 어획개시연령을 추정하였으며, 직접 조사를 통한 자원량을 확인하였다. 생태학적 특성치 추정을 위한 표본은 2009년 9월부터 2010년 5월까지의 자료를 활용하였다. 순간전사망계수는 2.2062 /year로 추정되었으며, 순간자연사망계수는 0.8743/year로 추정되었다. 어구가입연령은 2.636 세로 추정되었다. 소라 자원을 가입당어획량 모델에 적용시킨 결과, 현재의 순간어획사망계수, 어획개시연령에서의 가입당생산량은 7.92 g으로 추정되었다. 따라서 현재의 순간어획사망계수를 그대로 유지한다면 어획개시연령을 2세에 맞추어야 하고, 현재의 어획개시연령을 유지한다면 순간어획사망계수를 0.2보다 낮은 수준으로 낮추어야 한다. $F_{0.1}$의 경우, 1세에서 2.58 g으로 가장 높은 가입당생산량을 나타내고 있다. 또한 가입당산란자원량 모델을 이용하여 생물학적 관리기준인 $F_{40%}$의 값을 현재의 어획상태를 고려하여 추정하였다. $F_{max}$, $F_{0.1}$, $F_{35%}$, 및 $F_{40%}$ 에서의 가입당생산량은 10.44 g, 1.87 g, 6.53 g and 7.46 g으로 추정되었다.

• 한국수산과학회지
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• 제46권5호
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• pp.598-606
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• 2013

The blackfin flounder Glyptocephalus stelleri is a commercially important species in the East Sea of Korea, but its catches and biomass have decreased gradually in recent years. This study estimated the optimal catch (acceptable biological catch, ABC) for the effective management of this species by estimating population ecology parameters and the stock biomass of blackfin flounder in the East Sea of Korea. The estimated instantaneous coefficient of total mortality (Z) of blackfin flounder was 1.0542/year, the survival rate (S) was 0.3485, and the instantaneous coefficient of natural mortality (M) was 0.3637/year. From the values of S and M, the instantaneous coefficient of fishing mortality (F) was calculated to be 0.6905/year. The age at first capture was 1.304 years, and the total length was 11.5 cm at that time. On the basis of these parameters, the annual biomass was estimated by a biomass-based cohort analysis using annual catch data in weight by year for 1991-2012 in the East Sea of Korea. The annual biomass peaked in 1997 at about 12,800 mt and then subsequently declined continuously to a level of 10,500 mt in 2004 and to 9,800 mt in 2011 and 2012. The maximum sustainable yield and $F_{0.1}$ were estimated as 3,547 mt and 0.3595/year, respectively. Using these estimations, the ABC was estimated to be 3,571 mt in tier 5, 3,397 mt in tier 4, and 2,622 mt in tier 3.

• 한국수산과학회지
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• 제51권3호
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• pp.313-320
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• 2018

Chub mackerel Scomber japonicus is an economically important pelagic species in the western North Pacific. In the last 50 years, the annual total catch in Korean waters showed large fluctuations, ranging from 100 to $420{\times}10^3tons$. To provide a biological reference point for management of chub mackerel, we applied a simulation-based yield-per-recruit (Y/R) model that considered both temperature-dependent growth and size-dependent mortality. We estimated the fisheries yield with respect to varying biological reference points and environmental conditions, including 1) the instantaneous rate of fishing mortality (F), 2) length of fish at first capture ($L_c$), and 3) water temperature. The result of our analysis showed that the Y/R could be greatest when the $L_c$ ranges from 19-27 cm and F ranges from $1.48-2.00yr^{-1}$. Y/R increases with increased water temperature between 15 and $23^{\circ}C$. We suggest targeting an $L_c$ of 17 cm (age=0.6 years) under the assumed current of $F=0.48yr^{-1}$ for maximizing the chub mackerel harvest. Further analysis considering spawning and recruitment processes are required to provide biological reference points to ensure the sustainability of chub mackerel fisheries in Korean waters.