ẢNH HƯỞNG CỦA OXY HÒA TAN LÊN SỬ DỤNG THỨC ĂN VÀ TĂNG TRƯỞNG CỦA TÔM CÀNG XANH (MACROBRACHIUM ROSENBERGII)
Abstract
Tóm tắt
Article Details
Tài liệu tham khảo
Allan, G. L., and Mauguire, G. B. 1991. Lethal levels of dissolved oxygen and effects of short-term oxygen stress on subsequent growth of juvenile Penaeus monodon. Aquaculture 84 (1991) 27-37.
Avault, J. W. 1986. Aquaculture: environmental and conservation considerations. Research Report, 19 (1): 64-67.
Brett, J. R. 1979. Environmental factors and growth. In: Hoar, W. S., Randall, D. J., Brett, J. R. (Eds.), Fish Physiology, Vol. 8. Bioenergetics and Growth. Academic Press, New York, pp. 599-675.
Clark, J. V. 1986. Inhibition of molting in Penaeus semisulcatus by long-term hypoxia. Aquaculture 52 (1986) 253-254.
Colt, J. 1984. Computation of dissolved gas concentrations in water as functions of temperature, salinity and pressure. American Fisheries Society Special Publication 14.
DeSilva, S.S. and Anderson, T. A. 1995. Fish Nutrition in Aquaculture. Aquaculture Series 1. Chapman & Hall, London. p. 128.
Fidler, L. E., and Miller, S. B. 1994. Britsh Columbia water quality guidelines for dissolved gas supersaturation. Published by: BC Ministry of Environment, Canada Department of Fisheries and Oceans Environment Canada.
Frank, J. R., Sulkin, S. D., and Morgan, R. D. 1975. Biochemical changes during larval development of the xanthid crab Rhithropanopeus harrisii. I. Protein, total lipid, alkaline phosphatase, and glutamic oxaloacetic transaminase. Mar. Biol., Vol. 32, pp. 105-111.
Hagerman, L., and Uglow, R. F. 1982. Effects of hypoxia on osmotic and ionic regulation in the brown shrimp Crangon crangon (L.) from brackish water. J. Exp. Mar. Biol. Ecol. 63 (1982) 93-104.
Le Moullac, G., Soyez, C., Saulnier, D., Anquer, D., Awarre, C. J., and Levy, P. 1998. Effects of hypoxia stress on the immuno response and the resistance to vibriosis of the shrimp Penaeus stylirostris. Fish and Shellfish Immunology, 8 (1998) 621-629.
Li, Y., Li, J., and Wang, Q. 2006. The effects of dissolved oxygen concentration and stocking density on growth and non-specific immunity factors in Chinese shrimp, Fenneropenaeus chinensis. Aquaculture 256 (2006) 608-616.
Mangum, C. P. 1980. Respiratory function of the hemocyanins. Am. Zool. 20 (1980) 19-38.
McMahon, B. R. 2001. Respiratory and circulatorty compensation to hypoxia in crustaceans. Respiration Physiology 128 (2001) 349-364.
Mikulski, C. M., Burnett, L. E., and Burnett, K. G. 2000. The effect of hypercapnic hypoxia on the survival of shrimp challenged with Vibrio parahaemolyticus. J. Shellfish Res. 19, 301-311.
New, M.B. 2005. Freshwater Prawn Farming: Global Status, Recent Research and a Glance at the future, 36: 210-230.
Nguyễn Thanh Phương, Nguyễn Anh Tuấn, Trần Thị Thanh Hiền, Trần Ngọc Hải, M. Wilder, H. Ogata, M. Sano, and Maeno, Y. 2003. Development of Freshwater Prawn (Macrobrachium rosenbergii) Seed Production and Culture Technology in the Mekong Delta Region of Viet Nam: A Review of the JIRCAS Project at Cantho University. (This paper has been accepted for the JIRCAS working report No. 26 – 2003).
Racotta, I. S., Palacios, E., Mendez, L. 2002. Metabolic responses to short and long-term exposure to hypoxia in white shrimp, Penaeus vannamei. Marine Freshwater Behavior Physiology 35 (2002) 269-275.
Rosas, C., Martinez, E., Gaxiola, G., Brito, R., Sánchez, A., and Soto, L.A. 1999. The effect of dissolved oxygen and salinity on oxygen comsumption, ammonia excreation and osmotic pressure of Penaeus setiferus (Linnaeus) juveniles. Journal of Experimental Marine Biology and Ecology, 234 (1999) 41-57.
Seidman, E. R., Lawrence, A. L. 1985. Growth, feed digestibility, and proximate body composition of juvenile Penaeus vannamei and Penaeus monodon grown at different dissolved oxygen levels. J. World Maricult. Soc., 16: 333-346. Aquacop, Bedier, E., Soyez, C. 1988. Effects of dissolved oxygen concentration on survival and growth of Penaeus vannamei and Penaeus stylirostris. J. World Aquacult. Soc. (Aquacult. Communiqués) 19, (1): 13A.
Truchot, J. P. 1980. Lactate increases the oxygen affinity of crab hemocyanin. J. Exp. Zool. 214 (1980) 205-208.
Weber, K., E. Hoover, L. Sturmer, and Baker, S. 2008. The role of dissolved oxygen in hard clam aquaculture. Publication: University of Florida IFAS Extension, FA152.