바로가기메뉴

본문 바로가기 주메뉴 바로가기

ACOMS+ 및 학술지 리포지터리 설명회

  • 한국과학기술정보연구원(KISTI) 서울분원 대회의실(별관 3층)
  • 2024년 07월 03일(수) 13:30
 

logo

메뉴

가두리양식 북방전복, Haliotis discus hannai의 생식과 폐쇄소낭

Reproduction and Atretic Follicle of Net Cage Cultured Abalone, Haliotis discus hannai

Abstract

This study describes the ovarian development and the first report on atretic follicle in net cage cultured abalone, Haliotis discus hannai in Nohwa, Soan, Cheongsan, Bukpyeong, Korea. Sex ratio analysed male lower than female (1:0.56-0.89) and especially, there were significant differences in the cases of Nohwae, Soan, and Bukpyeong. The spawning period was sparse. Atretic follicles were observed from March to December at all research sites, and the rate of occurrence was high at ripe stage (from April to September). It is suggested that spawning disruption is caused by the atretic follicle. The process of the atretic follicle initially showed vacuolization in the cytoplasm, and the concensation nucleus with the aggregation of Vtg granules, The aggregated Vtg granules were absorbed and then only the jelly layer remained. Finally, the jelly layer was also degenerating.

keywords
Haliotis discus hannai, reproduction, atretic follicle

참고문헌

1.

Arai, H. (1920) On the postnatal development of the ovary (albino rats), with special reference to the number of ova. The American Journal of Anatomy, 27: 405-462.

2.

Au, D.W.T. (2004) The application of histocytopathological biomarkers in marine pollution monitoring: a review. Marine Pollution Bulletin, 48:817-834.

3.

Bauer, B., Fioroni, P., Ide, I., Liebe, S., Oehlmann, J., Stroben, E. and Wa-termann, B. (1995) TBT effects on the female genital system of Littorina littorea, a possible indicator of tributyltin pollution. Hydrobiologia, 309: 15–27.

4.

Chung, E.-Y., Kim, H.-B. and Lee, T.-Y. (1986) Annual Reproductive Cycle of the Jackknife Clams, Solen strictus and Solen grdonis. Bulletin of the Korean Fisheries Society, 19(6): 563-574.

5.

Ciocan, C.M., Puinean, M.A., Cubero-Leon, E., Hill, E.M. and Minier, C. (2010) Endocrine Disruption, Reproductive Cycle and Pollutants in Blue Mussel Mytilus edulis. Interdisciplinary Studies on Environmental Chemistry-Biological Responses to Contaminants, pp. 121–126.

6.

Cuevas, N., Zorita, I., Costa, P.M., Franco, J. and Larreta, J. (2015) Development of histopathological indices in the digestive gland and gonad of mussels:integration with contamination levels and effects of confounding factors. Aquatic Toxicology, 162: 152–164.

7.

Gibbs, P.E., Pascoe, P.L. and Burt, G.R. (1988) Sex change in the female dog-whelk Nucella lapillus induced by tributyltin from antifouling paints. Journal of the Marine Biological Association of the United Kingdom, 68: 715-731.

8.

González-Fernández, C., Albentosa, M., Campillo, J., Viñas, L., Franco, A. and Bellas, J. (2016) Effect of mussel reproductive status on biomarker responses to PAHs: Implications for large-scale monitoring programs. Aquatic Toxicology, 177: 380-394.

9.

Gore, A.C. (2007) Introduction to endocrine-disrupting chemicals. In; Endocrine-distuptiong chemicals, from basic research to clinical practice. (ed. by Gore, A.C.)pp. 3-8. Humana Press Inc. Totowa, New Jersey.

10.

Gray, M.A. and Metcalfe, C.D. (1997) Induction of testis-ova in Japanese medaka (Oryzias latipes)exposed to p-nonylphenol. Environmental Toxicology and Chemistry, 16: 1082-1086.

11.

Hughes, F.M. and Gorospe, W.C. (1991) Biochemical identification of apotosis (programmed cell death) in granulosa cells : Evidence for a potential mechanism underlying follicular atresia. Endocronology, 129(5):2415-2422.

12.

Jobling, S. and Tyler, C.R. (2003) Endocrine disruption in wild freshwater fish. Pure and Applied Chemistry, 75: 2219-2234.

13.

Johansen, R., Needham, J.R., Colquhoun, D.J., Poppe, T.T. and Smith, A.J. (2006) Guidelines for health and welfare monitoring of fish used in research. Laboratory Animals, 40: 323-340.

14.

Kaneko, T. and Hanyu, I. (1985) Annual reproductive cycle of the chichibu-goby Tridentiger obscurus. Bulletin of the Japanes Society for the Science of Fish, 51(10): 1645-1650.

15.

Kang, H., Kim, Y., Lee, E., Lee, D. and Chang, D. (2009) Fisheries biology of bigfin reef squid, Sepioteuthhis lessoniana in Jeju island, Korea. The Korean Journal of Malacology, 25(2): 173-178.

16.

Körner, O., Vermeirssen, E.L.M. and Burkhardt-Holm, P. (2007) Reproductive health of brown trout inhabiting Swiss rivers with declining fish catch. Aquatic Sciences, 69: 26-40.

17.

KOSIS. (2017) Korean Statistical Information Service, Statistic Database for Fisheries Production, Retrieved from http://kosis.kr/statisticsList/statisticsListIndex.do? menuId=M_01_01&vwcd=MT_ZTITLE&parmTabId=M_01_01#SelectStatsBoxDiv (accessed December 1, 2017).

18.

Lee, S.H., Chung, S., Kim, Y.H. and Yoo, J.T. (2017)Maturity and Spawning of Brown croaker Miichthys miiuy in the South-western Water of Korea. Korean Journal of Ichthyology, 29(2): 109-116.

19.

Lee, S.K., Chang, D.S., Kim, J.B. and Park, M.A. (2013)Reproduction study of purplish washington clam, Saxidomus purpuratus in jinhae bay, Korea:Spawning and shell length at 50% sexual maturity. Journal of the Korean Society Fisheries Technology, 49(4): 449-458.

20.

Lee, T.Y. (1974) Gametogenesis and reproductive cycle of abalones. Publications of the Marine Laboratory, Pusan Fisheries College, 7: 21-50.

21.

Lowe, D.M and Pipe, R.K. (1986) Hydrocarbon exposure in mussels: a quantitative study of the responses in the reproductive and nutrient storage cell systems. Aquatic Toxicology, 8: 265-272

22.

Lusher, A.L., Pope, N. and Handy R.D. (2017)Reproductive effects of endocrine disrupting chemicals, bisphenol-A and 17β-oestradiol, on Cerastoderma edule from south-west England: field study and laboratory exposure. Journal of the Marine Biological Association of the United Kingdom, 97(2): 347-357.

23.

Marceta, T. Da Ros, L. Marin, M.G., Codognotto, V.F. and Bressan, M. (2016) Overview of the biology of Flexopecten glaber in the North Western Adriatic Sea (Italy): A good candidate for future shellfish farming aims? Aquaculture, 462: 80–91.

24.

Miranda, A.C.L., Bazzoli, N., Rizzo, E. and Sato, Y. (1999) Ovarian follicular atresia in two teleost species: a histological and ultrastructural study. Tissue and Cell, 31: 480-488.

25.

NFRDI. (2008) Standard Manual for abalone culture. pp. 1-221. Hanguel graphics.

26.

Busan. Park, M.W., Kim, H., Kim, B.H., Son, M.H., Choi, J.S. and Lee, J.S. (2014) Reproductive cycle of the abalone, Haliotis discus hannai collected from Jindo of Korea. The Korean Journal of Malacology, 30(3):243-248.

27.

Roza de Abreu, M., Garcia, P. and Zaniboni-Filho, E. (2015) Histological characterization of oocyte developmental stages of suruvi Steindachneridion scriptum kept in captivity. Acta Scientiarum. Animal Sciences, 37(4): 351-356.

28.

Schäfer, S. and Köhler, A. (2008) Gonadal lesions of female sea urchin (Psammechinus miliaris) after exposure to the polycyclic aromatic hydrocarbon phenanthrene. Marine Environmental Research, 68:128-136.

29.

Tay, K.-L., The, S.J., Doe, K., Lee, K. and Jackman, P. (2003) Histopathologic and Histochemical Biomarker Responses of Baltic Clam, Macoma balthica, to Contaminated Sydney Harbour Sediment, Nova Scotia, Canada. Environmental Health Perspectives, 111(3): 273-280.

30.

Travers, M.-A., Basuyaux, O., Le Goic, N., Huchette, S., Nicolas, J.-L., Koken, M. and Paillard, C. (2009). Influence of temperature and spawning effort on Haliotis tuberculata mortalities caused by Vibrio harveyi: an example of emerging vibriosis linked to global warming. Global Change Biology, 15:1365-1376.

logo