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Relationship between Water Temperature and Oxygen Consumption Rate of the Black Scraper Thamnaconus modestus
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  • Journal title : Ocean and Polar Research
  • Volume 36, Issue 1,  2014, pp.39-47
  • Publisher : Korea Institute of Ocean Science & Technology
  • DOI : 10.4217/OPR.2014.36.1.039
 Title & Authors
Relationship between Water Temperature and Oxygen Consumption Rate of the Black Scraper Thamnaconus modestus
Lee, Jung-Ah; Lee, Jae Seong; Kim, Ji-Hye; Myoung, Jung-Goo; Oh, Sung-Yong; Kang, Rae-Seon;
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The black scraper Thamnaconus modestus was a commercially important fish species in the 1980s, but suddenly its commercial significance decreased in the 1990s mainly due to continuous overfishing. Recently, in order to reverse the depleted stocks of the black scraper and help the species recover, seed production technology has emerged. This has led to the farming of the black scraper in several parts of the southern coast of Korea. Since detailed research on its metabolism in relation to water temperature has been scanty, this was the investigative focus of the present study. The standard metabolism rates of the black scraper (9-10 months old, total length=, wet weight=) were measured at seven different water temperature settings (12, 15, 17, 20, 23, 26, ) to understand the relationship between metabolism and water temperature. Relationships between water temperature (WT) and oxygen consumption rate (OCR) were obtained as SOCR (weight-specific oxygen consumption rate) = 0.0117WT - 0.0135 () and IOCR (oxygen consumption rate per individual) = 1.8160WT - 5.4007 ( = 9428). The (temperature sensitivity), an indicator of the sensitivity of biological function to temperature, was analyzed. In our experiment, when the water temperature increased, the value decreased. The value was 6.27 in waters where the temperature ranged from and this was much higher than the values obtained in waters where temperatures ranged between (1) and (2) . Consequently, it was shown that the black scraper is a warm water species and inhabiting waters in the temperature range from is deemed appropriate.
black scraper;Thamnaconus modestus;oxygen consumption rate;water temperature; value;
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강만식, 남상렬, 이양림, 박영철, 안태인 (1997) 동물생리학 (개정판). 교학연구사, 서울, 580 p(Kang MS, Nam SR, Lee YL, Park YC, Ahn TI (1997) Animal Physiology. 2nd ed. Kyohakyongusa Press, Seoul, 580 p (in Korean))

곽우석, 이소광 (2009) 말쥐치 Thamnaconus modestus 자치어의 성장에 따른 소화기관 및 소화효소 발달. Korean J Ichthyol 21(3):149-157(Gwak W-S, Lee S-G (2009) Developmental Changes in Digestive Organ and Digestive Enzyme Activity of Filefish Thamnaconus modestus. Korean J Ichthyol 21(3):149-157 (in Korean))

김용억, 명정구, 김영섭, 한경호, 강충배, 김진구, 유정화 (2006) 한국해산 어류도감 (제2판). 도서출판 한글, 부산, 397 p (Kim YU, Myoung J-G, Kim YS, Han K-H, Kang C-B, Kim JK, Ryu JH (2006) Marine Fishes of Korea. 2nd ed. Doseochulpan Hangeul Press, Busan, 397 p (in Korean))

김익수, 최윤, 이충렬, 이용주, 김병직, 김지현 (2005) 원색 한국어류대도감. 교학사, 서울, 616 p (Kim I-S, Choi Y, Lee C-L, Lee Y-J, Kim B-J, Kim J-H (2005) Illustrated Book of Korean Fishes. Kyo-Hak Press, Seoul, 616 p (in Korean))

해양수산부 (2001) 쥐치종묘 대량생산 기술개발. 해양수산부, 62 p (MOMAF (2001) Development on Mass Culture of File-Fish Seed. Ministry of Maritime Affairs and Fisheries, 62 p (in Korean))

박병하 (1985) 한국 근해 말쥐치의 자원생물학적 연구. 수진연구보고 34:1-64 (Park B-H (1985) Studies on the fishery biology of filefish, navodon modestus (Gunther) in the Korean waters. Bull Nat Fish Res Dev Agency 34:1-64 (in Korean))

방인철, 이일로, 권성민, 박상용 (2005) 말쥐치, Thamnaconus modestus의 양식 가능성 평가. In: 한국양식학회 2005년도 춘계학술발표대회 논문요약집, 국립수산과학원, 부산, 2005년 5월 20일, pp 193 (Bang IC, Lee IR, Kwon SM, Park SY (2005) Review on the possibility of aquaculture of Filefish, Thamnaconus modestus. In: Abstracts of the 2005 Spring Meeting of the Korean Aquaculture Society, National Fisheries Research & Development Institute, Busan, 20 May 2005, pp 193 (in Korean))

백철인, 박종화 (1989) 말쥐치의 어황변동과 해양특성. 수진연구보고 43:91-104(Baik CI, Park JH (1989) Fluctuation of Fishing Conditions of Filefish Navodon modestus (GUNTHER) in relation to Oceanographic Characteristics in Korean waters. Bull Nat Fish Res Dev Agency 43:91-104 (in Korean))

새전북신문 (2001) [군산] 말쥐치 인공종묘 생산 성공. Accessed 19 Sep 2012 (Sjb (2001) The success of artificial seed production of filefish in Gunsan. html?idxno=27554 Accessed 19 Sep 2012 (in Korean))

신윤경, 이정아, 진평 (2000) 곤쟁이 (Neomysis awatschensis) 의 산소소비와 질소배설에 미치는 염분 및 용존산소의 영향. 한수지 33(2):110-114 (Shin YK, Lee JA, Chin P (2000) The Effect of Dissolved Oxygen and Salinity on Oxygen Consumption and Ammonia Excretion in the Mysid, Neomysis awatschensis. J Korean Fish Soc 33(2):110-114 (in Korean))

염말구 (1986) 여름철 거문도 남해해역에서 어획된 말쥐치의 체장과 체중조성. 어업기술 22(4):71-74 (Youm MG (1986) On the Total Length and Body Weight of the File Fish, Navodos modestus, Caught in the southern Sea Area of Komundo Is. during Summer. Bull Korean Fish Soc 22(4):71-74 (in Korean))

오승용, 노충환, 명정구, 조재윤 (2007) 조피볼락, Sebastes schlegeli의 산소 소비율에 미치는 수온과 체중의 영향. Korean J Ichthyol 19(1):1-7 (Oh S-Y, Noh CH, Myoung J-G, Jo J-Y (2007) Effects of Water Temperature and Body Weight on Oxygen Consumption Rate of Black Rockfish, Sebastes schlegeli. Korean J Ichthyol 19(1):1-7 (in Korean))

오승용, 장요순, 노충환, 최희정, 명정구, 김종관 (2009) 강도 다리 Platichthys stellatus의 산소 소비율에 미치는 수온과 체중의 영향. Korean J Ichthyol 21(1):7-14 (Oh S-Y, Jang Y-S, Noh CH, Choi HJ, Myoung J-G, Kim CK (2009) Effect of water temperature and body weight on oxygen consumption rate of starry flounder Platichthys stellatus. Korean J Ichthyol 21(1):7-14 (in Korean))

오승용, 장요순, 박흥식, 최영웅, 김종관 (2012) 넙치 Paralichthys olivaceus 대사율에 미치는 수온과 체중의 영향. Ocean and Polar Res 34(1):93-99 (Oh S-Y, Jang Y-S, Park H-S, Choi Y-U, Kim C-K (2012) The influence of water temperature and body weight on metabolic rate of olive flounder Paralichthys olivaceus. Ocean and Polar Res 34(1):93-99 (in Korean)) crossref(new window)

이승종, 고유봉, 이영돈, 정지현, 한창희 (2000a) 제주 남부 연안 말쥐치, Thamnaconus modestus의 생식년주기. Korean J Ichthyol 12(1):71-84 (Lee SJ, Go YB, Lee YD, Jung JH, Han CH (2000a) Annual Reproductive cycle of the File Fish, Thamnaconus modestus, on the Southern Coast of Cheju Island. Korean J Ichthyol 12(1):71-84 (in Korean))

이승종, 고유봉, 최영찬 (2000b) 말쥐치, Thamnaconus modestus 의 난발생과정과 부화자어의 형태발달. Korean J Ichthyol 12(3):208-214 (Lee SJ, Go YB, Choi YC (2000b) Egg Development and Morphological changes of Larvae of the File Fish, Thamnaconus modestus. Korean J Ichthyol 12(3):208-214 (in Korean))

이승주, 구학동, 이병철, 이종문 (2000c) 말쥐치 종묘생산기 술개발시험. 국립수산과학원, 1999년도 동해수산연구소사업보고서, pp 292-294 (Lee S-J, Ku HD, Lee B-C, Lee J-M (2000c) Technical development on seed production of filefish. National Fisheries Research and Development Agency, 1999 Technical Report of East Sea Regional Fisheries Research Agency, pp 292-294 (in Korean))

정석근, 하승목, 나한나 (2013) 기후변화에 따른 제주도 주변 해역 수산 어종 변화(1981-2010). 한수지 46(2):186-194(Jung S, Ha S, Na H (2013) Multi-decadal Changes in Fish Communities Jeju Island in Relation to Climate Change. Kor J Fish Aquat Sci 46(2):186-194 (in Korean)) crossref(new window)

최수하, 박차수 (1982) 한국 남해산 말쥐치의 성숙과 산란. 수진연구보고 30:73-80(Choi S-H, Park C-S (1982) Maturity and Spawning of File Fish, Navodon modestus (Gunther), in the southern Waters of Korea. Bull Nat Fish Res Dev Agency 30:73-80 (in Korean))

홍성걸, 신영태, 류정곤, 김선표, 김성귀, 정명생, 강종호, 마임영 (2000) 수산정책 집행의 실효성에 관한 연구. 한국해양수산개발원, 기본연구 2000-09, pp 58-62(Hong SG, Shin Y-T, Ryu JG, Kim SP, Kim S-G, Joung MS, Kang J-H, Ma YY (2000) The Study on Effectiveness of Fisheries Policy Enforcement. Korea Maritime Institute, Basic research 2000-09, pp 58-62 (in Korean))

An HS, Lee JW, Dong CM, Noh JK, Myeong J-I (2011) Development and characterization of microsatellite markers for genetic analysis of the Korean black scraper, Thamnaconus modestus. Genes Genom 33:499-504 crossref(new window)

Bartell SM, Breck JE, Gardner RH, Brenket AL (1986) Individual parameter perturbation and error analysis of fish bioenergetics models. Can J Fish Aquat Sci 43:160-168. crossref(new window)

Brett JR, Groves TDD (1979) Physiological energetics. In: Hoar WH, Randall DJ, Brett JR (eds) Bioenergetics and growth. Fish Physiology, vol. 8. Academic Press, New York, pp 279-352

Bridges CR (1988) Respiratory adaptations in intertidal fish. Am Zool 28:79-96

Brown JAG, Jones A, Matty AJ (1984) Oxygen metabolism of farmed turbot (Scophthalmus maximus): I. the influence of fish size and water temperature on metabolic rate. Aquaculture 36:273-281 crossref(new window)

Fry FEJ (1971) The effect of environmental factors on the physiology of fish. In: WS Hoar, DJ Randall (eds) Fish physiology. Academic Press, New York, pp 1-98

Japan Fisheries Resource Conservation Association (1983) Ecological Resources of Aquatic Life (second volume). pp 50-53 (In Japanese)

Jobling M (1981) The influences of feeding on the metabolic rate of fishes: a short review. J Fish Biol 18:385-400 crossref(new window)

Jung S, Cha HK (2014) Fishing vs. Climate Change: an example of filefish (Thamnaconus modestus) in the northern East China Sea. J Mar Sci Technol (in press)

Kim H-R (2012) Distribution and feeding ecology of the file fish, Thamnaconus modestus in the southern sea of Korea. M.S. Thesis, Pukyong National University, 72 p

Kim S, Zhang C-I, Kim J-Y, Oh J-H, Kang S, Lee JB (2007) Climate variability and its effects on major fisheries in Korea. Ocean Sci J 42(3):179-192 crossref(new window)

Kim WS, Jeon JK, Lee SH, Huh HT (1996) Effects of pentachlorophenol (PCP) on the oxygen consumption rate of the river puffer fish Takifugu obscurus. Mar Ecol Prog Ser 143:9-14 crossref(new window)

Kim WS, Yoon S-J, Gil J-W (2003) Critical thermal maximum (CTM) of cultured black rockfish, Sebastes schlegeli. J Fish Sci Tech 6(2):59-65

Kim WS, Yoon S-J, Kim JM, Gil JW, Lee TW (2005) Effects of temperature changes on the endogenous rhythm of oxygen consumption in the Japanese flounder Paralichthys olivaceus. Fish Sci 71:471-478 crossref(new window)

Kim WS, Yoon SJ, Kim JW, Lee JA, Lee TW (2006) Metabolic response under different salinity and temperature conditions for glass eel Anguilla japonica. Mar Biol 149:1209-1215 crossref(new window)

Lee JA, Kim JW, Kim WS (2007) Effect of tremata closures on the oxygen consumption rhythm of ezo abalone Haliotis discus hannai. Aquaculture 270: 312-320 crossref(new window)

Lee J-A, Kim J-W, Oh S-Y, Yi S-K, Noh I, Ishimatsu A, Kim W-S (2012) Effect of low dissolved oxygen on the oxygen consumption rate and rhythm of the mudskipper Scartelaos gigas (Pisces, Gobiidae). Fish Sci 78:1013-1022

Lee TW, Kim WS (2001) Thermal effects on respiratory activities of glass eels at different developmental stages. J Taiwan Fish Res 9:129-136

Mizuno K, Shimizu-Yamaguchi S, Miura C, Miura T (2012) Method for efficiently obtaining fertilized eggs from the black scraper Thamnaconus modestus by natural spawning in captivity. Fish Sci 78:1059-1064

Uchida G (1927) On fingerlings of Monacanthidae several species and their habit. Doujachu 39(462):161-178 (In Japanese)

Wuenschel MJ, Wemer RG, Hoss DE (2004) Effect of body size, temperature, and salinity on the routine metabolism of larval and juvenile spotted seatrout. J Fish Biol 64:1088-1102 crossref(new window)

Yamamoto K, Hosomoto M, Kamimura T (1987) Changes of Oxygen Consumption in the Red Sea Bream, Banded Grouper, File Fish, Multicolorfin Rainbowfish and Frogfish under Progressive Hypoxia. Suisanzoshoku 35(3):143-146 (in Japanese)

Yamamoto K, Shima T, Yamashita H, Wataishi K (1990) Relationship between Oxygen Consumption and Body Weight in 36 Marine Teleost Fish under Resting and Normoxic Condition. Suisanzoshoku 38(1):41-45 (in Japanese)

Yoon S-J, Kim C-K, Myoung J-G, Kim W-S (2003) Comparison of oxygen consumption patterns between wild and cultured black rockfish Sebastes schlegeli. Fish Sci 69:43-49 crossref(new window)