[KSCI] Korea Science Citation Index Service

http://dx.doi.org/10.12717/DR.2016.20.4.289

Early Gonadogenesis and Sex Differentiation in the Korean Rose Bitterling, Rhodeus uyekii

Goo, In Bon (Inland Aquaculture Research Center, National Institute of Fisheries Science (NIFS))
Kim, Jung Eun (Inland Aquaculture Research Center, National Institute of Fisheries Science (NIFS))
Kim, Myung Hun (Inland Aquaculture Research Center, National Institute of Fisheries Science (NIFS))
Choi, Hye-Sung (Inland Aquaculture Research Center, National Institute of Fisheries Science (NIFS))
Kong, Hee Jeong (Biotechnology Research Division, NIFS)
Lee, Jeong Ho (Inland Aquaculture Research Center, National Institute of Fisheries Science (NIFS))
Park, In-Seok (Division of Marine Bioscience, Korea Maritime and Ocean University)

Publication Information

Development and Reproduction / v.20, no.4, 2016 , pp. 289-296 More about this Journal

Abstract

This report describes the sex differentiation of the Korean rose bitterling, Rhodeus uyekii, from hatching to 170 days post-hatch (DPH) in relation to total length (TL), body weight (BW), and integral water temperature (IWT). The growth curve of TL from just hatching to 83 DPH was $5.144e^{0.045t}$ ( $R^2=0.961$ ; t, time), and that of BW was $2.398e^{0.086t}$ ( $R^2=0.725$ ). Primordial germ cells (PGCs) were observed at 17 DPH (7.9 mm TL, 3.74 mg BW, $374^{\circ}C$ IWT), and thereafter began to protrude into the peritoneal cavity. At 21 DPH ( $9.2{\pm}0.14mm$ TL, $4.8{\pm}0.07mg$ BW, $462^{\circ}C$ IWT), some PGCs contained condensed chromatin and oocyte were observed in meiotic prophase. In contrast to the ovaries, which grew gradually after sexual differentiation, testes began multiplying at 25 DPH (10.1 mm TL, 5.42 mg BW, $550^{\circ}C$ IWT), when testicular differentiation was first identified, and multiplied continuously thereafter. At 33 DPH (11.2 mm TL, 10.5 mg BW, $726^{\circ}C$ IWT), the developing testes contained spermatogonia that exhibited mitotic activity. No spermatocyte or sperm cell was observed until 83 DPH (18.9 TL, 48.2 mg BW, $1,826^{\circ}C$ IWT). At 170 DPH (32.5 mm TL, 270.1 mg BW, $3,740^{\circ}C$ IWT), which was the end point of this study, the mature ovaries showed germinal vesicle breakdown, while the mature testes contained observable spermatocytes and sperm cells. These results allow us to identify the sex differentiation type of the Korean rose bitterling as differentiated gonochoristic.

Keywords

Early growth; Gonadogenesis; Rhodeus uyekii; Sex differentiation;

Citations & Related Records

Times Cited By KSCI : 3 (Citation Analysis)

Reference
Cited By KSCI

1	Park SY, Lee YA, Choi KC, Kang EJ, Bang IC (2001) Early gonadogenesis and sex differentiation in the bagrid catfish , Leiocassis ussuriensis. Kor J Ichthyol 13:248-253.
2	Pifferrer F, Donaldson EM (1989) Gonadal differentiation in coho salmon, Oncorhynchus kisutch, after a single treatment with androgen at different stages during ontogenesis. Aquaculture 77:251-262. DOI
3	Robertson JG (1953) Sex differentiation in the Pacific salmon, Oncorhynchus keta (Walbaum). Can J Zool 31:73-79. DOI
4	Shelton WL, Jensen GL (1979) Production of reproductively limited grass carp for biological control of aquatic weeds. Water Res Res Inst Auburn Univ 39:1-174.
5	Kim B-S, Kang EJ, Jang H, Park I-S (2012) Morphometric traits and cytogenetic analysis in induced cross and reciprocal hybrid between Rhodeus uyekii and R. notatus. Kor J Ichthyol 24:151-159.
6	Kim B-S, Lim S-G, Gil HW, Park I-S (2011) Temperature-dependent index of mitotic interval ( ${\tau}_0$ ) for chromosome manipulation in Korean rose bitterling, Rhodeus uyekii. J Fish Aquat Sci 14:429-434.
7	Kim IJ (1997) A osteological study of Rhodeus uyekii. Kor J Ichthyol 9:130-140.
8	Kim YU, Han KH (1990) Early life history of the Korean bitterling, Rhodeus uyekii (Cyprinidae), reared in the laboratory. Kor J Ichthyol 2:159-168.
9	Lee JS, Lee YD (1996). Early gonadogenesis and sex differentiation in the viviparous teleost, Ditrema temmincki. J Korean Fish Soc 29:35-43.
10	Nakamura M (1969) Cyprinid Fishes of Japan, Studies on the Life History of Cyprinid Fhised of Japan. Res Ins Nat Res, Tokyo, pp 5-99.
11	Pandian TJ, Sheela SG (1995) Hormonal induction of sex reversal in fish. Aquaculture 138:1-22. DOI
12	Park I-S, Kim JH, Bang IC, Kim DS (1998) Histological study of the early gonadal development and sexual differentiation in Rhynchocypris oxycephalus. Dev Reprod 2:69-74.
13	Park I-S, Kim JH, Bang IC, Kim DS (2004) Sex differentiation and hormomal sex reversal in the bagrid catfish, Pseudobagrus fulvidraco (Richardson). Aquaculture 232: 183-193. DOI
14	Park I-S, Lee YD, Chung EY (1997) Gonadal sex differentiation in cherry salmon, Oncorhynchus masou. Bull Mar Res Inst Cheju Nat Univ 21:1-9.
15	Van den Hurk R, Slof GA (1981) A morphological and experimental study of gonadal sex differentiation in the rainbow trout, Salmo gairdneri. Cell Tissue Res 218:487-497. DOI
16	Takashima F, Patino R, Nomura M (1980) Histological studies on the sex differentiation in rainbow trout. Bull Jap Soc Sci Fish 46:1317-1322. DOI
17	Tuzuki E, Egami N, Hyodo Y (1966) Multiplication and sex-differentiation of germ cells during development in the medaka, Oryzias latipes. Jap J Ichthyol 13:176-182.
18	Uchida K (1939) The fished of Tyosen. Part 1. Nematognathi and eventognathi. Bull Fish Exp State 6, pp 88-177.
19	Yamamoto T (1969) Sex differentiation. In: Hoar WS, Randall DJ, Donaldson EM (Eds), Fish Physiology, Vol. III, Academic Press, New York, pp. 117-158.
20	Park KN, Kim CH (1990) Egg and larval development and seasonal sex ratio of Korean endemic fresh water fish, Rhodeus uyekii. J Natural Sci Res Ins 3:29-33.
21	Yamazaki F (1976) Application of hormone in fish culture. J Fish Res Board Can 33:948-985. DOI
22	Jeon SR (1982) Studies on the distribution of the Acheilognathid fishes (Cyprinidae) from Korea. Ann Rep Biol Res 3:33-47.
23	Park JS, Lee WK, Park CK, Heo SJ, Ki SW, Choi NH (2008) Gonadal development and sex differentiation of a Korean endemic species, black bullhead Pseudobagrus koreanus. Dev Reprod 12:215-220.
24	Yoshikawa H, Oguri M (1978) Effect of steroid hormones on the sex differentiation in a cichlid fish Tilapia zillii. Nip Sui Gakkai 44:1093-1098. DOI
25	Bang IC, Park SY, Lee YA, Lee CH, Kim SY, Kim KK (2000) Early gonadogenesis and sex differentiation in sweet fish, Plecoglossus altivelis. J Aquacult 13:215-222.
26	Baroiller JF, Guiguen Y, Fostier A (1999) Endocrine and environmental aspects of sex differentiation in fish. Cell Mol Life Sci 55:910-931. DOI
27	Chae BS (2001) Elongation of the ovipositor in Korean rose bitterling, Rhodeus uyekii (Pisces: Cyprinidae). Kor J Ichthyol 13:111-116.
28	Colombo G, Grandi G (1996) Histological study of the development and sex differentiation of the gonad in the European eel. J Fish Biol 48:493-512. DOI
29	Devlin RH, Nagahama Y (2002) Sex determination and sex differentiation in fish: An overview of genetic, physiological, and environmental influences. Aquaculture 208:191-364. DOI
30	Gray AM, Metcalfe CD (1997) Induction of testis-ova in Japanese medaka (Oryzias latipes) exposed to p-nonylphenol. Environ Toxic Chem 16:1082-1086.
31	Kang EJ, Kim CH, Park I-S, Yang H, Cho YC (2006) Early developmental characteristics of induced hybrids between Rhodeus uyekii and R. notatus (Pisces: Cyprinidae). Kor J Ichthyol 18:339-346.
32	Kang EJ, Kim E-M, Kim YJ, Lim SG, Sim DS, Kim Y-H, Park I-S (2005) Effect of lidocaine hydrochloride and clove oil as an anaesthetic on Korean rose bitterling, Rhodeus uyekii and oily bitterling, Acheilgnathus koreensis. J Aquacult 18:272-279.
33	An CH (1995) Reproductive cycle of the spring-spawning bitterling, Rhodeus uyekii (Pisces: Cyprinidae). Kor J Ichthyol 7:33-42.