Browse > Article
http://dx.doi.org/10.11626/KJEB.2022.40.3.247

Behavioral responses and tolerance limits of wild goldeye rockfish Sebastes thompsoni to high temperature exposure  

Sung-Jin Yoon (Ulleungdo-Docdo Ocean Science Station, Korea Institute of Ocean Science & Technology)
Jin-Hyeok Park (Ulleungdo-Docdo Ocean Science Station, Korea Institute of Ocean Science & Technology)
Publication Information
Korean Journal of Environmental Biology / v.40, no.3, 2022 , pp. 247-254 More about this Journal
Abstract
To investigate the tolerance limit and critical thermal maximum (CTM), behavioral responses of wild goldeye rockfish Sebastes thompsoni according to exposure to high water temperature were observed using a continuous behavior tracking system. As a result, behavioral index (BI) of S. thompsoni in each temperature (20.0, 25.0, and 30.0℃) showed a significant difference (p<0.05) when compared with the value measured in a stable condition of 15.0℃. The activity level of S. thompsoni exposed to 25.0℃ decreased sharply after 20 hours. Their rest time at the bottom of experiment chamber increased, and their normal swimming and metabolic activities were disturbed. In addition, at a high water temperature of 30.0℃, S. thompsoni reached the limit of resistance and showed a sub-lethal reaction of swimming behavior, with energy consumption in the body increased and all test organisms died. In conclusion, the eco-physiological response of S. thompsoni to water temperature varied greatly depending on the fluctuation range of the exposed temperature and the exposure time. In addition, the tolerance limit of S. thompsoni to high water temperature was predicted to be 25.0-30.0℃. The maximum critical thermal that had a great influence on the survival of this species was found to be around 30.0℃.
Keywords
Sebastes thompsoni; high temperature exposure; tolerance limit; critical thermal maximum; CTM;
Citations & Related Records
Times Cited By KSCI : 9  (Citation Analysis)
연도 인용수 순위
1 Waring CP, RM Stagg and MG Poxton. 1996. Physiological responses to handling in the turbot. J. Fish. Biol. 48:161-173. https://doi.org/10.1111/j.1095-8649.1996.tb01110.x   DOI
2 Wiles SC, MG Bertram, JM Martin, H Tan, TK Lehtonen and BB Wong. 2020. Long-term pharmaceutical contamination and temperature stress disrupt fish behavior. Environ. Sci. Technol. 54:8072-8082. https://doi.org/10.1021/acs.est.0c01625   DOI
3 Yang JH, JB Lee, HW Lee, HK Cha, SR Kim and YW Heo. 2017. Maturity and spawning of Sebastes thompsoni in the coastal waters off Ulleungdo, Korea. Korean J. Fish Aquat. Sci. 49:404-409. https://doi.org/10.3796/KSFT.2017.53.1.060   DOI
4 Yang SJ, JY Lee, YK Shin, HK Hwang and Myeong JI. 2016. Effects of temperature and salinity on survival, metabolism and histological change of the rockfish, Sebastes schlegeli. J. Fish. Mar. Sci. Edu. 28:1068-1075. https://doi.org/10.13000/JFMSE.2016.28.4.1068   DOI
5 Yoon SJ. 2021a. Critical low temperature and response of behavioral tolerance in red seabream Pagrus major fingerlings exposed to cold shock. JKAIS 22:575-584. https://doi.org/10.5762/KAIS.2021.22.1.575   DOI
6 Yoon SJ. 2021b. Short-term behavioral responses and tolerance limits of red seabream Pagrus major fingerlings following sudden low salinity exposure. Korean J. Environ. Biol. 39:495-506. https://doi.org/10.11626/KJEB.2021.39.4.495   DOI
7 Yoon SJ, CK Kim, JG Myoung and WS Kim. 2003. Comparison of oxygen consumption patterns between wild and cultured black rockfish Sebastes schlegeli. Fish. Sci. 69:43-49. https://doi.org/10.1046/j.1444-2906.2003.00586.x   DOI
8 Baeck GW, SC Park, JH Kim, KI Nam, SH Huh and JM Park. 2010. Reproductive ecology of a goldeye rockfish, Sebastes thompsoni (Scorpaeniformes: Scorpaenidae) in the coastal waters of Busan, Korea. Korean J. Ichthyol. 22:34-40.
9 Choi HS, JI Myoung, MA Park and MY Cho. 2009. A study on the summer mortality of Korean rockfish Sebastes schlegeli in Korea. J. Fish Pathol. 22:155-162.
10 Do YH, BH Min, YD Kim and MS Park. 2016. Changes on hematological factors and oxygen consumption of Korean rockfish Sebastes schlgeli in high water temperature. J. Fish. Mar. Sci. Edu. 28:738-745. https://doi.org/10.13000.JFMSE.2019.3.738   DOI
11 Heo G, MS Kim and HO Shin. 2016. Behavior analysis of rockfish (Sebastes inermis) depending on the temperature and LED lights. J. Korean Soc. Fish. Technol. 52:191-196. https://doi.org/10.3796/KSFT.2016.52.3.191   DOI
12 Horning WBI and RE Pearson. 1973. Growth temperature requirement and lower lethal temperature for juvenile smallmouth bass (Micropterus dolomieui). J. Fish. Res. Bd. Can. 30:1226-1230. https://doi.org/10.1139/f73-194   DOI
13 Huh SH, KM Nam, HG Choo and GW Baeck. 2008. Feeding habits of Sebastes thompsoni in the coastal waters off Busan, Korea. J. Korean Fish Soc. 41:32-38. https://doi.org/10.5657/KFAS.2017.0818   DOI
14 Ibarz A, F Padros, MA Gallardo, F Fernadez-Borras and L Tort. 2010. Low-temperature challenges to gilthead sea bream culture: review of cold-induced alterations and "Winter Syndrome". Rev. Fish Biol. Fish. 20:539-556. https://doi.org/10.1007/s11160-010-9159-5   DOI
15 Kim WS, SJ Yoon and JW Gil. 2003. Critical thermal maximum (CTM) of cultured black rockfish, Sebastes schlegeli. J. Fish. Sci. Tech. 6:59-65. https://doi.org/10.5657/fas.2003.6.2.059   DOI
16 Kim HJ, KS Hwang, JH Park, JH Lee, GW Baeck and JM Jeong. 2017. Diet of juvenile gold-eye rockfish Sebastes thompsoni in the Yellow Sea bottom cold water. Korean J. Fish Aquat. Sci. 50:818-823. https://doi.org/10.5657/KFAS.2017.0818   DOI
17 Kim HY. 2021a. Changes in metabolic rate and hematological parameters of black rockfish (Sebastes schlegeli) in relation to temperature and hypoxia. J. Fish. Pathol. 34:213-224. https://doi.org/10.7847/jfp.2021.34.2.213   DOI
18 Kim KH, SW Hong, HN Moon and IK Yeo. 2018. Physiological responses of the chicken grunt Parapristipoma trilineatum to high water temperature stress. Korean J. Fish. Aquat. Sci. 51:714-719. https://doi.org/10.5657/KFAS.2018.0714   DOI
19 Kim WS, SJ Yoon, JW Kim, JA Lee and TW Lee. 2006. Metabolic response under different salinity and temperature conditions for glass eel Anguilla japonica. Mar. Biol. 149:1209-1215. https://doi.org/10.1007/s00227-006-0293-5   DOI
20 Kim YJ. 2021b. Analysis of behavior changes of angelfish (Pterophyllum scalare) exposed to stress conditions using video tracking. Pukyoung National University. Busan, Korea. p. 51.
21 Kokita T and M Omori. 1998. Early life history traits of the goldeye rockfish, Sebastes thompsoni, in relation to successful utilization of drifting seaweed. Mar. Biol. 132:579-589.   DOI
22 Kokita T and M Omori. 1999. Long distance dispersal of larval and juvenile rockfish, Sebastes thompsoni, with drifting seaweed in the Tohoku area, northwest Pacific, estimated by analysis of otolith microstructure. Bull. Mar. Sci. 65:105-118.
23 Mizanur RM, H Yun, M Moniruzzaman, F Ferreira, KW Kim and SC Bai. 2014. Effects of feeding rate and water temperature on growth and body composition of juvenile Korean rockfish, Sebastes schlegeli (Hilgendorf 1880). Asian Australas. J. Anim. Sci. 27:690-699. https://doi.org/10.5713/ajas.2013.13508   DOI
24 Lee JH, BJ Lee, KW Kim, HS Han, GH Park, JH Lee, HH Yun and SC Bai. 2013. Optimal feeding frequency for juvenile Korean rockfish Sebastes schlegeli fed commercial diet at two different water temperatures. Kor. J. Fish. Aquat. Sci. 46:761-768. https://doi.org/10.5657/KFAS.2013.0761   DOI
25 Lee JS, CM An and SH Huh. 1998. Reproductive cycle of the goldeye rockfish, Sebastes thompsoni (Teleostei: Scorpaenidae). Korean J. Fish. Aquat. Sci. 31:8-16.
26 Lutterschmidt WI and VH Hutchison. 1997. The critical thermal maximum data to support the onset of spasms as the definitive end point. Can. J. Zool. 75:1553-1560. https//doi.org/10.1139/z97-782   DOI
27 Nagasawa T and T Kobayashi. 1995. The early life history of the rockfish, Sebastes thompsoni (Scorpaenidae), in the Sea of Japan. Jap. J. Ichthyol. 41:385-396.
28 Oh SY and CH Noh. 2006. Effects of water temperature and photoperiod on the oxygen consumption rate of juvenile darkbanded rockfish, Sebastes inermis. J. Aquaculture 19:210-215.
29 Sala-Rabanal M, J Sanchez, A Ibarz, J Fernandez, J Blasco and MA Gallardo. 2003. Effect of low temperatures and fasting on hematologic and plasma biochemical profiles of gilthead sea bream (Sparus aurata). Fish Physiol. Biochem. 29:105-115. https://doi.org/10.1023/B:FISH.0000035904.16686.b6   DOI
30 Shin HS, KW An, NN Kim and CY Choi. 2010. Antioxidant defenses and physiological changes in olive flounder (Paralichthys olivaceus) in responses to oxidative stress induced by elevated water temperature. Korean J. Ichthyol. 22:1-8.