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A Stock Assessment of Yellow Croaker using Bioeconomic Model: a Case of Single Species and Multiple Fisheries
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  • Journal title : Ocean and Polar Research
  • Volume 37, Issue 2,  2015, pp.161-177
  • Publisher : Korea Institute of Ocean Science & Technology
  • DOI : 10.4217/OPR.2015.37.2.161
 Title & Authors
A Stock Assessment of Yellow Croaker using Bioeconomic Model: a Case of Single Species and Multiple Fisheries
Sim, Seonghyun; Nam, Jongoh;
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 Abstract
This study analyzes the stock assessment of yellow croaker caught mainly by the Korean stow net and gill net fisheries focusing on single species and multiple fisheries. This study standardizes fishing efforts for the two fisheries using the general linear model and uses a surplus production model based on the exponential growth model. The Clarke Yoshimoto Pooley model estimates a maximum sustainable yield(MSY), an allowable biological catch(ABC), fishing efforts for MSY() and for ABC(). The bio-economic model is used to estimate the maximum economic yield(MEY) and fishing efforts for MEY(). Also, the study employs an economic analysis to estimate the economic interaction between stow net and gill net fisheries. The economic analysis shows the profit accruing to the two fisheries from estimated ABC. Finally, the study compares TACs based on single species and single fishery to TAC based on single species and multiple fisheries. The study proposes that the TAC assessment is necessary for single species and multiple fisheries in order to preserve resources.
 Keywords
yellow croaker;single species and multiple fisheries;general linear model;CY&P model;MSY;MEY;ABC;TAC;
 Language
Korean
 Cited by
1.
해밀토니안기법을 이용한 복수어업의 참조기 최적어획량 추정,남종오;심성현;권오민;

한국수산경영학회지:수산경영론집, 2015. vol.46. 2, pp.59-74 crossref(new window)
1.
Estimating Optimal Harvesting Production of Yellow Croaker Caught by Multiple Fisheries Using Hamiltonian Method, The Journal of Fisheries Business Administration, 2015, 46, 2, 59  crossref(new windwow)
 References
1.
구명성, 김석종 (2014) 생력형 5단 유자망 양망기의 효율에 관한 연구. 수산해양교육연구 26(1):98-107(Koo MS, Kim SJ (2014) A study of the efficiency of the labor-saving-type, five-step-drum net hauler. Stud Edu Fish Mar Sci 26(1):98-107 (in Korean))

2.
국립생물자원관 (2014) 한반도 생물자원 포털: 참조기. http://www.nibr.go.kr Accessed 10 Oct 2014(National Institute of Biological Resources (2014) Yellow croker in species Korea, http://www.nibr.go.kr Accessed 10 Oct 2014 (in Korean))

3.
김성훈, 박성욱, 이경훈, 양용수 (2012) 참조기 (Larimichthys polyactis) 유자망에 있어서 SELECT모형에 의한 적정망 목선택성 곡선 추정. 한국어업기술학회지 48(1):10-19(Kim SH, Park SW, Lee KH, Yang YS (2012) The estimation of the optimum mesh size selectivity of a drift net for yellow croaker (Larimichthys polyactis) using by the SELECT model. Bull Korean Soc Fish Tech 48(1):10-19 (in Korean))

4.
한국콘텐츠진흥원 (2014) 문화원형 라이브러리: 참조기. http://www.culturecontent.com/main.do Accessed 10 Oct 2014(Korea Creative Contents Agency (2014) Yellow croaker in cultural original form library. http://www.culturecontent. com/main.do Accessed 10 Oct 2014 (in Korean))

5.
서영일, 장창익 (2001) 한국 근해 복수어구 및 다종어업 자원 평가모형 연구 II: 복수어구에 의한 단일 어종 자원의 이용. 한국수산과학회지 34(4):359-364(Seo YI, Zhang CI (2001) A study on the multi-gear and multi-species fisheries assessment models in Korean waters: 2. single-species by multiple fisheries. Korean J Fish Aquat Sci 34(4):359-364 (in Korean))

6.
해양수산부 (2014) 수산정보포털: 어업통계. http://www.fips.go.kr Accessed 10 Oct 2014(Ministry of Oceans and Fisheries (2014) Fisheries statistics in fisheries information service. http://www.fips.go.kr Accessed 10 Oct 2014 (in Korean))

7.
수산경제연구원 (2014) 수산업경영조사. http://fei.suhyup.co.kr Accessed 10 Oct 2014(Annual Fisheries Business Statistics in National Federation of Fisheries Cooperatives (2014) http://fei.suhyup.co.kr Accessed 10 Oct 2014 (in Korean))

8.
이장욱 (1991) 한국 동해 명태 어업의 적정어획노력량 추정: 동해구기선저인망어업과 동해구트롤어업의 경제성분석을 근거로. 수산경영론집 22(2):75-99(Lee JU (1991) Estimation on optimum fishing effort of walleye pollock fishery in the east coast of Korea: based on the economic analysis between danish seine fishery and trawl fishaery for walleye pollock. J Fish Bus Admin 22(2):75-99 (in Korean))

9.
이정삼, 류정곤, Gates JM, 남종오, 김대영 (2006) 다수어 종.다수어업의 TAC 평가에 관한 연구 II. 한국해양수산개발원, 183 p(Lee JS, Ryu JG, Gates JM, Nam JO, Kim DY (2006) A study on assessment of TAC for multi-species and multigears II: single species & multi-gear/multi-species & multi-gear TAC assessment. Korea Maritime Institute, 183 p (in Korean))

10.
조정희, 이정삼, 남종오 (2009) 생물경제모형을 이용한 수산물 최적생산량 추정 및 활용에 관한 연구. 한국해양수산 개발원, 153 p (Cho JH, Lee JS, Nam JO (2009) A study on estimating the fishery optimal production by using a bio-economic model. Korea Maritime, 153 p (in Korean))

11.
통계청 (2014a) 등록어선통계. http://kosis.kr Accessed 10 Oct 2014(Fishing Fleet Statistics in Korean Statistical Information Service (2014) http://kosis.kr Accessed 10 Oct 2014 (in Korean))

12.
통계청 (2014b) 생산자.소비자 물가지수. http://kosis.kr Accessed 10 Oct 2014(Producer Price Index and Consumer Price Index in Korean Statistical Information Service (2014) http://kosis.kr Accessed 10 Oct 2014 (in Korean))

13.
Clark RP, Yoshimoto SS, Pooley SG (1992) A bioeconomic analysis of the North-western Hawaiian Islands lobster fishery. Mar Resour Econ 7(3):115-140

14.
Fox WW Jr (1970) An exponential surplus yield model for optimizing exploited fish populations. T Am Fish Soc 99(1):80-88 crossref(new window)

15.
Gavaris S (1980) Use of a multiplicative model to estimate catch rate and effort from commercial data. Can J Fish Aquat Sci 37(12):2272-2275 crossref(new window)

16.
Jin D, Kite-Powell H, Hoagland P, Solow A (2012) A bioeconomic analysis of traditional fisheries in the Red Sea. Mar Resour Econ 27(2):37-148

17.
Mohamed S (2007) A bioeconomic analysis of maldivian skipjack tuna fishery. M.S. Thesis, University of Tromso, 39 p

18.
Nieminen E, Lindroos M, Heikinheimo O (2012) Optimal bioeconomic multispecies fisheries management : a Baltic Sea case study. Mar Resour Econ 27(2):115-136 crossref(new window)

19.
Quinn TJ, Deriso RB (1999) Quantitative fish dynamics. University of Oxford, 560 p

20.
Schaefer MB (1954) Some aspects of the dynamics of populations important to the management of the cooercial marine fisheries. Int-Am Trop Tuna Comm Bull 1(2):23-56

21.
Schaefer MB (1957) A study of the dynamics of the fishery for yellow fin tuna in the Eastern Tropical Pacific Ocean. Int-Am Trop Tuna Comm Bull 2(6):243-285

22.
Schnute J (1977) Improved estimates from the Schaefer production model: theoretical considerations. J Fish Res Board Can 34(5):583-603 crossref(new window)

23.
Walters CJ, Hilborn R (1976) Adaptive control of fishing systems. J Fish Board Can 33(1):145-159 crossref(new window)