DOI QR코드

DOI QR Code

Morphometric Characteristic between Diploid and Spontaneous Triploid Carp in Korea

  • Lim, Sang Gu (Future Aquaculture Research Center, National Institute of Fisheries Science (NIFS)) ;
  • Han, Hyeng Keun (Tidal Flat Research Center, NIFS) ;
  • Goo, In Bon (Inland Aquaculture Research Center, NIFS) ;
  • Gil, Hyun Woo (Division of Marine Bioscience, College of Ocean Science and Technology, Korea Maritime and Ocean University) ;
  • Lee, Tae Ho (Department of Marine Bio-materials and Aquaculture, College of Fisheries Science, Pukyong National University) ;
  • Park, In-Seok (Division of Marine Bioscience, College of Ocean Science and Technology, Korea Maritime and Ocean University)
  • Received : 2017.02.15
  • Accepted : 2017.02.19
  • Published : 2017.03.31

Abstract

We used flowcytometry to ploidy verification after that investigate difference between diploid and spontaneous triploid through the truss dimension and classical dimension at crucian carp, Carassius auratus, crucian carp C. cuvieri and common carp, Cyprinus carpio collected from Hangang river, Hantangang river, Imjingang river, Geumgang river, Yeongsangang river and Nakdonggang river, Korea. There were significant differences among the three species for the truss dimensions anterior origin of dorsal fin $(2){\times}$ anterior origin of anal fin (5), $2{\times}$ anterior origin of pelvic fin (6), $2{\times}$ origin of pectoral fin (7), posterior origin of dorsal fin $(3){\times}5$, $3{\times}6$, and $3{\times}7$ (P<0.05). There were no significant differences among the three species in the truss dimensions dorsal fin length ($2{\times}9$) and eye diameter (ED)(P>0.05). On the other hand, there were no significant differences in the several classical dimensions of each species (P>0.05). Three classical dimensions, most anterior extension of the head $(1){\times}2$, $1{\times}6$ and $2{\times}$ most posterior scale in lateral line (4) did not differ between the C. auratus diploid and spontaneous triploid (P>0.05). Two classical dimensions, $1{\times}6$ and longest length between most anterior extension of the head and gill cover ($1{\times}8$) did not differ between the C. cuvieri diploid and spontaneous triploid (P>0.05). One classical dimensions, $1{\times}2$ did not differ between the common carp diploid and spontaneous triploid (P>0.05). There were significant differences in the each diploid and triploid species (P<0.05). These results suggest that the classification of each species and classification between diploid and spontaneous triploid morphometrical parameters used in this study are useful indices of morphometrical status in the each species from major river of Korea.

Keywords

References

  1. Benfey TJ (1999) The physiology and behavior of triploid fishes. Fish Sci 7:39-67. https://doi.org/10.1080/10641269991319162
  2. Chun SK, Park SW, Jung YS (1983) Drug-resistant bacteria isolated from Nakdonggang river and Carp-ponds. Bull. Korean Fish Soc 16:17-24.
  3. Currens KP, Sharpe CS, Hjort R, Schreck CB, Li HW (1989) Effect of different feeding regimes on the morphometrics of chinook salmon (Oncorhynchus tshawtscha) and rainbow trout (O. mykiss). Copeia 3:689-695.
  4. Goo IB, Im JH, Gil HW, Lim SG, Park I-S (2015) Comparison of cell and nuclear size difference between diploid and induced triploid in marine medaka, Oryzias dancena. Dev Reprod 3:127-134.
  5. Kim I-S (1997) Illustrated Encyclopedia of Fauna & Flora of Korea, Vol. 37, Freshwater fishes. Ministry of Education, Korea, pp. 156-509.
  6. Lee CL, Kim IS (1990) A taxonomic revision of the family bagridae (Pisces, Siluriformes) from Korea. Korean J Ichthyol 2:117-137.
  7. Lim SG, Han HK, Kang JH, Gil HW, Goo IB, Park I-S (2015) Cytogentic characteristics of Cyprinidae between diploid and spontaneous triploid in major river of Korea. Ichthyol Res (Submitted).
  8. Nam MM, Yang HJ, Seo BK (1989) Morphologicla variation of the crucian carp, Carassius auratus (Linnaeus) from Yongnam area in Korea. Korean J Ichthyol 1:5463.
  9. Park I-S, Gil HW, Oh JS, Choi HJ, Kim CH (2015) Comparative analysis of morphometric characteristics of Scorpaenidae and Gobioninae. Dev Reprod 2:85-96.
  10. Park I-S, Im JH, Ryu DK, Nam YK, Kim DS (2001b) Effect of starvation on morphometric changes in Rhynchocypris oxycephalus (Sauvage and Dabry). J Appl Ichthyol 17:277-281. https://doi.org/10.1046/j.1439-0426.2001.00298.x
  11. Park I-S, Nam YK, Douglas SE, Johnson SC, Kim DS (2003) Genetic characterization, morphometrics and gonad development of induced interspecific hybrids between yellowtail flounder, Pleuronectes ferrugineus (Storer) and winter flounder, Pleuronectes americanus (Walbaum). Aquacult Res 34:389-396. https://doi.org/10.1046/j.1365-2109.2003.00816.x
  12. Park I-S, Woo SR, Song YC, Cho SH (2007) Effects of starvation on morphometric characteristics of olive flounder, Paralichthys olivaceus. Ichthyol Res 54:297-302. https://doi.org/10.1007/s10228-007-0404-4
  13. Park I-S, Zhang CI (1994) Morphometrical differences between diploid and induced triploid cherry salmon, Oncorhynchus masou. Korean J Ichthyol 6:206-221.
  14. Park I-S, Zhang CI, Lee YD (2001a) Sexual dimorphism in morphometric characteristics of cocktail wreasse. J Fish Biol 58:1746-1749. https://doi.org/10.1111/j.1095-8649.2001.tb02327.x
  15. Song KH, Jung JW, Koo HY, Kim W (2007) Development of species-specific molecular marker as a tool for discrimination between crucian carp gengorobuna (Carassius cuvieri) introduces from Japan and Korean native one (C. auatus). Korean J Limnol 40:143-148.
  16. Strauss RE (1985) Evolutionary allometry and variation in body form in the South American catfish genus Corydoras (Callichthyidae). Syst Zool 34:381-396. https://doi.org/10.2307/2413203
  17. Strauss RE (1986) Naturla hybrids of the freshwater sculpins Cottus bairdi and Cottus cognatus (Pisces: Cottidae): electrophoretic and morphometric evidence. Amer Mid Nat 115:87-105. https://doi.org/10.2307/2425839
  18. Strauss RE, Bond CE (1990) Toxonomic methods, morphology. In: Schreck, C.B. and Moyle, P.B. (eds.), Methods for Fish Biology. Amer. Fish. Soc., Bethesda, Maryland, pp. 125-130.
  19. Strauss RE, Bookstein FL (1982) The truss: body from reconstructions in morphometrics. Syst Zool 31:113-135. https://doi.org/10.2307/2413032