[KSCI] Korea Science Citation Index Service

http://dx.doi.org/10.12717/DR.2015.19.1.033

Gonadal Development, Spawning and Plasma Sex Steroid Levels of the Indoor Cultured Grunt, Hapalogenys nitens

Kang, Hee Woong (Southwest Sea Fisheries Research Institute)
Cho, Jae-Kwon (Southwest Sea Fisheries Research Institute)
Son, Maeng-Hyun (Southwest Sea Fisheries Research Institute)
Park, Jong Youn (Southwest Sea Fisheries Research Institute)
Hong, Chang Gi (Southwest Sea Fisheries Research Institute)
Chung, Jae Seung (Dept. of Urinology, College of Medicine, Inje University)
Chung, Ee-Yung (Faculty of Marine Applied Biosciences, Kunsan National University)

Publication Information

Development and Reproduction / v.19, no.1, 2015 , pp. 33-41 More about this Journal

Abstract

The gonadosomatic index (GSI), gonadal development and changes in hormones in plasma level of the indoor cultured grunt (Hapalogenys nitens) were investigated by histological study from August 2011 to October 2012. The GSI showed similar trends with gonad developmental stages during the culture periods. Changes in plasma level of estradiol- $17{\beta}$ of female H. nitens reached the highest value before the spawning period, and seasonal changes in plasma level of estradiol- $17{\beta}$ were similar in trends of oocyte developments and GSI changes. Testosterone levels of male H. nitens reached the highest value before and after the spent stage. Ovarian developmental stages of H. nitens could be classified into early growing stage, late growing stage, mature stage, ripe and spawning stage, recovery and resting stage. The testicular developmental stages could be divided into growing stage, mature stage, ripe and spent stage, and recovery and resting stage.

Keywords

Gonadal maturation; Hapalogenys nitens; Steroid hormone;

Citations & Related Records

Times Cited By KSCI : 1 (Citation Analysis)

Reference
Cited By KSCI

1	Aida K, Kato T, Awaji M (1984) Effects of cartration on the smoltification of precocious male masu salmon, Oncorhynchus masou. Bull Jpa Soc Fish 50:565-671. DOI
2	An HS, Kang HW, Han HS, Park JY, Myeong JI, An CM (2014) Isolation and characterization of 26 novel polynucleotide microsatellites from short barbeled grunter (Hapalogenys nitens) for genetic analysis. Conservation Genet Resour 6:669-672. DOI
3	Chen X, Wang S, Wang J, Wang D (2005) Karyotypes of cultured Hapalogenys nitens from Xiamen stock. J Xiamen Univ 44:200-202.
4	Cuiqin W, Dongxing Y, Baomin L (2006) Rapid determination of vitellogenin in fish plasma by anion exchange high performance liquid chromatography using postcolumn fluorescence derivatization with o-phthalaldehyde. Analytical Sci 22:1593-1596. DOI
5	Grier HJ, Uribe Araanzabal MC, Pattino, RR (2009) The ovary, folliculogenesis, and oogenesis in teleosts. Pp, 25-84. In Jamieson BGM (ed), Reproductive Biology and Physiology of Fishes (Agnathans and Bony Fishes), Volume 8A, The University of Queensland, St. Lucia, Queensland, Australia.
6	Hong WS, Zhang QY (2002) Artificial propagation and breeding of marine fish in China. Chin J Oceanol Limnol 20:41-51. DOI
7	Hong WS, Zhang QY (2003) Review of captive bred species and fry production of marine fish in China. Aquacult 227:305-318. DOI
8	Kang HW, Chung EY, Kang DY, Park YJ, Jo KC, Kim GH (2008) Gonadal maturation and spawning of river puffer Takifugu obscurus indoor cultured in low salinity. J Aquacult 21:331-338.
9	Kang HW, Chung EY, Kim JH (2004b) Sexual maturation and spawning characteristics in Greenling, Hexagrammos otakii of the west coast in Korea. J Aquacult 17:30-38.
10	Kang HW, Jun JC, Kang DY, Jo KC, Choi KH, Kim GH (2009) Influence of low salinity and cold water temperature on the hatching, survival and growth of the offspring of grunt, Hapalogenys nitens. Korean J Ichthyol 21:158-166.
11	Kang HW, Kim JH, Ryee KH, Kim JS (2004a) Natural spawning and characteristics of egg development of the indoor cultured Grunt, Hapalogenys nitens. J Aquacult 17:180-186.
12	Kang HW, Lim HG, Kang DY, Han HS, Do YH, Park JS (2012) Maturation and spawning of the female tongue sole, Cynoglossus semilaevis in the west coast in Korea. Dev Reprod 2:87-93.
13	Lee JK, Lim HG, Han CH, Jeung JH, Kim DJ, Aida K (2000) Changes of gonadosomatic index and sex steroid hormone of serum in cultured greenling (Hexagrammos otakii). J Korean Fish Soc 33:302-306.
14	Lee TW, Moon HT, Choi SS (1997) Change in species composition of fish in Chonsu Bay(II) surf zone fish. Korean J Ichthyol 9:79-90.
15	Li J, Zhang JQ, Ou YJ, Zhang JS, Liu Z, Liao R (2007) Study on the growth performance of skewband grunt Hapalogenys nitens in sea gulf net cage. South China Fish Sci 3:1-6.
16	Liang J, Wang J, Su Y, Cai Y, Wang D (2003) Isoenzyme analysis of genetic diversity in cultured Hapalogenys nitens. J Oceanogr Taiwan Strait 22:19-23.
17	Lim HC, Choi Y (2009) Fish fauna of the coastal waters off taean in the west sea of Korea. Korean J Ichthyol 12:215-222.
18	Limin L, Feng X, Jing H (2006) Amino acids composition difference and nutritive evaluation of the muscle of five species of marine fish, Pseudosciaena crocea (large yellow croaker), Lateolabrax japonicas (common sea perch), Pagrosomus major (red sebream), Seriola dumerili (Dumeril' amberjack) and Hapalogenys nitens (black grunt) from Xiamen bay of China. Aquacult Nut 12:53-59. DOI
19	Lou SW, Aida K, Hanyu I, Sakai K, Nomura M, Tanaka M, Tazaki S (1984) Endocrine profiles in the females of a twice-annually spawning strain of rainbow trout, Salmo gairdneri. Gen Comp Endocriol 64:212-219.
20	Lin W, Cai F, Chen W, Chen K, Lai X, Huang M (1998) Effects of different temperature and salinity on hatching larval survival rate Hapalogenys nitens. J Oceanogr Taiwan Strait 17:305-308.
21	Masuda H, Amaoka K, Araga C, Uyeno T, Yoshino T (1984) The Fishes of the Japanese Archipelago. Vol. 1. Tokai Univ Press, Tokyo, Japan, 437pp.
22	Matsuyama M, Adachi C, Nagahama Y, Kitajima C, Matsuura S (1991) Testicular development and serum levels of gonadal steroids during the annual reproductive cycle captive Japanese sardine. Japan J Ichthyol 37:381-390.
23	Nagahama Y (1987) Gonadotropin action on gametogenesis and steroidgenesis in teleost gonads. ZoolSci 4:209-222.
24	Nagahama Y, Kobayashi T, Chang XT, Nagahama Y (1998) Gonadal sex differentiation in teleost fish. J Exp Zool 281:362-373. DOI
25	NFRDI (2004) Commercial Fishes of the Costal & Offshore Waters in Korea. Hangul 333pp.
26	Stressmann CA, Takashima F, Toda K (1996) Sex differrentiation and hormonal feminization in pejerrey Odontesthes bonariensis. Aquacult 139:31-45. DOI
27	Xie Y, Zhang Y, Hu J, Sun B, Zhong Y, Lin L (2004) Morphological studies of early development of Hapalogenys nitens. J Fish Sci China 11:89-94.
28	Zhang Q, Hong W, Chen P (2001a) Status and prospects of artificial propagation and breeding technique of marine fish in Fujian. J Oceanolgr Taiwan Strait 20:266-273.
29	Zhang Y, Hu J, Xie Y, Zhong Y, Huang C (2003) Effects of diets on growth and survival rates of artificially-produced juveniles of Hapalogenys nitens. Mar Sci 27:30-33.
30	Zhang W, Su Y, Wang J, Quan C, Ding S (2001b) Biochemical composition of five common reared fishes. Mar Sci Bull 20:26-31.
31	Zheng L, Fang Q, Wang H, Zhang J (2004) Effect of salinity on activity and larval feeding rate Hapalogenys nitens Richardson. Mar Sci 28:5-7
32	Ziniu Y, Xiaoyu K, Wenwu X, Zongyang X (1994) The karyotypes of Hapalogenys nitens (Richardson) and H. mucronatus (Eydoux et Souleyet). J Ocean Univ Qingdao Haiyang Daxue Xuebao 24:175-180.