JOURNAL BROWSE
Search
Advanced SearchSearch Tips
Effect of Polycyclic Aromatic Hydrocarbon (PAH) on Shell Repair in the Pacific oyster, Crassostrea gigas
facebook(new window)  Pirnt(new window) E-mail(new window) Excel Download
  • Journal title : The Korean Journal of Malacology
  • Volume 27, Issue 1,  2011, pp.35-42
  • Publisher : The Malacological Society of Korea
  • DOI : 10.9710/kjm.2011.27.1.035
 Title & Authors
Effect of Polycyclic Aromatic Hydrocarbon (PAH) on Shell Repair in the Pacific oyster, Crassostrea gigas
Cho, Sang-Man; Lee, You-Me; Jeong, Woo-Geon;
  PDF(new window)
 Abstract
In order to understand effect of polycyclic aromatic hydrocarbon (PAH) on shell repair of the Pacific oyster, Crassostrea gigas, shell regeneration experiments were carried out using oysters drilled a hole on the right valve. The change of pH and hemocytic characteristics in both extrapallial fluid and hemolymph were observed during the shell repair. The thickness of mantle tissue was apparently decreased, while necrosis in epithelium and periostracal gland was increased in response to PAH exposure. Our finding suggested that PAH could adversely influence on shell repair.
 Keywords
Pacific oyster;Crassostrea gigas;Shell repair;Hemocyte;Polycyclic aromatic hydrocarbon (PAH);
 Language
English
 Cited by
1.
Prismatic shell repairs by hemoctyes in the extrapallial fluid of the Pacific Oyster, Crassostrea gigas,;;

한국패류학회지, 2011. vol.27. 3, pp.223-228 crossref(new window)
1.
Prismatic shell repairs by hemoctyes in the extrapallial fluid of the Pacific Oyster, Crassostrea gigas, The Korean Journal of Malacology, 2011, 27, 3, 223  crossref(new windwow)
 References
1.
Birmelin, C., Mitchelmore, C.L., Goldfarb, P.S. and Livingstone, D.R. (1998) Characterisation of biotransformation enzyme activities and DNA integrity in isolated cells of the digestive gland of the common mussel, Mytilus edulis L. Comparative Biochemistry and Physiology A: Molecular & Integrative Physiology, 120(1): 51-56. crossref(new window)

2.
Boutet, I., Tanguy, A. and Moraga, D. (2004) Response of the Pacific oyster Crassostrea gigas to hydrocarbon contamination under experimental conditions. Gene, 329:147-157. crossref(new window)

3.
Capuzzo, J.M. (1996) The bioaccumulation and biological effects of lipophilic organic contaminants. In: Kennedy, V.S., Newell, R.I.E. and Eble, F. (eds). The eastern oyster Crassostrea virginica. College Park, MD, Maryland Sea Grant College, pp. 539-557.

4.
Carriker, M.R. (1996) The shell and ligament. In: Kennedy, V.S., Newell, R.I.E., and Eble, A.F. (eds). The Eastern Oyster Crassostrea virginica. Maryland Sea Grant College, Maryland, pp. 75-168.

5.
Cheng, T.C. (1996)Hemocyte: froms and functions. In: Kennedy, V.S., Newell, R.I.E., and Eble, A.F. (eds). The Eastern Oyster Crassostrea virginica. Maryland Sea Grant College, Maryland, pp. 299-333.

6.
Cho, S.M. (2006) Effects of polycyclic aromatic hydrocarbons (PAHs) on the Pacific oyster, Crassostrea gigas. Ph.D. Dissertation, Department of Fisheries Science, Gyeongsang National University, Tongyeong, Korea.

7.
Christopher, V.D. and Barber, B.J. (1999) Growth and survival of selected lines of eastern oysters, Crassostrea virginica (Gmelin 1791) affected by juvenile oyster disease. Aquaculture, 178:253-271. crossref(new window)

8.
Crenshaw, M.A. (1980) Mechanisms of shell formation and dissolution. In: Rhoads, D.C. and Lutz, R.A. (eds). Skeletal Growth of Aquatic Organisms. Biological Records of Environmental Change. Plenum Press, New York, pp. 115-132.

9.
Ford, S.E. and Borrero, F.J. (2001) Epizootiology and Pathology of Juvenile Oyster Disease in the Eastern Oyster, Crassostrea virginica. Journal of Invertebrate Pathology, 78(3):141-154. crossref(new window)

10.
Hegaret, H., Wikfors, G.H. and Soudant, P. (2003) Flow cytometric analysis of haemocytes from eastern oyster, Crassostrea virginica, subjected to a sudden temperature elevation. II. Haemocyte functions: aggregation, viability, phagocytosis and repiratory burst. Journal of Experimental Marine Biology and Ecology, 293: 249-265. crossref(new window)

11.
Jeong, W.G. and Cho, S.-M. (2005) Effects of polynuclear aromatic hydrocarbons on hemocyte characteristics of the Pacific oyster, Crassostrea gigas. Journal of Shellfish Research, 24:451-456. crossref(new window)

12.
Jeong, W.G. and Cho, S.-M. (2007)Long-term effect of polycyclic aromatic hydrocarbon on physiological metabolisms of the Pacific oyster, Crassostrea gigas. Aquaculture, 265:343-350. crossref(new window)

13.
Kadar, E., Lobo-da-Cunha, A. and Azevedo, C. (2009). Mantle-to-shell $CaCO_{3}$ transfer durng shell repair at different hydrostatic pressures in the deep-sea vent mussel Bathymodiolus azoricus (Bivalvia: Mytilidae). Marine Biology, 156:959-967. crossref(new window)

14.
Kim, M.C., Cho S.-M. and Jeong, W.G. (2007)Short-term physiological response of the Pacific oyster, Crassostrea gigas, on exposure to varying levels of polycyclic aromatic hydrocarbon. Aquactic Research, 38(15):1612-1618. crossref(new window)

15.
Lee, S.W., Jang, Y.N. and Park, S.B. (2010) Biomineralization and biomimetics from the point of mineral processing. Korean Journal of Malacology, 26(1):1-18.

16.
Lopez-Cortes, L., Castro, D., Navas, J.I. and Borrego, J.J. (1999) Phagocytic and chemotactic responses of manila and carpet shell clam haemocytes against Vibrio tapetis, the causative agent of brown ring disease. Fish and Shellfish Immunology, 9(7):543-555. crossref(new window)

17.
Mount, A.S., Wheeler, A.P., Paradkar, R.P. and Snider, D. (2004) Hemcoyte-mediated shell mineralization in the eastern oyster. Science, 304:297-300. crossref(new window)

18.
Novoa, B., Luque, A., Castro, D., Borrego, J.J. and Figueras, A. (1998) Characterization and infectivity of four bacterial strains isolated from brown ring disease-affected clams. Journal of Invertebrate Pathology, 71(1):34-41. crossref(new window)

19.
Pan, L.Q., Ren J. and Liu, J. (2006) Responses of antioxidant systems and LPO level to benzo($\alpha$)pyrene and benzo($\kappa$)fluoranthene in the haemolymph of the scallop Chlamys ferrari. Environmental Pollution, 141(3):443-451. crossref(new window)

20.
Regoli, F., Gorbi, S., Frenzilli, G., Nigro, M., Corsi, I., Focardi, S. and Winston, G.W. (2002) Oxidative stress in ecotoxicology from the analysis of individual antioxidants to a more integrated approach. Marine Environmental Research, 54:419-423. crossref(new window)

21.
Renault T., Chollet B., Cochennec N. and Gerard A. (2002) Shell disease in eastern oysters, Crassostrea virginica, reared in France. Journal of Invertebrate Pathology, 79(1):1-6. crossref(new window)

22.
Rousseau, M., Plougueme, E., Wan, G., Wain, R., Lopez, E. and Fouchereau-Peron, M. (2003) Biomineralization markers during a phase of active growth in Pinctada margaritifera. Comparative Biochemistry and Physiology, 135A:271-278.

23.
Sami, S., Faisal, M. and Huggett, R.J. (1992) Alterations in cytometry characteristics of hemocytes from the American oyster Crassostrea virginica exposed to a polycyclic aromatic hydrocarbon (PAH) contaminated environment. Marine Biology, 113:247-252.

24.
Sheehan, D. and Hrapchak, B. (1980) Theory and practice of Histotechnology, 2nd Ed. Battelle Press, Ohio, pp 225-227.

25.
Simkiss, K. and Wilbur, K.M. (1989) Bomineralization, cell biology and mineral deposition. Academic Press, New York. 337pp.

26.
$Soko{\ddagger}owski$, A., $Wo{\ddagger}owicz$, M., Hummel, H., Smolarz-Gorska, K., Fichet, D., Radenac, G., Thiriot-Quievreux, C. and Namiesnik, J. (2004) Abnormal features of Macoma balthica (Bivalvia) in the Baltic Sea: alerting symptoms of environmental adversity? Marine Pollution Bulletin, 49:17-22. crossref(new window)

27.
Taylor, J.D., Kennedy, W.J. and Hall, A. (1969) The shell structure and mineralogy of the Bivalvia. Introduction. Nuculacea-Trigonacea. Bulletin of the British Museum (Natural History) Zoology, Supplement, 3:1-125.

28.
Weiner, S. and Hood, L. (1975) Soluble protein of the organic matrix of mollusk shells: a potential template for shell formation. Science, 190: 987-989. crossref(new window)

29.
Wheeler, A.P. (1975) Oyster mantle carbonic anhydrase: evidence for plasma membrane-bound activity and for a role in bicarbonate transport. Ph.D. Dissertation, Department of Zoology, Duke University, Durham.

30.
Xing, J., Zhan W.B. and Zhou, L. (2002) Endoenzymes associated with haemocyte types in the scallop (Chlamys farreri). Fish and Shellfish Immunology, 13:271-278. crossref(new window)