Osteological Development of the Larvae and Juvenile of Chameleon Goby, Tridentiger trigonocephalus

두줄망둑(Tridentiger trigonocephalus) 자치어의 골격발달

  • Han, Kyeong-Ho (Marine Technology Undergraduate, Chonnam National University) ;
  • Lee, Sung-Hun (Marine Technology Undergraduate, Chonnam National University) ;
  • Kim, Doo-Young (Jeollanam-Do Institute of Ocean and Fisheries Technology) ;
  • Seo, Won-Il (Jeollanam-Do Institute of Ocean and Fisheries Technology) ;
  • Park, Jae-Min (Gyeongsangbuk-Do Native Fish Business Center)
  • 한경호 (전남대학교 해양기술학부) ;
  • 이성훈 (전남대학교 해양기술학부) ;
  • 김두용 (전라남도 해양수산기술원) ;
  • 서원일 (전라남도 해양수산기술원) ;
  • 박재민 (경상북도 토속어류산업화센터)
  • Received : 2018.09.10
  • Accepted : 2018.09.30
  • Published : 2018.09.30

Abstract

This study was carried out to observe the development of the autonomous skeletal development of the Tridentiger trigonocephalus. Seven days after hatching, the skeleton of the two line cranes began to ossify at premaxillary, maxilla and dentary when the average total length was 4.44 mm (n=5). At thirteen days after hatching, the frontal, parietal, and epiotic ossicles were observed in the cranium when the average total length was 5.62 mm (n=5). At thirty-two days after hatching, actinost and post cleithrum were ossified at the shoulder when the average total length was 11.8 mm (n=5). At forty days after hatching, the lateral ethmoid of the skull was ossified with an average total length of 13.3 mm (n=5) and all skeletal development was completed.

이 연구의 목적은 우리나라 연안에 서식하는 두줄망둑의 자치어 골격발달을 관찰하여 분류학적 연구자료로 이용하는 것이다. 부화 후 7일째 평균전장 $4.44{\pm}0.28mm$ (n=5) 일 때 섭이기능을 하는 윗턱에는 전상악골, 주상악골이 골화하였고, 아래턱에는 악골이 골화하기 시작하였다. 부화 후 13일째 평균전장 $5.62{\pm}0.24mm$ (n=5) 일 때 두개골의 액골, 노정골, 상이골이 골화하였다. 부화 후 32일째 평균전장 $11.8{\pm}0.28mm$ (n=5) 일 때는 견대부에 사출골, 후쇄골이 골화하였고, 부화 후 40일째 평균전장 $13.3{\pm}0.21mm$ (n=5) 일 때 두개골의 측사골이 골화하면서 모든 골격의 골화가 완료되었다.

Keywords

References

  1. Boltachev, A.R. and E.P. Karpova. 2010. Naturalization of the Pacifc Chameleon Goby Tridentiger trigonocephalus (Per­ciformes, Gobiidae) in the Black Sea (Crimea, Sevastopol Gulf). J. Ichthyol., 50: 188­-196. https://doi.org/10.1134/S0032945210020050
  2. Coban, D., C. Suzer, H.O. Kamaci, S. Saka and K. Firat. 2009. Early osteological development of the fins in the hatch­ery-­reared red porgy, Pagrus pagrus (L. 1758). J. Appl. Ichthyol., 25: 26-­32. https://doi.org/10.1111/j.1439-0426.2008.01165.x
  3. Faustino, M. and D.M. Power. 1999. Development of the pectoral, pelvic, dorsal and anal fns in cultured sea bream. J. Fish. Biol., 54: 1094-­1110. https://doi.org/10.1111/j.1095-8649.1999.tb00860.x
  4. Feng, G.P., P. Zhuang, L.Z. Zhang, J.Y. Liu, Y. Zhao, L.H. Chen and Q. Liang. 2009. Embryonic and pre-­larval development of Tridentiger trigonocephalus and adaptability to salinity. Acta Hydrobio. Sin., 33: 176­-181.
  5. Fishbase. (on 01 September 2018).
  6. Han, K.H., J.T. Park, S.H. Lee, D.S. Jin and J.M. Park. 2018. Oste­ological Development of the Larvae and Juveniles in Aucha Perch Coreoperca kawamebari (Perciformes: Centropomi­dae) in Korea. Kor. J. Fish. Aqua. Sci., 51: 170­-177.
  7. Hwang, I.J., S.J. Choi and H.J. Baek. 2018. Changes in Repro­ductive Characteristics of Chameleon Goby Tridentiger trigonocephalus by Carbon Dioxide Exposure. Kor. J. Fish. Aqua. Sci., 51: 54­-63.
  8. Johnson, G.D. 1984. Percoidei: development and relationship. In: Moser H.G., W.J. Richards, D.M. Cohen, M.P. Fahay, A.W. Kendall, S.L. Richardson (eds). Ontogeny and systematics of fshes. American Society of Ichthyologists and Herpetol­ogists, special publication no 1, Allen Lawrence KS, 464­-498.
  9. Chyung, M.K. 1977. The fshes of Korea. Ilji-sa Publishing, Seoul, 727pp. (in Korean)
  10. Kang, J.C., J.H. Jee, S.Y. Park, S.G. Kim and K.S. Park. 2004. Tol­erance of juvenile gobiidae, Tridentiger trigonocephalus exposed to various salinity. Kor. J. Environ. Biol., 22: 153­-158.
  11. Kim, I.S., Y. Choi, C.L. Lee, Y.J. Lee, B.J. Kim and J.H. Kim. 2005. Illustrated book of Korean fishes. Kyo-­Hak Publishing, Seoul, p. 420-443. (in Korean)
  12. Kim, J.Y. and J.M. Yoon. 2016. Food Organisms of Juveniles of Tridentiger trigonocephalus from the Intertidal Zone in the Western Coast of Korea. J. Kor. Soc. Fish. Mar. Sci. Edu., 28: 180-­185.
  13. Kim, Y.U. and K.H. Han. 1990. Early life history and spawning be­havior of the gobiid fsh, Tridentiger trigonocephalus (Gill) reared in the laboratory. Kor. J. Ichthyol., 3: 1-­10. (in Kore­an)
  14. Kim, Y.U. and K.H. Han. 1991. Early life history and spawning behavior of the gobiid fish, Mugilogobius abei (Jordan et Snyder) reared in the laboratory. Kor. J. Ichthyol., 2: 53­-62.
  15. Kimura, S.S. 2010. New atlas of fsh anatomy. pp. 168-170.
  16. Koumoundouros, G., F. Gagliardi, P. Divanach, C. Boglione, S. Cataudella and M. Kentouri. 1997a. Normal and abnormal osteological development of caudal fn in Sparus aurata L. fry. Aquaculture, 149: 215-­226. https://doi.org/10.1016/S0044-8486(96)01443-3
  17. Koumoundouros, G., G. Oran, P. Divanach, S. Stefanakis and M. Kentouri. 1997b. The opercular complex deformity in in­tensive gilthead sea bream (Spartus aurata L.) larviculture. Moment of apparition and description. Aquaculture, 156: 165-­177. https://doi.org/10.1016/S0044-8486(97)89294-0
  18. Kim, Y.U. and K.H. Han. 1989. 1. Egg development, larvae and juveniles of Chaenogobius laevis (Steindachner) ­- early life history of the marine animals. Bull Kor. Fish. Soc., 22: 317­-331.
  19. Kim, Y.U., K.H. Han, C.B. Kang and J.W. Ryu. 1992. Early life his­tory and spawning behavior of the gobiid fsh, Luciogobius guttatus Gill. Kor. J. Ichthyol., 4: 1­-13.
  20. Lee, C.Y. 1990. Osteological Study of the mudhopper, Periopthalmus cantonensis (Perciformes, Gobiidae) from Korea. Kor. J. Zool., 33: 402-­410.
  21. Liu, C.H. 2001. Early osteological development of the yellow tail Seriola dumerili (Pisces: Carangidae). Zool. Stud., 40: 289­-298.
  22. Mook, D. 1977. Larval and osteological development of the sheeps­head, Archosargus probatocephalus (Pisces: Sparidae). Copeia, 1: 126­-133.
  23. Myoung, J.G. and Y.U. Kim. 1993. Morphological study of Oncorhynchus spp. (Pisces : Salmonidae) in Korea - I Egg devel­opment and morphology of alevin, fry and smolt of chum salmon, Oncorhynchus keta. Kor. J. Ichthyol., 5: 53­-67.
  24. NIBR (National Institute of Biological Resources). 2017. National list of species of Korea. National institute of biological resources, online at . accessed on 01 Sep­tember 2018. (in Korean)
  25. Park, J.M., J.H. Han, S.M. Yun and K.H. Han. 2017. Early osteo­logical development of larvae and juveniles in the Korean spotted sleeper Odontobutis interrupta from Korea. Kor. J. Fish. Aqua. Sci., 50: 396-­405.
  26. Pondella, D.J. and Z.K.J. Chinn. 2005. Records of Chameleon Goby, Tridentiger trigonocephalus, in San Diego Bay, Cali­fornia. California Fish and Game, 91: 57-­59.
  27. Potthoff, T. and J.A. Tellock. 1993. Osteological development of the snook, Centropomus undecimalis (Teleostei, Centropo­midae). Bull Mar. Sci., 52: 669-­716.
  28. Potthoff, T., S. Kelly, V. Saksena, M. Moe and F. Young. 1987. De­scription of larval and juvenile damselfsh Microspathodon chrysurus, Pomacentridae, and their osteological develop­ment. Bull Mar. Sci., 40: 1­-40.
  29. Potthoff, T., S. Kelley and L.A. Collins. 1988. Osteological devel­opment of the red snapper, Lutjanu scampechanus (Lutjani­dae). Bull. Mar. Sci., 43: 1­-40.
  30. Sfakianakis, D.G., G. Koumoundouros, P. Divanach and M. Ken­touri. 2004. Osteological development of the vertebral column and of the fins in Pagellus erythrinus (L. 1758). Temperature effect on the developmental plasticity and morpho­-anatomical abnormalities. Aqua., 232: 407­-424. https://doi.org/10.1016/j.aquaculture.2003.08.014
  31. Walker, M.B. and C.B. Kimmel. 2007. A two-­color acid-­free car­tilage and bone stain for zebrafish larvae. Biotechnic and Histochemistry, 82: 23-­28. https://doi.org/10.1080/10520290701333558
  32. Wagemans, F. and P. Vandewalle. 1999. Development of the carti­laginous skull in Solea solea: trends on Pleuronectiforms. Ann. Sci. Nat., 1: 39-­52.