References

  • Abedian, A. 1995. Effects of Salinity on Growth and Survival of Juvenile Indian White Shrimp (Penaeus indicus), MS.c thesis, Tarbiat Modares University. http://www.modares.ac.ir/nat/aabedian/
  • Abeysinghe, D. H., A. Shanableh, and B. Rigden. 1996. Biofilters for water reuse in aquaculture. Water Science and Technology 34(11):253–260. IWA Publishing . Abstract and link to full article available at: http://www.iwaponline.com/wst/03411/wst034110253.htm
  • Ackefors, H. 1999. Environmental impacts of different farming technologies. Pages 145-169 In N. Svennevig, H. Reinertsen, and M. New (eds.). Sustainable aquaculture: food for the future? A. A. Balkema, Rotterdam. 348 pp.
  • AFC. 1997. Environmental Impact Assessment for an Environmentally Responsible Prawn Farming Project in the Rufiji Delta, Tanzania, Vol. I
  • AFMA (Australian Fisheries Management Authority). 2000. Northern Prawn Fishery Strategic Plan 2001-2006. Published by The Australian Fisheries Management Authority. ISBN 0-9587290-6-9
  • Aguirre Guzman, G. and Ascencio Valle, F. 2000. Infectious disease in shrimp species with aquaculture potential.Resent Res. Devl. Microbiology, 4 (2000): 333-348 Research Signpost
    T.C. 36/248 (2), Trivandrum 8, India.,ISBN:81-041-0. http://www.cibnor.mx/personal/gaguirre/shrimpdi.pdf
  • AKIYAMA, D. M. 1993. SEMI-EXTENSIVE SHRIMP FARM MANAGEMENT. ASA TECHNICAL BULLETIN American Soybean Association. M.I.T.A. (P) NO. 518/12/92. Vol. AQ38 1993/3.
  • AKNES, A., HJERTNES, T., & OPSTVEDT, J. (1996).  Comparison of Two Assay Methods for Determination of Nutrient and Energy Digestibility in Fish.  Aquaculture., 140, 343-359.
  • Alabi, A. O., Yudiati, E., Jones, D.A. and Latchford. J.W. 1997. Bacterial Levels in Penaeid Larval Cultures. In Diseases in Asian Aquaculture lll. T.W. Flegel and I.H. MacRae (eds.), Fish Health Section, Asian Fisheries Society, Manila.
  • ALAVA, V.R., & LIM, C. (1983). The Quantitative Dietary Protein Requirements of Penaeus monodon Juveniles in a Controlled Environment. Aquaculture.,  30, 53-61.
  • Alcaraz, G., Chiappa, X., Espinoza, V. and Vanegas, C. 1997. Acute toxicity of ammonia and nitrite in Penaeus setiferus postlarvae.
  • Alfoldi T.T., 1982, Remote sensing for water quality monitoring. In Remote sensing for resources management, edited by C. J. Johannsen and J. L. Sanders (Ankey Iowa: soil conservation society of America). Pp. 317-328.
  • Ali, S.A. 1982, Relative efficiency of pellatized feeds compound with different animal proteins and the effect of protein level in the growth of the prawn P indicus. Proc. Symp. Coast. Aquacult.1:321-328
  • Ali, S.A. 1993, Evaluation of different carbohydrates in the diet of the prawns Penaeus indicus. J. Aqua. Trop.,8:13-23.
  • ALI, S.A. (2000).  Copper, Manganese and Zinc Requirements in the Diet of Shrimp Penaeus Indicus. Asian Fisheries Science.,  13, 201-207.
  • ALLAN, G.L., & MAGUIRE, G.B. (1992). Effects of pH and Salinity on Survival, Growth and Osmoregulation in Penaeus monodon Fabricius.  Aquaculture., 107, (1):33-47.
  • ALLAN, G.L., & MAGUIRE, G.B. (1992). Effects of Stocking Density on Production of Penaeus monodon Fabricius in Model Farming Ponds. Aquaculture, 107, 49-66.
  • ALLAN, G.L., & MAGUIRE, G.B. (1993). The Effects of Water Exchange on Production of Metapenaeus macleayi and Water Quality in Experimental Pools.  Journal of the World Aquaculture Society., 24,  (3):321-328.
  • ALLAN, G.L., & MAGUIRE, G.B. (1993). The Use of Model Ponds to Evaluate Phytoplankton Blooms and Benthic Algal Mats for Penaeus monodon Fabricius Culture. Aquaculture and Fisheries Management., 24, 235-243.
  • ANDERSON, R.K., & PARKER, P.L. (1987). A  13C/12C Tracer Study of the Utilization of Presented Feed by a Commercially Important Shrimp Penaeus vannamei in a Pond Growout System. The World Aquaculture Society.,  12, (3):148-155.
  • Angell, C. L. 1997. TECHNICAL COOPERATION PROGRAM SUPPORT TO SPECIAL PLAN FOR PRAWN AND SHRIMP FARMING SITE SELECTION TOWARDS SUSTAINABLE SHRIMP AQUACULTURE IN MYANMAR. FAO Shrimp Culture Environment Expert. FOOD AND AGRICULTURE ORGANISATION OF THE UNITED NATIONS BANGKOK, 1997. TCP/MYA/4554(T). Field Document.
  • Angsupanich, S., Chiayvareesajja, S. and Chandumpai, A. 1999. Stomach contents of the banana prawns (Penaeus indicus and P. merguiensis) in Tammalang Bay, Southern Thailand. Asian Fisheries Science 12: 257-265.
  • ANI, S., & NOBLE, A. (1993). Laboratory Studies on Feeding and Water Exchange in the Culture of Penaeus indicus. H.Milne Edwards.  CMFRI Spl.Publ.,  55, (1):58-65.
  • A.P.F.A. 2000. Australian Prawn Farmer’s Association submission to QEPA Discussion Paper on a Review of Queensland Marine Prawn Aquaculture Licensing under the Environment Protection Act. APFA, PO Box 3128, Peel Street Place, SOUTH BRISBANE QLD 4101. http://www.apfa.com.au//files/environment/sitedata_env_apfa_epa_discpap_response_paper.pdf. From http://www.apfa.com.au/environment/environment.cfm .
  • Arce, S.M., Moss, S.M., Argue. B.J. 2000. ARTIFICIAL INSEMINATION AND SPAWNING OF PACIFIC WHITE SHRIMP LITOPENAEUS VANNAMEI: SELECTIVE BREEDING PROGRAM. UJNR Technical Report No. 28.
  • Areechon, N. 1997. Effects of Vitamin C on Penaeus monodon larva by direct application. Australian Institute of Marine Science. 2003. Cape Ferguson, Townsville, Australia. tel: +61 (07) 47534265; fax: +61 (07) 47725852; e-mail: web@aims.gov.au; URL - http://www.aims.gov.au. See also http://www.aims.gov.au/pages/reflib/reflib-00.html
  • Australian Institute of Marine Science. 2003. Manual for the determination of egg fertilisation in Penaeus monodon. http://www.aims.gov.au/pages/research/mdef/mdef-00.html
  • Australian Department of the Environment and Heritage. 2003. Assessment of the Northern Prawn Fishery. Assessment of the ecological sustainability of management arrangements for the Northern Prawn Fishery. Department of the Environment and Heritage, December 2003. http://www.deh.gov.au/coasts/fisheries/assessment/commonwealth/northern-prawn/report/executive-summary.html ISBN 0 6425 4942 7
  • Babu. M.M. and M.P. Marian.1998. Live transport of gravid Penaeus indicus using Coconut Mesocarp dust. Aquacultural Engineering. 18: 149 – 155.
  • Babu, M., Ravi, C., Marian, M.P., Kitto, M.R. 2001. Factors Determining Spawning Success in Penaeus monodon Fabricius. Naga. The ICLARM Quarterly (Vol. 24, Nos. 1 & 2) January-June 2001.
  • Bahru,J. 1989. REPORT OF THE WORKSHOP ON SHRIMP AND FINFISH FEED DEVELOPMENT. ASEAN/SF/89/GEN/11 October 1989.ASEAN/UNDP/FAO Regional Small-Scale Coastal Fisheries Development Project Manila, Philippines 1989.
  • Bailey, C. 1988. The Social Consequences of Tropical Shrimp Mariculture Development. Ocean and Shoreline Management, No. 11:31-44
  • Bailey-Brock, J.H. & Moss, S.M. 1992. Penaeid taxonomy, biology and zoogeography, p. 9-27. In: Fast A.W. and Lester L.J. (Eds). Marine shrimp culture: principles and practices. Developments in aquaculture and fisheries science, volume 23. Elsevier Science Publisher B.V., The Netherlands.
  • Baliao, P.B.D. 1987. PRODUCTION OF PRAWN (Penaeus monodon Fabricius) Using the Modular Pond System. http://www.fao.org/docrep/field/003/AC203E/AC203E00.htm NACA/WP/87/59 June 1987
  • Baluyut, E. A. 1989. Aquaculture systems and practices: a selected review. UNEP/FAO, Rome. ADCP/REP/89/43. http://www.fao.org/docrep/T8598E/t8598e00.htm#Contents
  • Barg, U., R. Subasinghe, R. Willmann, K. Rana, and M. Martinez. 1999. Towards sustainable shrimp culture development: implementing the FAO Code of Conduct for Responsible Fisheries (CCRF). Pages 64-81, In B. W. Green, H. C. Clifford, M. McNamara, and G. M. Montaño (eds.). Central American Symposium on Aquaculture, 18-20 August, 1999. San Pedro Sula, Honduras. Asociación Nacional de Acuicultores de Honduras (ANDAH), Latin American Chapter of the World Aquaculture Society (WAS), and Pond Dynamics/Aquaculture Collaborative Research Support Program (CRSP), Choluteca, Honduras. Available at: http://www.fao.org/fi/faocons/shrimp/honduras.asp#F1
  • BAUTISTA, M.N. (1986). The Response of Penaeus monodon Juveniles to Varying Protein/ Energy Ratios in Test Diets.  Aquaculture., 53, 229-242.
    BAUTISTA, M.N., & SUBOSA, P.F. (1997). Changes in Shrimp Feed Quality and Effects on Growth and Survival of  Penaeus monodon Juveniles.  Aquaculture., 151, 121-129.
  • Benfield, M.C., Bosschieter, J.R. & Forbes, A.T. 1990 Growth and emigration of Penaeus indicus H. Milne-Edwards (Crustacea:Decapoda:Penaeidae) in the St. Lucia Estuary, Southern Africa Fishery Bulletin, U.S. 88:21-28.
  • BENZIE, J.A.H. (1998). Penaeid Genetics and Bio Technology. Aquaculture.,  164, 23-47.
  • Benoit H., and Omid B. 2002. Shrimp farming in Iran. http://www.vds-afs.be/iran.htm
  • Bhaskar, T.I.C.J., Ali, S.A., 1984, Studies on the protein requirement of post-larvae of the penaid prawns P. indicus using purified diets. Indian J.Fish. 31:74-81.
  • Bioinformatics Centre, National Institute of Oceanography, Dona Paula, Goa, India. http://www.indian-ocean.org/bioinformatics/prawns/GIF/menu.htm
  • Bioinformatics Centre, 1998. DISEASE PREVENTION IN HATCHERIES
    http://www.indian-ocean.org/bioinformatics/prawns/GIF/DISEASE/Prevent1.htm
  • BOONYARATPALIN, M. and M.B. NEW. 1993. On-farm feed preparation and feeding strategies for marine shrimp and freshwater prawns, p. 120-134. In M.B. New, A.G.J. Tacon and I. Csavas (eds.) Farm-made aquafeeds. Proceedings of the FAO/AADCP Regional Expert Consultation on Farm-Made Aquafeeds. 14-18 December 1992, Bangkok, Thailand. FAO-RAPA/AADCP, Bangkok, Thailand, 434 p.
  • Bondad-Reantaso, M.G., McGladdery, S.E., East, I., and Subasinghe, R.P. (eds.) Asia Diagnostic Guide to Aquatic Animal Diseases. FAO Fisheries Technical Paper No. 402, Supplement 2. Rome, FAO. 2001. 240 p. http://www.enaca.org/NACA-Publications/ADG-complete.pdf
  • Booth, A.J. and Hecht, T. 2000. UTILISATION OF SOUTH AFRICA'S LIVING MARINE RESOURCES.Marine Biodiversity. Status Report, March 2000, Edited by B.D. Durham & J.C. Pauw http://www.nrf.ac.za/publications/marinerep/utilise.htm
  • Boyd, C.E. (1989). Water Quality Management and Aeration in Shrimp Farming. Alabama Agricultural Experiment Station, Auburn.
  • Boyd, C.E., J.A. Hargreaves and J.W. Clay 2002. Codes of Practice and Conduct for Marine Shrimp Aquaculture Report prepared under the World Bank, NACA, WWF and FAO Consortium Program on Shrimp Farming and the Environment. Work in Progress for Public Discussion. Published by the Consortium. 31 pages. http://www.enaca.org/Shrimp/Case/Global/CoP/FinalCOP.pdf
  • Boyd, C.E. 2001. Water Quality standards: Biochemical oxygen demand. GAA 4(5) Oct 2001. Pp71-72.
  • Boyd, C.E. 2001. Water Quality standards: Dissolved oxygen. GAA 4(5) Dec 2001. Pp70-71.
  • Boyd, C.E., Haws, M.C., & Green, B. 2001b. IMPROVING SHRIMP MARICULTURE in LATIN AMERICA. GOOD MANAGEMENT PRACTICES (GMPS) to REDUCE ENVIRONMENTAL IMPACTS and IMPROVE EFFICIENCY of SHRIMP AQUACULTURE in LATIN AMERICA and an ASSESSMENT of PRACTICES in the HONDURAN SHRIMP INDUSTRY. COASTAL RESOURCES CENTER University of Rhode Island. http://www.crc.uri.edu/comm/download/Shrimp_GMPs_Front-Ch_8.pdf ; http://www.crc.uri.edu/comm/download/Shrimp_GMPs_Ch_9.pdf ;http://www.crc.uri.edu/comm/download/Shrimp_GMPs_Ch_10-End.pdf
  • Boyd, C.E. 1996. Environmental Impact Statement for an Ecologically-Responsible Shrimp Farming Project in the Rufiji Delta, Tanzania, Auburn.
  • Boyd, C.E., Wood, C.W., Thunjai, T., Rowan, M., & Dube, K. 2001c. POND SOIL CHARACTERISTICS AND DYNAMICS OF SOIL ORGANIC MATTER AND NUTRIENTS. Ninth Work Plan, Pond Dynamics Research 2 (9PDR2) Progress Report. In: A. Gupta, K. McElwee, D. Burke, J. Burright, X. Cummings, and H. Egna (Editors), Eighteenth Annual Technical Report. Pond Dynamics/Aquaculture CRSP, Oregon State University, Corvallis, Oregon.
  • Boyd, C.E., Wood, C.W., & Thunjai, T. 2002. AQUACULTURE POND BOTTOM SOIL QUALITY MANAGEMENT. Pond Dynamics/Aquaculture Collaborative Research Support Program. Oregon State University, Corvallis, Oregon. < www.pdacrsp.orst.edu >Boyd, C.E. 2003. The status of codes of practice in aquaculture. In: World Aquaculture V34 (2), June 2003. pp63-66.
  • Boyd, C.E. 2003. Applying Effluent Standards to Small-scale farms. In: Global Aquaculture Advocate. V6 (3). June 2003. pp8-10.
  • BRANFORD, J.R. (1981). Sediment Preferences and Morphometric Equations for Penaeus monodon and Penaeus indicus from Creeks of the Red Sea.  Estuarine, Coastal and Shelf Science.,  13, 473-476.
  • BRIGGS, M.R.P., BROWN, J.H., & FOX, C.J. 1994. The Effect of Dietary Lipid and Lecithin Levels on the Growth, Survival, Feeding Efficiency, Production and Carcass Composition of Post-Larval Penaeus monodon Fabricius.  Aquaculture and Fisheries Management., 25, 279-294.
  • Bright Singh, I.S., Lakshmanaperumalsamy, P., Chandramohan, D., 1996. Bacterial flora of pond reared Penaeus indicus (H. Milne Edwards), Aquaculture in the Tropics, 13(2): 133-142.
  • Brock, J. A. 1992a. A brief overview of some historical and current issues concerning penaeid shrimp introduction into Hawaii. pp. 187-189. In M. R. DeVoe (ed.). Introductions and transfers of marine species. South Carolina Sea Grant Consortium.
  • Brock, J. A. 1992b. Procedural requirements for marine species introductions into and out of Hawaii. pp. 51-53. In M. R. DeVoe (ed.). Introductions and transfers of marine species. South Carolina Sea Grant Consortium.
  • BROWDY, C.L., HADANI, A., SAMOCHA, T.M., & LOYA, Y. 1986.  The Reproductive Performance of Wild and Pond Reared Penaeus semisulcatus. De Haan.  Aquaculture.,  59, 251-258.
  • BRUNSON, J.F., ROMAIRE, R.P., & REIGH, R.C. 1997.  Apparent digestibility of selected ingredients in diets for white shrimp Penaeus setiferus L.  Aquaculture., 3, 9-16.
  • Brusher, H.A., The magnitude, distribution and availability of prawn (Penaeidae) resources in 1976 coastal and estuarine waters of Kenya, 1970. J.Mar.Biol.Assoc.India, 16:335-48
  • Burlew, J.S. 1964. Algal Culture: From Laboratory to Pilot Plant.
  • Cahu C.L., Cuzan G. and Quazuguel P. 1995. Effect of highly unsaturated fatty acid, α-tocopherol and ascorbic acid in broodstock diet on egg composition and development of Penaeus indicus. Comparative Biochemical Physiology 112A(3–4): 417–424.
  • CAHU, C., VILLETTE, M., QUAZUGUEL, P., & GUILLAUME, J.C. 1991. The Effect of n-3 Highly Unsaturated Fatty Acid and Vitamin E Supplementation in Broodstock Feed on Reproduction of Penaeus indicus.  Fish Nutrition in Practice., 589-598.
  • CAHU, C., GUILLAUME, J.C., STEPHEN, G., & CHIM, L. 1994. Influence of Phospholipid and Highly Unsaturated Fatty Acids on Spawning Rate and Egg and Tissue Composition in Penaeus vannamei fed semi-purified diets.  Aquaculture., 126, 159-170.
  • Cahu, C. 1998. Diets for shrimp broodstock and their effects on larval quality, Manuscritos de Conferencias. IV Simposium Internacional de Nutricion Acuicola. Nov. 15-18, 1998, La Paz, Mexico. 10pp.
  • Cahu, C., Fauvel, C. and Aquacop. 1986. Effect of food fatty acid composition of P. vannamei broodstock on egg quality. ICES, Mariculture Committee, 1986 F/28, 10pp.
  • Canadian International Development Agency. 2001. Environmental Impact Assessment Preliminary Index of Useful Internet Web Sites Compiled by: Canadian International Development Agency. Environmental Assessment and Compliance Unit 200 Promenade du Portage Hull, Quebec K1A 0G4 Canada. http://www.iaia.org/eialist.html
  • CATACUTAN, M.R., & DE LA CRUZ, M. 1989.  Growth and Mid-Gut Cells Profile of Penaeus monodon Juveniles fed Water-Soluble-Vitamin Deficient Diets.  Aquaculture., 81, 137-144.
  • CATACUTAN, M.R. 1991.  Apparent Digestibility of Diets with Various Carbohydrates Levels and the Growth Response of Penaeus monodon. Aquaculture.,  95, 89-96.
  • CATACUTAN, M.R. 1991.  Growth and Fatty Acid Composition of Penaeus monodon Juveniles Fed Various Lipids.  The Israeli Journal of Aquaculture - Bamidgeh,  43, (2):47-56.
  • CATACUTAN, M.R., & LAVILLA-PITOGO, C.R. 1994.  L-Ascorbyl-2-Phosphate Mg as a Source of Vitamin C for Juvenile Penaeus monodon.  The Israeli Journal of Aquaculture - Bamidgeh,  46, (1):40-47.
  • Chaimberlain, G.W. 1989. RETHINKING SHRIMP POND MANAGEMENT
    http://www.asasea.com/technical/3aq14-89-2.html .Texas A&M Research and Extension Center.
  • Champion HFB. 1987. The functional anatomy of the male reproductive system in Penaeus indicus. S. Afr. J. Zool. 22(1):297-307. ( 1987 )
    Journal of the Zoological Society of Southern Africa.
  • Champion HFB. The attainment of maturity in male Penaeus indicus.S. Afr. J. Zool. 23(1):314-319
  • CHAMPION, H.F.B. (1973). New Records of Penaeid Prawns from the East Coast of Southern Africa with notes on Penaeus marginatus. Randall and a new Species of Metapenaeopsis.  Crustaceana., 25,  (2):199-201.
  • Champion, H.F.B. 1970 Aspects of the biology of Penaeus indicus (Milne Edward) with notes on associated Penaeidae occurring off Natal on the east coast of South Africa. Oceanography in South Africa : SANCOR.
  • Champion, H.F.B. 1988 The attainment of maturity in male penaeus indicus 1988 South African journal of zoology Vo. 23(4) pp. 314-319
  • CHANDGE, M.S., & RAJ, R.P. 1990. Nutritive Value of Natural Lipid Sources of Indian White Prawn, Penaeus indicus H.Milne Edwards. The Second Indian Fisheries Forum., 15-21.
  • CHANDGE, M.S., & RAJ, R.P. 1997. Dietary Lipid Requirements of the Juveniles of Indian White Prawn Penaeus indicus H.Milne Edwards.  Aquaculture in the Tropics.,  12, 165-180.
  • Chanratchakool, P., Turnbull, J.F., Funge-Smith S.J., MacRae, I.H., and Limsuwan, C. (1998). Health Management in Shrimp Ponds, 3rd Edition. Aquatic Animal Health Research Institute, Department of Fisheries, Kasetsart University Campus, Bangkok, Thailand.
  • CHEN, H.Y., LEU, Y.T., & ROELANTS, I. 1992.  Quantification Of Arginine Requirements of Juvenile Marine Shrimp, Penaeus monodon, using Microencapsulated Arginine.  Marine Biology.,  114, 229-233.
  • CHEN, H.Y., LEU, Y.T., & ROELANTS, I. 1992.  Effective Supplementation of Arginine in the Diets of Juvenile Marine Shrimp, Penaeus monodon.  Aquaculture., 108, 87-95.
  • CHEN, H.Y. 1993. Requirements of Marine Shrimp, Penaeus monodon, Juveniles for Phosphatidylcholine and Cholesterol. Aquaculture.,  109, 165-176.
  • CHEN, H.Y. 1993. Recent Advances in Nutrition of Penaeus monodon. Journal of the World Aquaculture Society.,  24, (2):231-240.
  • CHEN, J.C., & TU, C.C. 1991. Influence of Ammonia on Growth of Penaeus monodon Fabricius Post-Larvae. Aquaculture and Fisheries Management., 22, 457-462.
  • CHEN, J.C., & CHEN, S.-F. 1992.  Accumulation of Nitrite in Hemolymph of Penaeus japonicus. Marine Ecology Prog.Ser.,  83, 305-308.
  • CHEN, J.C., & LAI, S.H. 1993.  Effects of Temperature and Salinity on Oxygen Consumption and Ammonia-N Excretion of Juvenile Penaeus japonicus Bate.  Exp.Mar.Biol.Ecol., 165, 161-170.
  • CHEN, J.C., LIN, J.N., CHEN, C.T., & LIN, M.N. 1996. Survival, Growth and Intermolt Period of Juvenile Penaeus chinensis (Osbeck) Reared at Different Combinations of Salinity and Temperature.  Journal of Experimental Marine Biology and Ecology.., 204, (1):169-178.
  • CHEN, J.C., CHEN, K.W., & CHEN, J.M. 1996. Effects of Saponin on Survival, Growth, Molting and feeding of Penaeus japonicus Juveniles.  Aquaculture., 144, 165-175.
  • Chen, J. C. and Chin, T.S. 1988. Aquaculture. 69: 253-262.
  • Chinni, S., Khan, R.N., Yallapragada, P.R. 2002. Acute Toxicity of Lead on Tolerance, Oxygen Consumption, Ammonia-N Excretion, and Metal Accumulation in Penaeus indicus Postlarvae. Ecotoxicology and Environmental Safety, February 2002, vol. 51, iss. 2, pp. 79-84(6). Elsevier Science, 525 B Street, Suite 1900, San Diego, CA, 92101-4495
  • Chowdhury, M.A.K., Shivappa, R.B., Hambrey, J. 1999. CONCEPT OF ENVIRONMENTAL CAPACITY, AND ITS APPLICATION TO PLANNING AND MANAGEMENT OF COASTAL AQUACULTURE. Aquaculture and Aquatic Resources Management Program. Asian Institute of Technology.
  • CLARK, W.H.J., & LYNN, J.W. 1977.  A Mg++ Dependent Cortical Reaction in the Eggs of Penaeid Shrimp (1).  Journal of Experimental Zoology.,   200, 177-183.
  • CLARK, W.H.J., LYNN, J.W., YUDIN, A.I., & PERSYN, H.O. 1980. Morphology of the Cortical Reaction in the Eggs of Penaeus aztecus. Marine Biological Laboratory., 158, (2):175-186.
  • CLARKE, A., & WICKINS, J.F. 1980.  Lipid Content and Composition of Cultured Penaeus merguiensis Fed with Animal Food.  Aquaculture., 20, 17-27.
  • Clay, J.W. 1997. Toward Sustainable Shrimp Aquaculture. World Aquaculture, September 1997.
  • Clay, J.W. 1998. Sustainable Shrimp Aquaculture in a Global Context. Summary and Proceedings of the Mariculture Workshop, Dar es Salaam, 4th - 12th, March, 1998, TCMP.
  • CLAYBROOK, D.L. 1983.  Nitrogen Metabolism.  Biology of crustacea, 5, 163-213.
  • Clifford, H. C. 2002. Growout of Penaeid Shrimp. Shrimp Improvement Systems, Inc.
  • Clough, B., Tuan, V.U., Johnston, D., Phillips, M. & Chanratchakool, P. 2000. MIXED SHRIMP-MANGROVE FARMING PRACTICES. A MANUAL FOR EXTENSION WORKERS. ACIAR - MOFI Project FIS/94/12.
  • COLVIN, L.B., & BRAND, C.W. (1977).  The Protein Requirement of Penaeid Shrimp at Various Life-Cycle Stages in Controlled Enviroment Systems.  Proc.World Maricult Soc., 8, (821)p827.
  • Colvin. P.M, 1976. Nutritional Studies of Penaeid Prawns: Protein Requirements in Compound Diets for Juvenile Penaeus indicus. (Milne Edwards). Aquaculture. 7:315-326.
  • COLVIN, P.M. (1976). The Effect of Selected Seed Oils on the Fatty Acid Composition and Growth of Penaeus indicus. Aquaculture.,  8, 81-89.
  • COMAN, G.J., CROCOS, P.J., PRESTON, N.P., & FIELDER, D. (2002).  The Effects of Temperature on the Growth, Survival and Biomass of Different Families of Juvenile Penaeus japonicus Bate. Aquaculture, 214, 185-199.
  • Conklin, D.E. 2003. Use of Soybean Meal in the Diets of Marine Shrimp. www.soymeal.org
  • Conte, F.S. 2000. POND FERTILISATION: INITIATING AN ALGAL BLOOM (wrac-104.PDF). Western Regional Aquaculture Centre. WRAC Publication No. 104 02-2000. http://www.fish.washington.edu/wrac/images/wrac-104.PDF
  • Cook, H.L. and Murphy, M.A. 1971. Early developmental stages of the brown shrimp, Penaeus aztecus Ives, reared in the laboratory. Fishery Bulletin V69 (1) pp223-239. http://fishbull.noaa.gov/
  • CORONA, A., SOTO, L.A., & SANCHEZ, A. (2000).  Epibenthic Amphipod Abundance and Predation Efficiency of the Pink Shrimp Farfantepenaeus Duorarum (Burkenroad,1939) in Habitats with Different Physical Complexity in a Tropical Estuarine System.  Exp.Mar.Biol.Ecol., 253, 33-48.
  • COURTIES , C. 1976. Description des premiers stades larvaires de trois crevettes pénéides pêchées à Madagascar : Penaeus indicus H. Milne Edwards, Penaeus semisulcatus de Haan, Metapenaeus monoceros  (Fabricius). Cahiers ORSTOM. Série Océanographie, 14(1), 49-70.
  • Coutteau, P. 2003. Sources of contamination and water treatment. In: Production and use of live food for aquaculture. http://allserv.rug.ac.be/aquaculture/coursmat/coursmat.htm
  • Courtland, S. 1999. Recirculating System Technology for Shrimp Maturation. THE ADVOCATE c DECEMBER 1999, pp74-75.
  • Courtland, S. 2000. Fluidized Bed Biofiltration Technology For Oligotrophic Water Quality. THE ADVOCATE JUNE 2000 pp 18-19.
  • CRUZ-RICQUE, L.E., & GUILLAUME, J.C. (1987). Squid Protein Effect on Growth of Four Penaeid Shrimp. The World Aquaculture Society.,  18, (4):209-217.
  • CRUZ.-SUÁREZ, L.E., RICQUE, D., & AQUACOP. (1992). Effect of Squid Meal on Growth of Penaeus monodon Juveniles Reared in Pond Pens and Tanks.  Aquaculture.,  106, 293-299.
  • CRUZ.-SUÁREZ, L.E., RICQUE-MARIE, D., MARTINEZ-VEGA, J.A., & WESCHE-EBELING, P. (1993). Evaluation of Two Shrimp by-product Meals as Protein Sources in Diets for Penaeus vannamei. Aquaculture.,  115, 53-62.
  • CRUZ.-SUÁREZ, L.E., RICQUE-MARIE, D., PINAL-MANSILLA, J.D., & WESCHE-EBELING, P. (1994). Effect of Different Carbohydrate Sources on the Growth of Penaeus vannamei: Economical Impact. Aquaculture.,  123, 349-360.
  • D’ Abramo, R.L., Conklin, D.E., Akiyama, D.M., 1997. Crustacean Nutrition:Advances in World Aquaculture.vol 6. World Aquaculture Society. 600pp.
  • D'SOUZA, F.M.L., & LONERAGAN, N.R. (1999). Effects of Monospecific and Mixed -Algae Diets on Survival, Development and Fatty Acid Composition of Penaeid Prawn (Penaeus Spp.) Larvae. Marine Biology., 133, 621-633.
  • DALL, W. (1981). Osmoregulatory Ability and Juvenile Habitat Preference in Some Penaid Prawns. J.Exp.Mar.Biol.Ecol.,  54, 55-64.
  • DALL, W., & SMITH, D.M. (1981).  Ionic Regulation of Four Species of Penaeid Prawn. J.Exp.Mar.Biol.Ecol.,  55, 219-232.
  • DALL, W., & SMITH, D.M. (1986).  Oxygen Consumption and Ammonia-n Excretion in Fed and Starved Tiger Prawns, Penaeus ecculentus Haswell. Aquaculture.,  55, 23-33.
  • DALL, W., & SMITH, D.M. (1987).  Changes in Protein-Bound and Free Amino Acids in the Muscle of the Tiger Prawn Penaeus esculentus during starvation. Marine Biology.,  95, 509-520.
  • Dall, W., Hill, J., Rothlisberg, P.C. and Staples, D.J. 1990. The biology of Penaeidae. Advances in marine biology, Volume 27. Blaxter J.H.S. and Southward A.J. (Eds.). Academic Press, New York, USA. 489 p.
  • DALLA VIA, G.J. (1985).  Oxygen consumption and Temperature change in the Shrimp Palaemon elegans. Marine Ecology Prog.Ser.,  26, 199-202.
  • DALLA VIA, G.J. (1986).  Salinity Responses of the Juvenile Penaeid Shrimp Penaeus japonicus. II . Free Amino Acids.  Aquaculture., 55 , 307-316.
  • DALLA VIA, G.J. (1986).  Salinity Responses of the Juvenile Penaeid Shrimp Penaeus japonicus. I. Oxygen Consumption and Estimations of Productivity.  Aquaculture.,   55, 297-306.
  • DAVIS, D.A., & ARNOLD, C.R. (1993).  Evaluation of Five Carbohydrate Sources for Penaeus vannamei.  Aquaculture., 114, 285-292.
  • DAVIS, D.A., LAWRENCE, A.L., & GATLIN, D.M.I. (1993).  Response of Penaeus vannamei to Dietary Calcium, Phosphorus and Calcium: Phosphorous Ratio.  The World Aquaculture Society. , 24,  (4):504-515.
    DAVIS, D.A., LAWRENCE, A.L., & GATLIN, D.M.I. (1993).  Dietary Copper Requirement of Penaeus vannamei. Nippon Suisan Gakkaishi.,  59, (1):117-122.
  • DAVIS, D.A., & ARNOLD, C.R. (1994).  Growth Response of  Penaeus setiferus to Four Commercial Feeds Under Controlled Laboratory Conditions.  The World Aquaculture Society.,  25, (4):561-565.
  • DAVIS, D.A., & ARNOLD.C.R. (1998). The Design, Management and Production of a Recirculating Raceway System for the Production of Marine Shrimp. Aquaculture, 17, 193-211.
  • DAVIS, D.A., & ARNOLD, C.R. (2000).  Replacement of Fish Meal in Practical Diets for the Pacific White Shrimp, Litopenaeus vannamei.  Aquaculture,  185, 291-298.
  • De Bruin, G.H.P., Russell, B.C., & Bogusch, A. 1994. The marine fishery resources of Sri Lanka. ISBN 92-5-103293-9 http://www.fao.org/docrep/t0726e/t0726e00.htm
  • DE FREITAS, A.J. (1995). Shrimps and Prawns. In: Oceans of Life off Southern Africa.  (Eds.)., PAYNE, A.I.L. & CRAWFORD, R.J.M. Vlaeberg Publishers. Johannesburgh: (pp. 81-90).
  • DE SILVA, S.S. (1989). Digestibility Evaluations of Natural and Artificial Diets. Departments of Fisheries Biology and Zoology., 4, 36-43.
  • DEERING, M.J., & FIELDER, D.R. (1995). Effects of Temperature on Growth and Protein Assimilation in Juvenile Leader Prawns Penaeus monodon.  Journal of the World Aquculture Society., 26,  (4):465-468.
  • DEERING, M.J., HEWITT, D.R., & SARAC, H.Z. (1996). A Comparison of Inert Markers Used to Estimate Protein Digestibility in the Leader Prawn Penaeus monodon.  Journal of the World Aquculture Society.,  27, (1):103-106.
  • DEERING, M.J., FIELDER, D.R., & HEWITT, D.R. (1997). Growth and Fatty Acid Composition of Juvenile Leader Prawns, Penaeus monodon, Fed Different Lipids.  Aquaculture.,  151, 131-141.
  • DEMETRIADES, N.T., & FORBES, A.T. (1993).  The Diet of Prawns from the Natal Coast. Proceedings Of The 8th Southern African Marine Science Symposium,  Langebaan.
  • DEMETRIADES, N.T. (2000).  Resource Management and Monitoring of the Thukela Bank Shallow Water Prawn Resource.   Report # 2: Prepared for the South African Prawn Trawling Companies. October 2000: 1-20.
  • Deshimaru, O., Shigeno, K. (1972) Introduction to the artificial diet for prawn Penaeus japonicus. Aquaculture 1: 115-133.
  • DESHIMARU, O., KUROKI, K., MAZID, M.A., & KITAMURA, S. (1985). Nutritional Quality of Compounded Diets For Prawn Penaeus monodon. Bulletin of the Japanese Society of Scientific Fisheries., 51,  (6):1037-1044.
  • Détante, B., Garen, P. and Lemercier, P. 1987.MARINE SHRIMP CULTURE IN SURINAME. TECHNICAL COOPERATION PROGRAMME. FI:TCP/SUR/6651, Field Document 1, February 1987
  • Dhont, J. 2003. http://allserv.rug.ac.be/aquaculture/coursmat/coursmat.htm Created and maintained by jean.dhont@UGent.be . Last revision January 2002. Copyright 2000 - Laboratory of Aquaculture & Artemia Reference Center, Faculty of Agricultural and Applied Biological Sciences - Department of Animal Production, Ghent University, Rozier 44, B-9000 Gent, Belgium, Phone +32-9-2643754, Fax +32-9-2644193, E-Mail: artemia@UGent.be
  • DIE, D.J., MCGILVRAY, J.G., COURTNEY, A.J., & COSGROVE, M.G. (1995). A Quantitative Method for Staging Penaeid Prawn Ovaries using Image Analysis.  Invertebrate Reproduction and Development.,  28, (3):177-183.
  • Dierberg, F. and W. Kiattisimkul. 1996. Issues, impacts, and implications of shrimp aquaculture in Thailand. Environmental Management 20: 649-666.
  • Direkbusarakom, S., Pechmanee, T., Assavaaree, M., and Danayadol, Y. 1997. Effect of Chlorella on the  Growth Of Vibrio Isolated from Diseased Shrimp. In T.W. Flegel and I.H. MacRae (eds.), Diseases in Asian Aquaculture lll. Fish Health Section, Asian Fisheries Society, Manila.
  • Diwan, A.D., Laximinarayana, A. 1989. Osmoregulatory ability of Penaeus indicusH. Milne Edwards in relation to varying salinities .Proc. Indian Acad. Sci. (Anim. Sci.), 98: 105-111.
  • Donovan, D. J. 2001. Environmental Code of Practice  for Australian Prawn Farmers. ISBN 0 646 31873 X Australian Prawn Farmers Association Inc. 1999. http://www.apfa.com.au/files/environment/environmental_code_of_practice_final_sept2001.doc
  • DU PREEZ, H.H., CHEN, H.Y., & HSIEH, C.S. (1992).  Apparent Specific Dynamic Action of Food in the Grass Shrimp, Penaeus monodon Fabricius. Comp.Biochem.Physiol., 103A,  (1):173-178.
  • Dudley, R.G. 2000. Summary of Data Related to Coastal Shrimp Landings in the Cilacap Area. http://people.cornell.edu/pages/rgd6/PDF/coastal.pdf
  • Duerr, E.O. and W.A. Walsh. 1996. Evaluation of cholesterol additions to a soybean-meal based diet for juvenile Pacific white shrimp, Penaeus vannamei, in an outdoor growth trial.  Aquaculture Nutrition 2:111-116.
  • Dy-Penaflorida, V. 1989. An evaluation of indigenous protein sources as potential component in the diet formulation for tiger prawn, Penaeus monodon using essential amino acid index (EAAI). Aquaculture 83:319-330.
  • Emmerson, W.D. 1980. Induced maturation of prawn Penaeus indicus. Mar. Ecol. Prog. Ser. 2: 121-131.
  • EMMERSON, W.D. 1980. Ingestion, Growth and Developement of Penaeus indicus Larvae as a Function of Thalassiosira weissflogii Cell Concentration.  Marine Biology.,  58, 65-73.
  • EMMERSON, W.D., & ANDREWS, B. 1981.  The Effect of Stocking Density on the Growth, Development and Survival of Penaeus indicus. Milne Edwards Larvae. Aquaculture.,  23, 45-57.
  • EMMERSON, W.D. 1983. Maturation and Growth of Ablated and Unablated Penaeus monodon Fabricius. Aquaculture.,  32, 235-241.
  • EMMERSON, W.D., HAYES, D.P., & NGONYAME, M. 1983.  Growth and Maturation of Penaeus indicus under Blue and Green Light.  S.-Afr.Tydskr.Dierk., 18,  (2):71-75.
  • EMMERSON, W.D., & STRYDOM, W. 1984.  An Electronic Controller for the Automatic Determination of Oxygen Consumption in Aquatic Animals.  Aquaculture,  36, 173-177.
  • Emmerson, W.D. 1980. Induced maturation of prawn Penaeus indicus. Mar. Ecol. Prog. Ser. 2: 121-131.
  • Engle, C.R. & Stone N.M. 1997. Developing Business Proposals for Aquaculture Loans, Southern Regional Aquaculture Center Publication 381, University of Arkansas, 6pp.
  • Environmental Protection Agency. 2000. DISCUSSION PAPER ON A REVIEW OF QUEENSLAND MARINE PRAWN AQUACULTURE LICENSING UNDER THE ENVIRONMENTAL PROTECTION ACT. Environmental Protection Agency, Environmental Planning Division, PO Box 155, Brisbane, Albert Street 4002. http://www.apfa.com.au//files/environment/prawn_farming_discus.pdf
  • EPA. 2002. Methods for Measuring the Acute Toxicity of Effluents and Receiving Waters to Freshwater and Marine Organisms Fifth Edition October 2002.
  • EPA Effluent Guidelines Aquatic Animal Production Industry Proposed Rule. http://epa.gov/guide/aquaculture/ ; Effluent Limitations Guidelines and New Source Performance Standards for the Concentrated Aquatic Animal Production Point Source Category http://www.epa.gov/fedrgstr/EPA-WATER/2002/September/Day-12/w21673.htm Federal Register: September 12, 2002.
  • EPA. 2000. DISCUSSION PAPER ON A REVIEW OF QUEENSLAND MARINE PRAWN AQUACULTURE LICENSING UNDER THE ENVIRONMENTAL PROTECTION ACT; 2000. Environmental Protection Agency. Environmental Planning Division. PO Box 155, Brisbane, Albert Street 4002.” http://www.apfa.com.au//files/environment/prawn_farming_discus.pdf
  • EZQUERRA, J.M., & GARCÌA-CARREÑO, F.L.C.O. 1998. In Vitro Digestibiliy of Dietary Protein Sources for White Shrimp (Penaeus vannamei). Aquaculture.,  163, 123-136.
  • Esmaeili, A. & Omar, I. 2002. Influence of Rainfall on Optimal Spawner Catch for the Shrimp Fishery in Iran. North American Journal of Fisheries Management: Vol. 23, No. 2, pp. 385–391. http://afs.allenpress.com/afsonline/?request=get-document&doi=10.1577%2F1548-8675(2003)023%3C0385:IOROOS%3E2.0.CO%3B2#i1548-8675-23-2-385-penn1
  • FAO - FAO Fisheries Report No. 627. http://www.fao.org/DOCREP/005/X8691E/X8691E00.HTM , http://www.fao.org/DOCREP/005/X8691E/x8691e08.htm
  • FAO. 2001. FAO Fisheries Department, Fishery Information, Data and Statistics Unit. FISHSTAT Plus: Universal software for fishery statistical time series. Version 2.30. 25 May 2001.
  • FAO/NACA. 1995. Regional Study and Workshop on the Environmental Assessment and Management of Aquaculture Development (TCP/RAS/2253). NACA Environment and Aquaculture Development Series No. 1. Network of Aquaculture Centres in Asia-Pacific, Bangkok, Thailand.
  • FAO, 1995. Code of Conduct for Responsible Fisheries. http://www.fao.org/fi/agreem/codecond/codecon.asp ;
  • FAO. 2000. Report of the FAO/Government of Australia Expert Consultation on Good Management Practices and Good Legal and Institutional Arrangements for Sustainable Shrimp Culture - Brisbane, Australia, 4-7 December 2000. FAO Fisheries Report No. 659. FIRI/R659 ISSN 0429-9337 http://www.fao.org/DOCREP/005/Y3213E/y3213e00.htm#Contents
  • FAO. 1988. Aspects of FAO’s policies, programmes, budget and activities aimed at contributing to sustainable development. Document to the ninety-fourth Session of the FAO Council, Rome. 15-25 November 1988. Rome, FAO. CL 94/
  • FAO. 1998. Report of the Bangkok FAO Technical Consultation on policies for Sustainable Shrimp Culture. Bangkok, Thailand, 8-11 December 1997. FAO Fisheries Report. No. 572. Rome, FAO. 1998. 31p. FOOD AND AGRICULTURE ORGANISATION OF THE UNITED NATIONS. http://www.fao.org/fi/faocons/shrimp/bangk.asp ; http://www.fao.org/fi/agreem/codecond/ficonde.asp
  • Feindel, S. LARVAE AND BACTERIA. 1995. Electronic Newsletter of the International Working Group on Larviculture of Fish and Shellfish. Oct. First Issue.
  • FERNANDEZ, C.H., & SUKUMARAN, N.S. (1995). Effect of Crystalline Amino Acids on the Growth Performance of Indian White Shrimp, Penaeus indicus (Milne Edwards).  Aquaculture in the Tropics.,  10, 245-260.
  • FERRARIS, R.P., PARADO-ESTEPA, F., LADJA, J.M., & DE JESUS, E.G. (1986).  Effect of Salinity on the Osmotic, Chloride, Total Protein and Calcium Concentrations in the Hemolymph of the Prawn Peneaus monodon (Fabricius). Comp.Biochem.Physiol., 83A, (4):701-708.
  • FERRARIS, R.P., PARADO-ESTEPA, F., DE JESUS, E.G., & LADJA, J.M. (1986).  Osmoregulation in Penaeus monodon: Effects of Molting and External Salinity. In: The First Asian Fisheries Forum. (Eds.)., MACLEAN, J.L., DIZON, L.B., & HOSILLOS, L.V. Asian Fisheries Society. Manila, Philippines: (pp. 637-640).
  • FERRARIS, R.P., PARADO-ESTEPA, F., DE JESUS, E.G., & LADJA, J.M. (1987).  Osmotic and Chloride Regulation in the Hemolymph of the Tiger Prawn Penaeus monodon During Molting in Various Salinities.  Marine Biology.,  95, 377-385.
  • Fischer, W. and G. Bianchi (Eds.) 1984. FAO species identification sheets for fisheris purpose. Western Indian Ocean. Vol. 5.
  • Flegel, T. 1998. Shrimp disease epizootics: significance of international pathogen transfer. Pages 51-52 In Regional programme for the development of technical guidelines on quarantine and health certification, and establishment of information systems, for the responsibility movement of live aquatic animals in Asia. TCP/RAS/6714. Field Doc. No. 1. FAO/NACA/OIE, Bangkok.
  • FORBES, A.T., & BENFIELD, M.C. (1985). Aspects of the Penaeid Prawn Fisheries in Natal.  South African Journal of Science.,  81, 430-431.FORBES, A.T., & BENFIELD, M.C. (1986). Tidal Behaviour of Post-Larval Penaeid Prawns (Crustacea: Decapoda: Penaeidae) in a Southeast African Estuary. J.Exp.Mar.Biol.Ecol., 102, 23-34.
  • FORBES, A.T., & BENFIELD, M.C. (1986). Penaeid Prawns in the St. Lucia Lake System: Post-Larval Recruitment and the Bait Fishery.  S-Afr.J.Zoology., 21,  (3):224-228.
  • FORBES, A.T., & HAY, D.G. (1988).  Effects of a Major Cyclone on the Abundance and Larval Recruitment of the Portunid Crab Scylla serrata (Forskal) in the St. Lucia Estuary, Natal, South Africa.  S.Afr.J.Marine Sci.,  7, 219-225.
  • FORBES, A.T., NIEDINGER, S., & DEMETRIADES, N.T. (1994). Recruitment and Utilization of Nursery Grounds by Penaid Prawn Postlarvae in Natal, South Africa. In: Changes in Fluxes in Estuaries.  (Eds.)., DYER.K.R & ORTH.R.J. Olsen & Olsen. Denmark: (pp. 379-383).
  • FORBES, J.M. (1981). Flow of Information from Research. British Society of Animal Production,  5, 127-130.
  • FORSTER, G.R. (1953).  Peritrophic Membranes in the Caridea (Crustacea Decapoda). J.Mar.biol.Ass U.K., 32, 315-318.
  • FORSTER, J.R.M., & GABBOTT, P.A. (1971). The Assimilation of Nutrients from Compounded Diets by the Prawns Palaemon serratus and Pandalus platyceros.  J.Mar.biol.Ass U.K.,  51, 943-961.
    FORSTER, J.R.M. (1972).  Some Methods of Binding Prawn Diets and their Effects on Growth and Assimilation.  J.Cons.int.Explor.Mer., 34,  (2):200-216
    FORSTER, J.R.M., & BEARD, T.W. (1974). Experiments to Assess the Suitability of Nine Species of Prawns for Intensive Cultivation.  Aquaculture., 3, 355-368.
  • Forster, I., Dominy, W., Tacon, A.G.J. (2002) The use of concentrates and other soy products in shrimp feeds. In L.E. Cruz-Suarez, D. Ricque-Marie, M. Tapia-Salazar, M.G. Gaxiola-Cortes, and N. Simoes, eds. Advaces en Nutricion Acuicola VI. Memorias del VI Simposium Internacional de Nutrcion Acuicola., Cancun, Quintana Roo, Mexico.
  • Fowler, J., Cohen, L., 1990. Practical Statistics for Field Biology. John Wiley & Sons, New York, 227pp.
  • FOX, J.M., LAWRENCE, A.L., & LI-CHAN, E. (1995). Dietary Requirement for Lysine by Juvenile Penaeus vannamei using Intact and Free Amino Acid Sources.  Aquaculture.,  131, 279-290.
  • FOX.C.J. (1993). The Effect of Dietary Chitin on the Growth, Survival and Chitinase Levels in the Digestive Gland of Juvenile Penaeus monodon (Fab.).  Aquaculture,  109, 39-49.
  • Fox, J. 2002. Saltwater Shrimp Teaching Plan: Module: Saltwater Shrimp - Section C Problem Area: Obtaining Seedstock - Spawning to Post-Larval Production.
  • Fox, J. 2003. Lecture 5: Hatchery Design/Construction.
  • Fox, J. and Treece, G. D. 1999. Shrimp nutrition and feed management. Texas A&M University.
  • Frias-Espericueta, M. G., Harfush-Melendez, M. Paez-Osuna, F. 2000. Effects of Ammonia on Mortality and Feeding of Postlarvae Shrimp Litopenaeus vannamei. Bull. Environ. Contam. Toxicol. (2000) 65:98-103 © 2000 Springer-Verlag New York Inc. DOI: 10.1007/s001280000100
  • Funge-Smith, S. & Briggs, M. 2003. The introduction of Penaeus vannamei and P. stylirostris into the Asia-Pacific Region.FAO Regional Office for Asia and the Pacific, Bangkok, Thailand. International Mechanisms for the Control and Responsible Use of Alien Species in Aquatic Ecosystems” 26-29 August 2003, Jinghong, Xishuangbanna, People’s Republic of China. http://www.enaca.org/modules/mydownloads/visit.php?cid=56&lid=157
  • Galgani M.L. and AQUACOP 1989. Influence du regime alimentaire sur la reproduction en captivite de Penaeus indicus. Aquaculture 81: 337–350.
  • GANDY, R.L. & SAMOCHA, T.M. 2001. Development of a closed recirculating postlarvae production system for live bait shrimp in Texas.
  • Garcia, S. and L. Le Reste, 1981. Life cycles, dynamics, exploitation and manage-ment of coastal penaeid shrimp stocks. FAO Fish.Tech.Pap., (203):215 p. Issued also in French.
  • GARCIA, S., & RAZAFINDRAKOTO H. (1989). Etude du cycle vital de P. indicus en zone 1. Actes du Séminaire sur l'aménagement des pêcheries de crevettes cotières du nord - ouest de Madagascar. FAO/UNDP Victoria (Seychelles),  RAF 87/008/DR/50/89/F, 16-22.
  • Garrett, E.S., dos Santos, C.L., & Jahncke, M.L. 1997. Public, Animal, and Environmental Health Implications of Aquaculture. Emerging Infectious Diseases V3(4). http://www.cdc.gov/ncidod/EID/vol3no4/garrett.htm http://www.cdc.gov/ncidod/EID/vol3no4/adobe/garrett.pdf
  • GAUDY, R., & SLOANE, L. (1981).  Effect of Salinity on Oxygen Consumption in Postlarvae of the Penaeid Shrimps Penaeus monodon and P. stylirostris Without and With Acclimation.  Marine Biology.,  65, 297-301.
  • GEHRING, W.R. (1974).  Maturational Changes in the Ovarian Lipid Spectrum of the Pink Shrimp, Penaeus duorarum Burkenroad.  Comp.Biochem.Physiol.,  49A, 511-524.
  • George, M.J., 1979. Taxonomy of Indian Prawns (Penaeidae, Crustacea, Decapoda), in Contribution to marine Sciences Dedicated to Dr. C.V. Kurian, 21-59 p. 
  • GERHARDT, H.V. (1980). Nitrogen Excretion by the Juvenile Prawn Penaeus indicus Milne Edwards at Various Temperatures. South African Journal of Science., 76, 39-40.
  • GLEASON, D.F., & WELLINGTON, G.M. (1988).  Food Resources of Postlarval Brown Shrimp (Penaeus aztecus) in a Texas Salt Marsh.  Marine Biology.,  97, 329-337.
  • GLENCROSS, B.D. (1999).  A Reference Diet for Nutritional Studies of the Giant Tiger Prawn Penaeus monodon. Aquaculture Nutrition.,  5, 33-39.
  • GLENCROSS, B.D., SMITH, D.M., THOMAS.M.R., & WILLIAMS, K.C. (2002).  The Effects of Dietary Lipid Amount and Fatty-Acid Composition on the Digestibility of Lipids by the Prawn, Penaeus monodon.  Aquaculture., 205, 157-169.
  • GLENCROSS, B.D., SMITH, D.M., THOMAS.M.R., & WILLIAMS, K.C. (2002).  Optimising the Essential Fatty Acids in the Diet for Weight Gain of the Prawn, Penaeus monodon. Aquaculture, 204, 85-99.
  • Glossaries:
  • GOLDBLATT, M.J., CONKLIN, D.E., & BROWN, W.D. (1980).  Nutrient Leaching from Coated Crustacean Rations. Aquaculture.,  19, 383-388.
  • Golez, N.V. 1995. Formation of acid sulfate soil and its implications for brackishwater ponds. Aquacultural Engineering, 14, 297–316.
  • GOLZ, W.J., RUSCH, K.A., & MALONE, R.F. (1999).  Modeling the Major Limitations on Nitrification in Floating-bead Filters. Aquaculture Engineering.,  20, 43-61.
  • GONZALEZ-VILA, F.J., MANCHA, A., ALMENDROS, G., MARTIN, F., & DEL-RIO, J.C. (1996). Changes in the Physico-Chemical Characteristics and Lipid Composition in Sediments from Productive Aquaculture Ponds after a Short-Term Shrimp Growth Experiment.  Aquaculture., 144, 121-131.
  • GONZÁLEZ-FÉLIX, M.L., GATLIN111, D.M., LAWRENCE, A.L., & PEREZ-VELAZQUEZ, M. (2002). Effect of Various Dietary Lipid Levels on Quantitative Essential Fatty Acid Requirements of Juvenile Pacific White Shrimp Litopenaeus vannamei.  Journal of the World Aquaculture Society.,  33, (3):330-340.
  • Gopal, C., Paul Raj, R., 1990. Protein requirement of juvenile Penaeus indicus. 1. Food consumption and growth. Proc. Indian Acad. Sci. 99 (5): 401-409.
  • Groth, A., Focken, U. & Becker, K. 2001. Laboratory investigations on the influence of oxygen concentration in water on the feeding behaviour of Tiger shrimp (Penaeus monodon).
    In: Tagungsband. 14. Jahrestagung der Gesellschaft für Tropenökologie, Bremen, Germany, 13.-16.2.2001. S. 54. http://www.uni-hohenheim.de/~www480/docs/stuffbag/22878041.htm
  • GUARY, J.C., KAYAMA, M., MURAKAMI, Y., & CECCALDI, H.J. (1976).  The Effects of a Fat-Free Diet and Compounded Diets Supplemented with Various Oils on Moult, Growth and Fatty Acid Composition of Prawn, Penaeus japonicus Bate. Aquaculture.,  7, 245-254.
  • Guillard, R.R.L. 1975. Culture of phytoplankton for feeding marine invertebrates. pp 26-60. In Smith W.L. and Chanley M.H (eds.) Culture of Marine Invertebrate Animals. Plenum Press, New York, USA.
  • Guillard, R.R.L. and Hargraves, P.E. 1993. Stichochrysis immobilis is a diatom, not a chrysophyte. Phycologia 32: 234-236. http://ccmp.bigelow.org/future/hmenuz.php?daurl=http://ccmp.bigelow.org/CI/L1_family.html , http://www.sccap.bot.ku.dk/media/L.htm
  • Guillard, R.R.L. and Ryther, J.H. 1962. Studies of marine planktonic diatoms. I. Cyclotella nana Hustedt and Detonula confervacea Cleve. Can. J. Microbiol. 8: 229-239.
  • Guillaume, J. 1997. Protein and amino acids. In: D’Abramo L.R., Conklin, D.E. and Akiyama, D.M. (Eds). Crustacean Nutrition, Advances in World Aquaculture, Volume 6. World Aquaculture Society, Baton Rouge, USA, pp.26-50.
  • HAGOPIAN, D.S., & RILEY, J.G. (1998).  A Closer Look at the Bacteriology of Nitrification. Aquacultural Engineering., 18, 223-244.
  • HAJRA, A., GHOSH, A., & MANDAL, S.K. (1988). Biochemical Studies on the Determination of Optimum Dietary Protein to Energy Ratio for Tiger Prawn, Penaeus monodon. (Fab.), Juveniles.  Aquaculture., 71, 71-79.
  • HALDER, D.D. (1978). Induced Maturation and Breeding of Penaeus monodon Fabricius under Brackishwater Pond Conditions by Eyestalk Ablation.  Aquaculture., 15, 171-174.
  • Halide, H., P. Ridd, E.L. Peterson and D. Foster, 2003. Assessing the sediment removal capacity of vegetated and non-vegetated settling ponds in prawn farms. Aquacultural Engineering 27:295-314.
  • Hall, R.M., Young, N. and Kenway, M. 2002. Manual for the Determination of Egg Fertility in Penaeus monodon ( http://www.aims.gov.au/pages/research/mdef/mdef-00.html )
  • Hambrey, J. Hempel , E., & Winther, U. 2002. Shrimp Farming and the Environment. Can Shrimp Farming Be Undertaken Sustainably? A discussion paper designed to assist in the development of sustainable shrimp aquaculture. This document was originally prepared for the World Bank by KPMG Centre for Aquaculture and Fisheries (by Erik Hempel and Ulf Winther) and subsequently revised by John Hambrey (of the Asian Institute of Technology and Econeco), in close collaboration with the World Bank. http://www.enaca.org/Shrimp/Publications/WBfinal.pdf
  • Hameed, A. S., Rao, P. V., Farmer, J. J., Hickman-Brenner, F. W., & Fanning, G. R. 1996. Characteristics and pathogenicity of a Vibrio campbellii-like bacterium affecting hatchery-reared Penaeus indicus (Milne Edwards, 1837) larvae. Aquaculture Research Volume 27 Issue 11 Page 853  - November 1996. doi:10.1046/j.1365-2109.1996.t01-1-00805.x
    http://www.blackwell-synergy.com/links/doi/10.1046/j.1365-2109.1996.t01-1-00805.x/abs/
  • Hameed, A.S. 1997. Quality of eggs produced from wild and captive spawners of Penaeus indicus H. Milne Edwards and their bacterial load. Aquaculture Research 28 (4), 301-303. doi: 10.1046/ j.1365-2109.1997.00852.x
  • Hao, N.V., D.T. Thuy, L.T. Loan, L.T.T. Phi, L.H. Phuoc, H.H.T. Corsin and P. Chanratchakool. Presence of the two viral pathogens WSSV and MBV in three wild shrimp species (Penaeus indicus, Metapenaeus ensis and Metapenaeus lysianassa). Asian Fish. Sci.12(4): 309-325.
  • Harper, C. 2002. Chemical Resistance Of Pathogens. In: Aquaculture. Aquaculture Magazine Jan/Feb 2002.
  • Hatch, U. and H. Kinnucan. 1993. Aquaculture Models and Economics. Westview Press, Boulder, CO. ISBN 0-8133-8434-2.
  • HE, H., LAWRENCE, A.L., & LIU, R. (1992).  Evaluation of Dietary Essentiality of Fat-Soluble Vitamins, A, D, E and K for Penaeid Shrimp (Penaeus vannamei). Aquaculture.,  103, 177-185.
  • HE, H., & LAWRENCE, A.L. (1993). Vitamin C Requirements of the Shrimp Penaeus vannamei.  Aquaculture., 114, 305-316.
  • HEWITT, D.R., & IRVING, M.G. (1990). Oxygen Consumption and Ammonia Excretion of the Brown Tiger Prawn Penaeus esculentus Fed Diets of Varying Protein Content. Comp.Biochem.Physiol., 96A, (3):373-378.
  • HEWITT, D.R. (1992). Response of Protein Turnover in the Brown Tiger Prawn Penaeus esculentus to Variation in Dietary Protein Content.  Comp.Biochem.Physiol.,  103a,  (1):183-187.
  • HILL, B.J., & WASSENBERG, T.J. (1992). Preferences and Amount of Food Eaten by the Prawn Penaeus esculentus over the Moult Cycle.  Aust.J.Mar.Freshw.Res., 43, 727-735.
  • Hillier, A.G. 1984. Artificial conditions influencing the maturation of sub-adult Penaeus monodon. Aquacultue, 36: 179-184.
  • Hishamunda, N. & Manning, P. 2002. Promotion of Sustainable Commercial Aquaculture in Sub-Saharan Africa - Volume 2: Investment and Economic Feasibility. FAO FISHERIES TECHNICAL PAPER 408/2. FOOD AND AGRICULTURE ORGANIZATION OF THE UNITED NATIONS. Rome, 2002. http://www.fao.org/DOCREP/005/Y4206E/y4206e00.htm
  • HOANG, T., LEE, S.Y., KEENAN, C.P., & MARSDEN, G.E. (2002).  Effects of Age, Size, and Light Intensity on Spawning Performance of Pond-Reared Penaeus merguiensis. Aquaculture, 212, 373-382.
  • HOANG, T., BARCHIESIS, M., LEE, S.Y., KEENAN, C.P., & MARSDEN, G.E. (2003).  Influences of Light Intensity and Photoperiod on Moulting and Growth of Penaeus merguiensis Cultured under Laboratory Conditions.  Aquaculture,  216, 343-354.
  • Hoffman, L.C., Swart, J.J. and Brink, D. 1998. Rapid communication: The 1998 production and status of aquaculture in South Africa. ISSN 0378-4738 = Water SA Vol. 26 No. 1 January 2000 http://www.wrc.org.za/publications/watersa/2000/January/jan00_p133.pdf
  • Holthuis, L.B. 1980. FAO SPECIES CATALOGUE, Vol.1 - SHRIMPS AND PRAWNS OF THE WORLD. An Annotated Catalogue of Species of Interest to Fisheries. FAO Fisheries Synopsis No. 125, Volume 1.
  • HOPKINS, S.J., SANDIFER, P.A., & BROWDY, C.L. (1995).  Effect of Two Feed Protein Levels and Feed Rate Combinations on Water Quality and Production of Intensive Shrimp Ponds Operated without Water Exchange.  Journal of the World Aquaculture Society.,  26, (1):93-97.
  • HOPKINS.J.S., DEVOE, M.R., & HOLLAND, A.F. (1995). Environmental Impacts of Shrimp Farming With Special Reference to the Situation in the Continental United States.  Estuaries,  18, (1A):25-42.
  • HOSSAIN, M.M., KADER, M.A., & ISLAM, K.S. (1991).  Study on the Embryonic Development of Penaeus Indicus. H.Milne Edwards,1837 and Temperature-Salinity Effect.  Bangladesh J.Zoology.,  19, (2):223-228.
  • Howerton, R. 2001. Best Management Practices for Hawaiian Aquaculture. Centre for Tropical and Subtropical Aquaculture. Publication No. 148. August 2001. University of Hawaii Sea Grant Extension Services. See at http://www.ctsa.org/PublicationList.aspx http://www.ctsa.org/upload/publication/CTSA_148631672853284080260.pdf
  • HUDSON, D.A., & LESTER, R.J.G. (1992). Relationships Between Water Quality Parameters and Ectocommensal Ciliates on Prawns (Penaeus japonicus Bate) in Aquaculture. Aquaculture, 105, 269-280.
  • HUGHES, D.A. (1966). Investigations of the 'Nursery Areas' and Habitat Preferences of Juvenile Penaeid Prawns in Moçambique.  J.appl.Ecol., 3, 349-354.
  • HUGHES, D.A. (1970). The Southern Limits of Distribution of Commercially Important Penaeid Prawns in South Africa.  Ann.Cape Prov.Mus.(Nat.His)., 8  (PT 9), 79-83.HUNTER, J., & FELLER, R.J. (1987). Immunological Dietary Analysis of two Penaeid Shrimp Species from a South Carolina Tidal Creek.  J.Exp.Mar.Biol.Ecol., 107, 61-70.
  • Hunter, B., G.D. Pruder, and J.A. Wyban. 1987.  Biochemical composition of pond biota, shrimp ingesta, and relative growth of Penaeus vannamei in earthen ponds. Journal of the World Aquaculture Society 18(3):162-174.
  • HUQ, K.A., MOLLAH, M.F.A., ISLAM, M.A., & HOSSAIN, M.A. (1991).  Response and Point of  No Return (PNR) of Penaeid Shrimp Under Artificial Cold Treatment. Indian Journal of Fisheries.,  38, (4):234-236.
  • Iversen, R.T.B., & Brown, C.L. 1992. A Preliminary Business Opportunity Plan for Specific Pathogen-Free Shrimp Culture Facilities in Hawaii and Guam. Aquanic web site.Iversen, R.T.B. and Brown, C.L. 1994. A Preliminary Business Opportunity Plan for Specific Pathogen-Free Shrimp Culture Facilities in Hawaii and Guam. Aquanic web site.
  • JANAKIRAM, B., VENKATESWARLU, Y., REDDY, G.R., & BABU, K.S. (1985).  Oxygen Uptake Rhythm in Penaeid Prawn Penaeus indicus (H.Milne Edwards) in Different Salinities.  Indian Journal of Marine Sciences., 14, 222-223.
  • JAYAPRAKAS, V., & SAMBHU, C. (1996). Growth Response of White Prawn, Penaeus indicus, to Dietary L-Carnitine. Asian Fisheries Science.,  9, 209-219.
  • Jayaprakas, V. & Sambhu, C. 1998. Growth characteristics of white prawn Penaeus indicus (Decapoda - Crustacea) under dietary administration of protein hormones. Indian Journal of Marine Sciences27(3): 389-395.
  • Jayasree, S., Selvam, G. S. and Thomas, S. 2000. DEVELOPMENT OF AN ENZYME-LINKED IMMUNOSORBENT ASSAY (ELISA) FOR AGGLUTININ, AN ANTIBACTERIAL PROTEIN OF THE SHRIMP FENNEROPENAEUS INDICUS. Journal of Crustacean Biology Volume 20, Number 4 April 2000, pages 621–627. http://apt.allenpress.com/aptonline/?request=get-abstract&issn=0278-0372&volume=020&issue=04&page=0621
  • JAYAWARDANE,P. A. A. T., MCLUSKY, D. S. & TYTLER, P. 2002. Factors influencing migration of Penaeus indicus in the Negombo lagoon on the west coast of Sri Lanka. Fisheries Management & Ecology, Volume 9 Issue 6 Page 351 - December 2002. http://www.blackwell-synergy.com/links/doi/10.1046/j.1365-2400.2002.00310.x
  • Johnson, S.K. 1990. Introduction of Exotic Shrimp Quarantine and Disease Inspection Methods. SRAC Publication No. 260. Southern Regional Aquaculture Centre June 1990. ( http://aquanic.org/publicat/usda_rac/efs/srac/260fs.pdf   http://agpublications.tamu.edu/pubs/efish/260fs.pdf )
  • Jolly, C.M. and H.A. Clonts. 1993. Economics of Aquaculture. Food Products Press. Haworth Press, Inc., Binghamton, NY. ISBN 1-56022-020-1
  • Jones, S. 1967. The crustacean fishery resources of India. Symp.Ser.Mar.Biol.Assoc.India, (2) Pt.4: 1328-40, 1967
  • JONES, D.A., KUMLU, M., LE VAY, L., & FLETCHER, D.J. (1997). The Digestive Physiology of Herbivorous, Omnivorous and Carnivorous Crustacean Larvae: a review.  Aquaculture,  155, 285-295.
  • Jones, D. A. & Haolang, Z. 1999. The Survival and Growth of Penaeus indicus Larvae Fed on Artificial and Live Foods. http://www.chinainfo.gov.cn/periodical/gxkxyxb/gxkxy99/gxkxy9903/990301.htm .JOURNAL OF GUANGXI ACADEMY OF SCIENCES. 1999, No. 3 .
  • Jory, D.E. 1997. PENAEID SHRIMP NURSERY SYSTEMS. Aquaculture Magazine, 23 (2): 95-103. http://www.ctu.edu.vn/colleges/aquaculture/shrimp/shrimp2.htm
  • JUAREZ, L.M., LUXEM, A.H., & ROUSE, D.B. (1996). Sampling Shrimp Populations in Hatcheries. Journal of the World Aquculture Society.,  27, (2):218-222.
  • KADER, H.A. (1962).  Ionic Influence on Oxygen Consumption in Metapenaeus monoceros Fabricius. J.Anim.Morph.Physiol., 9, (1):32-40.
  • KANAZAWA, A., TOKIWA, S., KAYAMA, M., & HIRATA, M. (1977). Essential Fatty Acids in the diet of Prawn-1 Effects of Linoleic and Linolenic Acids on Growth. Bulletin of the Japanese Society of Scientific Fisheries., 43,  (9):1111-1114.
  • KANAZAWA, A., TESHIMA, S.-I., & ONO, K. (1979).  Relationship between Essential Fatty Acid Requirements of Aquatic Animals and the Capacity for Bioconversion of Linolenic Acid to Highly Unsaturated Fatty Acids. Comp.Biochem.Physiol., 63B, 295-298.
  • KANAZAWA, A., & TESHIMA, S.-I. (1981). Essential Amino Acids of the Prawn.  Bulletin of the Japanese Society of Scientific Fisheries., 47,  (10):1375-1377.
  • Kelleher, G. and R. Kenchington. 1992. Guidelines for Establishing Protected Areas. IUCN, Gland, Switzerland. 79p.
  • KEYS, S.J. (2002). Aspects of the Biology and Ecology of the Brown Tiger Prawn, Penaeus esculentus, Relevant to Aquaculture. Aquaculture, 62101, 1-10.
  • KHAN, R. N., ARAVINDAN, N. AND KALAVATI, C.2001. DISTRIBUTION OF TWO POST-LARVAE SPECIES OF COMMERCIAL PRAWNS (FENNEROPENAEUS INDICUS AND PENAEUS MONODON) IN A COASTAL TROPICAL ESTUARY. JOURNAL OF AQUATIC SCIENCES. VOLUME 16, NUMBER 2, OCTOBER 2001.
  • KONTARA, E.K.M., COUTTEAU, P., & SORGELOOS, P. (1997). Effect of Dietary Phospholipid on Requirements for and Incorporation of  n- 3 highly Unsaturated Fatty Acids in Postlarval Penaeus japonicus  Bate. Aquaculture.,  158, 305-320.
  • KOSHIO S., TESHIMA, S.-I., KANAZAWA, A., & WATASE, T. (1993).  The Effect of Dietary Protein Content on Growth, Digestion Efficiency and Nitrogen Excrettion of Juvenile Kuruma Prawns, Penaeus japonicus. Aquaculture, 113, 101-114.
  • KOSHIO, S., KANAZAWA, A., & TESHIMA, S.-I. (1992). Search for Effective Protein Combination with Crab Protein for the Larval Kuruma Prawn Penaeus japonicus. Nippon Suisan Gakkaishi.,  58, (6):1083-1089.
  • KOSHIO, S., TESHIMA, S.-I., KANAZAWA, A., & WATASE, T. (1993). The Effect of Dietary Protein Content on Growth, Digestion Efficiency and Nitrogen Excretion of Juvenile Kuruma Prawns, Penaeus japonicus.  Aquaculture., 113, 101-114.
  • KRIPA, V., & LAXMINARAYANA, A. (1993). Influence of Hypoxia on Metabolism and Activity of Penaeus indicus. H.Milne Edwards. CMFRI Spl.Publ., 53, 16-20.
  • Kuljis, A.M., & Brown, C.L. 1992. A Market Study of Specific Pathogen-Free Shrimp. Aquanic web site.
  • KULKARNI, G.K., & NAGABHUSHANAM, R. (1979).  Mobilization of Organic Reserves During Ovarian Developement in a Marine Penaeid Prawn, Parapenaeopsis hardwickii (Miers) (Crustacea, Decapoda, Penaeidae). Aquaculture.,  18, 373-377.
  • KULKARNI, G.K., & NAGABHUSHANAM, R. (1980).  Role of Ovary-Inhibiting Hormone from Eyestalks of Marine Penaeid Prawns (Parapenaeopsis hardwickii) during Ovarian Developmental Cycle. Aquaculture.,  19, 13-19.
  • KUMLU, M., & JONES, D.A. (1993). Optimum Rearing Conditions for Penaeus indicus Larvae Reared in the Laboratory. European Aquaculture Society.Special Publication.,  19, 142-143.
  • Kumlu, M. and Jones D.A. 1995. Salinity tolerance of hatchery-reared post-larvae of Penaeus indicusH. Milne Edwards originating from India. Aquaculture, 130: 287-296.
  • KUMLU, M., & JONES, D.A. (1995). The Effect of Live and Artificial Diets on Growth, Survival, and Trypsin Activity in Larvae of Penaeus indicus. The World Aquaculture Society.,  25, (4):406-415.
  • KUMLU, M., & FLETCHER, D.J. (1997).  The Nematode Panagrellus redivivus as an Alternative Live Feed for Larval Penaeus indicus.  Israeli Journal of Aquaculture.,  49, (1):12-18.
  • KUMLU, M., EROLDOGAN, O.T., & SAGLAMTIMUR, B. (2001).  The Effects of Salinity and Added Substrates on Growth and Survival of Metapenaeus monoceros (Decapoda: Penaeidae) Post-Larvae. Aquaculture, 196, 177-188.
  • Kurian C.V. and V.O. Sebastian (eds) 1975. Prawn and Prawn fisheries of India, Hindustan Publishing Corporation Delhi 280 p.
  • KURMALY, K., YULE, A.B., & JONES, D.A. (1989). Effects of Body Size and Temperature on the Metabolic Rate of Penaeus monodon.  Marine Biology.,  103, 25-30.
  • KUTTY, M.N. (1969).  Oxygen Consumption of the Prawn Penaeus indicus H. Milne Edwards. and Penaeus semisulcatus. (De Haan.). Fao Fisheries Report., 57,  (3):957-969.
  • KUTTY, M.N., MURUGAPOOPATHY, G., & KRISHNAN, T.S. (1971).  Influence of Salinity and Temperature on the Oxygen consumption in Young Juveniles of the Indian Prawn Penaeus indicus.  Marine Biology.,  11, 125-131.
  • LAMBREGTS, J.A.D., THACKER, S.G., & GRIFFIN, W.L. (1993).  Economic Evaluation of Different Stocking Densities for Various Sized Shrimp Farms in Texas.  The World Aquaculture Society.,  24, (1):12-22.
  • Landesman L., 1994, Negative impacts of coastal Aquaculture development World Aquaculture. 25, 12-17 pp
  • LATSCHA, T. (1989).  The Role of Astaxanthin in Shrimp Pigmentation. Advances in Tropical Aquaculture., 9, (319)p325.
  • Le Bitoux, J.F. 1985. Development of Coastal Aquaculture, Phase II. Report on Analysis of Shrimp Culture Trials. KEN/80/018.FAO, Fisheries Department, Rome January 1985
  • LEBER, K.M., & PRUDER, G.D. (1988).  Using Experimental Microcosms in Shrimp Research: The Growth-Enhancing Effect of Shrimp Pond Water.  Journal of the World Aquculture Society., 19,  (4):197-203.
  • LEMAIRE, P., BERNARD, E., MARTINEZ-PAZ, J.A., & CHIM, L. (2002). Combined Effect of Temperature and Salinity on Osmoregulation of Juvenile and Subadult Penaeus stylirostris. Aquaculture.,  209, 307-317.
  • Lemmonier, H., Brizard, R., Mugnier, C. & Herlin, J. 2002. Evolution of shrimp production and pond bottom in a semi-intensive system. In: World Aquaculture V33 (2). June 2002. pp 30-33, 77.
  • LEMOS, D., & RODRIGUEZ, A. (1998). Nutritional Effects on Body Composition, Energy Content and Trypsin Activity of Penaeus japonicus during Early Postlarval Development. Aquaculture.,  160, 103-116.
  • LEMOS, D., EZQUERRA, J.M., & GARCIA-CARREÑO, F.L. (2000).  Protein Digestion in Penaeid Shrimp: Digestive Proteinases, Proteinase Inhibitors and Feed Digestibility. Aquaculture, 186, 89-105.
  • LEMOS, D., & PHAN, V.N. (2001).  Energy Partitioning into Growth, Respiration, Excretion and Exuvia during Larval Development of the Shrimp Farfantepenaeus paulensis. Aquaculture, 199, 131-143.
  • LE RESTE , L. (1978). Biologie d'une population de crevettes P. indicus H. Milne Edwards sur la côte nord-ouest de Madagascar. Travaux Et Documents ORSTOM, 99, 291 p.
  • LE RESTE , L. (1970). Contribution à l'étude du rythme d'activité nocturne de P.indicus et Parapenaeopsis acclivirostris. Cahiers ORSTOM. Série Océanographie, 8(3), 3-10.
  • LE RESTE , L. (1973). Etude de la répartition spatio-temporelle des larves et jeunes postlarves de la crevette P. indicus H. Milne Edwards en baie d'Ambaro (côte nord-ouest de Madagascar)- Contribution à l'étude d'une baie eutrophique tropicale. Cahiers ORSTOM. Série Océanographie, 11(2), 179-189.
  • LE RESTE , L. (1973). Etude du recrutement de la crevette P. indicus H. Milne Edwards dans la zone de Nosy-Be (côte NW de Madagascar) - contribution à l'étude d'une baie eutrophique tropicale. Cahiers ORSTOM. Série Océanographie, 11(2), 171-178.
  • LE RESTE , L. (1971). Rythme saisonnier de la reproduction, migration et croissance des postlarves et des jeunes chez la crevette P. indicus H. Milne Edwards. Cahiers ORSTOM. Série Océanographie, 9(3), 279-292.
  • LE RESTE , L. (1973). Zones de ponte et nurseries de la crevette P. indicus H. Milne Edwards  le long de la côte nord-ouest de Madagascar. Doc. Sci. Centre ORSTOM Nosy-Be, 32, 11 p.
  • LE RESTE , L., MARCILLE , J., & BARBE , F. (1974). Biométrie de quelques crevettes peneides à Madagascar. P. indicus, P. semisulcatus, P. japonicus, Metapenaeus monoceros. Document Mission ORSTOM De NOSY-BE, 46, 29 p.
  • LE VAY, L., RODRIGUEZ, A., KAMARUDIN, M.S., & JONES, D.A. (1993).  Influence of Live and Artificial Diets on Tissue Composition and Trypsin Activity in Penaeus japonicus Larvae.  Aquaculture., 118, 287-297
  • Lewis, R. R. 2002. Mangrove Management and Restoration Dictionary Reference: Macintosh D.J., M.J. Phillips, R.R. Lewis III and B. Clough. 2002. Annexes to the: Thematic Review on Coastal Wetland Habitats and Shrimp Aquaculture. Case studies 1-6. Report prepared under the World Bank, NACA, WWF and FAO Consortium Program on Shrimp Farming and the Environment. Work in Progress for Public Discussion. Published by the Consortium. 211 pages.
  • LIAO, I.C., & MURAI, T. (1986).  Effects of Dissolved Oxygen, Temperature and Salinity on the Oxygen Consumption of the Grass Shrimp, Penaeus monodon1.  The First Asian Fisheries Society., 641-646.
  • Lightner, D.V,. Poulos, B.T. and Pantoja, C.R. 2001. Development of Domesticated, Specific Pathogen Free (SPF) Breeding Line of Penaeus chinensis for Aquaculture Use in the United States A Status Report for the period July 12-2000- July 31, 2001 Grant No. NA86RGO058. Department of Veterinary Science and Microbiology University of Arizona Tucson, AZ 85721.
  • Lightner, D. V. 1999. The Penaeid shrimp viruses TSV, IHHNV, WSSV, and YHV: current status in the Americas, available diagnostic methods, and management strategies. Journal of Applied Aquaculture 9(2):27-52.
  • LIGNOT, J.H., COCHARD, J.C., SOYEZ, C., LEMAIRE, P., & CHARMANTIER, G. (1999). Osmoregulatory Capacity According to Nutritional Status, Molt Stage and Body Weight in Penaeus stylirostris.   Aquaculture., 170, 79-92.
  • LIM, C. (1993).  Effect of Dietary pH on Amino Acid Utilization by Shrimp (Penaeus vannamei). Aquaculture.,  114, 293-303.
  • LIM, C., AKO, H., BROWN, C.L., & HAHN, K. (1997).  Growth Response and Fatty Acid Composition of Juvenile Penaeus vannamei Fed Different Sources of Dietary Lipid. Aquaculture.,  151, 143-153.
  • Lim, C. and D.M. Akiyama. 1995. Nutrient requirements of penaeid shrimp. In Lim, C. (ed) Nutrition and Utilization Technology in Aquaculture. AOCS Pres, Champaign, USA. pp.60-73.
  • LIU, C.Y., TING, Y.Y., & CHUANG, J.L. (1988).  Study on Dietary Protein Level of Big Red-Tailed Prawn, Penaeus penicillatus,  in Artificial Diets.  Bulletin of Taiwan Fisheries Research Inst.,  45, 115-121.
  • LIU, C.Y., & TING, Y.-Y. (1989). A Study on Energy - to - Protein Ratio in Artificial Diet of Red Tail Prawn, Penaeus penicillatus.  Bulletin of Taiwan Fisheries Research Inst., 47,  (197) p205.
  • Lobegeiger, R. 1999. Recirculation Systems. Bribie Island Aquaculture Research Centre. http://www.dpi.qld.gov.au/dpinotes/animals/aquaculture/f99015.html. Produced by: DPI Fisheries, DPI Queensland, 80 Ann Street, Brisbane Q 4000. © The State of Queensland, Department of Primary Industries 1999.
  • Loneragan, N. (2003). Summary – growth, mortality and nursery habitats of red-legged banana prawns in the Joseph Bonaparte Gulf (document tabled at Northern Prawn Fishery Assessment Group meeting February 2003, summarising progress on FRDC Project 97/105 The Growth, Mortality, Movements and Nursery Habitats of Red-legged Banana Prawns (Penaeus indicus) in the Joseph Bonaparte Gulf).
  • Lorenz, T. 1998. A Review of the Carotenoid, Astaxanthin, as a Pigment and Vitamin Source for Cultured Penaeus Prawn
  • Lorenz, R. T.1998. A Review of Spirulina as a Carotenoid and Vitamin Source for Cultured Shrimp. Spirulina Pacifica Technical Bulletin #050.(www.cyanotech.com).
  • Lorenz, R.T. 2000. A Technical Review of Naturose Haematococcus Algae Meal. Naturose Technical Bulletin #050. Cyanotech Corporation. Email: tlorenz@kona.net www.cyanotech.com
  • Losordo, T.M., Masser, M.P., and Rakocy, J.E. 1999. Recirculating Aquaculture Tank Production Systems. A Review of Component Options. SRAC Publication No. 453. http://www.aqua.ucdavis.edu/ http://aquanic.org/publicat/usda_rac/efs/srac/453fs.pdf ; http://aqua.ucdavis.edu/dbweb/outreach/aqua/453FS.PDF ; http://wildlife.tamu.edu/publications/TAEXAqua/453FS.PDF
  • LOSORDO, T.M., & HOBBS, A.O. (2000). Using Computer Spreadsheets for Water Flow and Biofilter Sizing in Recirculating Aquaculture ProductionSystems.  Aquacultural Engineering., 23, 95-102.
  • Lovell, T., 1989. Nutrition and Feeding of Fish. Von Nostrand Reinhold, New York, 260pp.
  • LOYA-JAVELLANA, G.N. (1989). Ingestion Saturation and Growth Responses of Penaeus monodon Larvae to Food Density.  Aquaculture., 81, 329-336.
  • Machin, J. Case Study 1: Zoning of Shrimp Aquaculture. Reference: Macintosh D.J., M.J. Phillips, R.R. Lewis III and B. Clough. 2002. Annexes to the: Thematic Review on Coastal Wetland Habitats and Shrimp Aquaculture. Case studies 1-6. Report prepared under the World Bank, NACA, WWF and FAO Consortium Program on Shrimp Farming and the Environment. Work in Progress for Public Discussion. Published by the Consortium. 211 pages.
  • Macintosh, D. and Zisman, S. 1995.The Status of Mangrove Ecosystems: Trends in the Utilisation and Management of Mangrove Resources. http://iufro.boku.ac.at/iufro/iufronet/d1/wu10700/unpub/macint95.htm
  • Maeda, M., Nogami, K., Kanematsu, S., and Kotani, Y. 1996. Manipulation of Microbial Communities for Improving the Aquaculture Environment. ‘Nansei National Fisheries Research Institute, Ohno, Saeki, Hiroshima 739-04. Japan Sea Farming Association.
  • MAGUIRE, G.B., & ALLAN, G.L. (1992). Effect of Temperature on Growth Food Consumption and Food Conversion of Penaeus monodon, Penaeus plebejus and Metapenaeus macleayi. In: Proc.Aquaculture Nutrition Workshop. (Eds.)., ALLAN, G.L. & DALL, W. NSW Fisheries, Brackish Water Fish Culture Research Station. Salamander Bay, Australia: (pp. 97-99).
  • MAKINOUCHI, S., & PRIMAVERA, J.H. (1987).  Maturation and Spawning of Penaeus indicus using Different Ablation Methods.  Aquaculture., 62 , 73-81.
    MALONE, R.F., & BEECHER, L.E. (2000).  Use of Floating Bead Filters to Recondition Recirculating Waters in Warmwater Aquaculture Production Systems.  Aquacultural Engineering.,   22, (1):57-73.
  • MANGUM, C.P. (1977). The Analysis of Oxygen Uptake and Transport in Different Kinds of Animals.  J.Exp.Mar.Biol.Ecol., 27,  (1):125-140.
  • Manjusha.M., Resmy Varghese., Bright Singh. I. S and Rosamma Philip (1999) . Histological demonstration of White Spot Virus and histopathology in experimentally infected moribund Penaeus indicus H. Milne Edwards in India. Fourth Symposium on Diseases in Asian Aquaculture, Nov –1999, ‘Book of Abstracts’ OP-10.
  • Marsden, G., McGuren, J.M., Sarac, H.Z., Neill, A.R., Brock,I.J., Palmer, C.L. (1991) Nutritional composition of some natural marine feeds used in prawn maturation. Proceeding of the Aquaculture Nutrition Workshop. NSW Fisheries, Brackish Water Fish Culture Research Station, Salamander Bay, Australia.
  • MARTIN, J.-L.M., VERAN, Y., GUELORGET, O., & PHAM, D. (1998).  Shrimp Rearing: Stocking Density, Growth, Impact on Sediment, Waste Output and their Relationships Studied Through the Nitrogen Budget in Rearing Ponds.  Aquaculture,  164, 135-149.
  • MARTIN, T.J., CYRUS, D.P., & FORBES, A.T. (1992).  Episodic Events: The Effects of Cyclonic Flushing on the Ichthyoplankton of St. Lucia Estuary on the Southeast Coast of Africa. Netherlands Journal of Sea Research.,  30, 273-278.
  • MARTINEZ-CORDOVA, L.R., PONCHAS-CORNEJO, M.A., VILLAREAL-COLEMNARES, H., CALDERON-PEREZ, J.A., & NARANJO-PARAMO, J. (1998).  Evaluation of Three Feeding Stategies on the Culture of White Shrimp Penaeus vannamei Boone 1931 in Low Water Exchange Ponds. Aquacultural Engineering., 17, 21-28.
  • MATTHEWS, T.R., SCHROEDER, W.W., & STEARNS, D.E. (1991). Endogenous Rythm, Light and Salinity Effects on Postlarval Brown Shrimp Penaeus aztecus Ives Recruitment to Estuaries.  J.Exp.Mar.Biol.Ecol., 154, 177-189.
  • Mayer, I., and E. McLean. 1995. Bioengineering and biotechnological strategies for reduced waste aquaculture. Water Science and Technology 31(10):85–102. IWA Publishing. Abstract available at: http://www.iwaponline.com/wst/03110/wst031100085.htm
  • MC INTOSH, D., SAMOCHA, T.M., JONES, E.R., LAWRENCE, A.L., MC KEE, D.A., HOROWITZ, S., & HOROWITZ, A. (2000). The Effect of a Commercial Bacterial Supplement on the High-Density Culturing of Litopenaeus vannamei with a Low-Protein Diet in an Outdoor Tank System and no Water Exchange.  Aquacultural Engineering.,  21, 215-227.
  • MC INTOSH, D., SAMOCHA.T.M., JONES, E.R., LAWRENCE, A.L., HOROWITZ, S., & HOROWITZ, A. (2001). Effects of Two Commercially Available Low-Protein Diets (21% and 31%) on Water and Sedement Quality, and on the Production of Litopenaeus vannamei in an Outdoor Tank System with Limited Water Discharge. Aquacultural Engineering., 25, 69-82.
  • MC TIGUE, T.A., & FELLER, R.J. (1989). Feeding of Juvenile White Shrimp Penaeus setiferus: periodic or continuous? Marine Ecology Prog.Ser.,  52, 227-233.
  • Meade, J.W. 1989. Aquaculture Management. Van Nostrand Reinhold, NY. ISBN 0-442-20570-8.
  • MENASVETA, P., PANRITDAM, T., SIHANONTH, P., POWTONGSOOK, S., CHUNTAPA, B., & LEE, P. (2001).  Design and Function of a Closed, Recirculating Seawater System with Denitrification for the Culture of Black Tiger Shrimp Broodstock. Aquacultural Engineering.,   25, 35-49.
  • Mendoza, R. and co-workers. 2001. Fish meal replacement with feather-enzymatic hydrolyzates co-extruded with soya-bean meal in practical diets for the Pacific white shrimp (Litopenaeus vannamei). Aquaculture Nutrition 7(3);143-151.
  • MERICAN, Z.O., & SHIM.K.F. (1995). Apparent Digestibility of Lipid and Fatty Acids in Residual Lipids of meals by Adult Penaeus monodon.  Aquaculture., 133, 275-286.
  • MEYERS, S.P., & BRAND, C.W. (1975).  Experimental Flake Diets for Fish and Crustacea. The Progressive Fish Culturist., 37,  (2):67-72.
  • MIDDLEDITCH, B.S., MISSLER, S.R., & HINES, B. (1980).  Metabolic Profiles of Penaeid Shrimp: Dietary Lipids and Ovarian Maturation. Journal of Chromatography.,  195, 359-368.
  • MILLAMENA, O.M. (1989).  Effect of Fatty Acid Composition of Broodstock Diet on Tissue Fatty Acid Patterns and Egg Fertilization and Hatching in Pond-Reared Penaeus monodon. Asian Fisheries Science.,  2, 127-134.
  • MILLAMENA, O.M., CASALMIR, C.M., & SUBOSA, P.F. (1991).  Performance of Recirculating Systems for Prawn Hatchery and Broodstock Maturation Tanks. Aquacultural Engineering., 10, 161-171.
  • MILLAMENA, O.M., BAUTISTA-TERUEL, M.N., REYES, O.S., & KANAZAWA, A. (1998). Requirements of juvenile marine shrimp, Penaeus monodon (Fabricius) for lysine and arginine. Aquaculture, 164, 95-104.
  • MILLAMENA, O.M., TERUEL, M.B., KANAZAWA, A., & TESHIMA, S. (1999). Quantitative Dietary Requirements of Postlarval Tiger Shrimp, Penaeus monodon, for Histidine, Isoleucine,Leucine,phenylalanine and Tryptophan.  Aquaculture,  179, 169-179.
  • MILLAMENA, O.M. (2002).  Replacement of Fish Meal by Animal By-Product Meals in a Practical Diet for Grow-Out Culture of Grouper Epinephelus coioides.  Aquaculture, 204, 75-84.
  • MOCK, C.R., & MURPHY, M.A. (1974). Techniques for Raising Penaeid Shrimp from the Egg to Postlarvae.  The World Maricultural Society Workshop..,  307,  143-156.
  • Mohan, P.C.; Rao, R.G.; Dehairs, F.1997. Role of Godavari mangroves (India) in the production and survival of prawn larvae.Kluwer Academic Publishers; Hydrobiologia. The Hague; vol. 358, no. 1-3, pp. 317-320; 1997 ISSN: 0018-8158 http://www.dec.ctu.edu.vn/sardi/htqt/literature/1997.html
  • Mohamed, K.H., 1970. Synopsis of biological data on the jumbo tiger prawn Penaeus monodon Fabricius, 1978. FAO Fish.Synop., (93). In FAO Fish.Rep., (57)vol.4:1251-66 (see ref. K032)
  • Mohamed, K.H., 1970. Synopsis of biological data on the Indian prawn Penaeus indicus H. Milne Edwards, 1837. FAO Fish.Synop., (94). In FAO Fish.Rep., (57)vol.4:1267-88 (see ref. K032)
  • MOORE, L.E., SMITH, D.M., & LONERAGAN, N.R. (2000).  Blood Refractive Index and Whole-Body Lipid Content as Indicators of Nutrional Condition for Penaeid Prawns. (Decapoda: Penaeidae). J.Exp.Mar.Biol.Ecol.,  244, 131-143.
  • MOSS, S.M. (1990). Possible Trophic Links in Penaeid Shrimp Aquaculture Ponds.  Uni.of Hawaii, 44,  (2):193-194.
  • MOSS, S.M. (1994). Growth rates, Nucleic Acid Concentrations and RNA/DNA Ratios of Juvenile White Shrimp, Penaeus vannamei Boone, Fed Different Algal Diets.  Exp.Mar.Biol.Ecol.,  182, 193-204.
  • Moss, S. M., and P. J. Crocos. Maturation. Report of the All India Shrimp Hatcheries Association. Available at: http://www.indiashrimphatcheries.com/maturation.html
  • MOSS, S.M., & PRUDER, G.D. (1995). Characterization of Organic Particles Associated with Rapid Growth in Juvenile White Shrimp, Penaeus vannamei Boone, Reared under Intensive Culture Conditions. Exp.Mar.Biol.Ecol.,  187, 175-191.
  • Motoh, H. 1981. Studies on the fisheries biology of the giant tiger prawn, Penaeus monodon in the Philippines. Technical Report No. 7. Aquaculture Department, SEAFDEC, Tigbauan, Iloilo, Philippines. 128 pp.
  • Muluk, C. and C. Bailey. 1996. Social and environmental impacts of coastal aquaculture in Indonesia, p. 193-209. In: C. Bailey, S. Jentof and P. Sinclair (eds.) Aquacultural Development. Social Dimensions of an Emerging Industry. Westview Press.
  • MUTHU, M.S., PILLAI, N.N., & GEORGE, K.V. (1976).  On the Spawning and Rearing of Penaeus indicus in the Laboratory with a Note on the Eggs and Larvae. Indian Journal of Fisheries.,  21, (2):571-574.
  • MUTHU.M.S., PILLAI, N.N., GEORGE, K.V., & LEKSHMI, S. (1976).  Growth of the Indian White Prawn Penaeus indicus in Relation to Stocking Density.  Central Marine Fisheries, 205-208.
  • NATARAJAN, P. (1989).  External Synchronizers of Tidal Activity Rhythms in the Prawns Penaeus indicus and P. monodan. Marine Biology., 101, 347-354.
  • NATARAJAN, P. (1989).  Persistant Locomotor Rhythmicity in the Prawns Penaeus indicus and P. monodan.  Marine Biology.,  101, 339-346.
  • Naylor, R. L., Goldburg, R.J., Mooney, H., Beveridge, M., Clay, J., Folke, C., Kautsky, N., Lubchenco, J., Primavera, J., Williams, M. 1998. Nature's subsidies to shrimp and salmon farming. Science 282:883-884. http://www.env.duke.edu/solutions/documents/science1998.pdf , http://www.uvm.edu/~jfarley/237/isanetreadings/Nature'sSubsidies.doc
  • NEW, M. (1980).  A Bibliography of Shrimp and Prawn Nutrition. Aquaculture.,  21 , 101-128.
  • New, M. 1986. MALAYSIA FEEDS FOR SEABASS AND TIGER PRAWNS FAO. FI:DP/MAL/79/018, Field Document 2. April 1986.
  • New, M.B., Tacon, A.G.J. & Csavas, I. 1995 Farm-made aquafeeds. FAO FISHERIES TECHNICAL PAPERS 343. ISBN 92-5-103597-0. ASEAN-EEC Aquaculture Development and Co-ordination Programme. Food and Agriculture Organisation of the United Nations Rome, 1995.
  • NSW. 2000. Operating the Farm. NSW North Coast Sustainable Aquaculture Strategy. August 2000. North Coast Sustainable Aquaculture Strategy. Land based aquaculture. A NSW Government Initiative (NSW Fisheries, Department of Urban Affairs and Planning, Department of State and Regional Development, Environment Protection Authority, Department of Land and Water Conservation, National Parks and Wildlife Service and NSW Agriculture to encourage sustainable aquaculture in New South Wales ).
  • O'BRIEN, C.J. (1994).  The Effects of Temperature and Salinity on Growth and Survival of Juvenile Tiger Prawns Penaeus esculentus (Haswell).  Exp.Mar.Biol.Ecol., 183, (133)p145.
  • Okauchi, M., Kobayashi, M., and Mizukami, Y. 1997. Water Quality Management by Unicellular Algae in Shrimp Larviculture Ponds. UJNR Technical Report No. 24. Edited by B. Jane Keller, P. Kilho Park, James P. McVey, Kazufumi Takayanagi and Kazumi Hosoya U.S.-Japan Cooperative Program in Natural Resources (UJNR).Texas A&M University Sea Grant College Program TAMU-SG-97-102. http://www.lib.noaa.gov/japan/aquaculture/report24/report24.pdf
  • O'LEARY, C.D., & MATTHEWS, D. (1990).  Lipid Class Distribution and Fatty Accid Composition of Wild and Farmed Prawn, Penaeus monodon (Fabricius). Aquaculture.,  89, 65-81.
  • OMONDI, J.G., & STARK, J.R. (1995).  In Vitro Carbohydrate Digestibility tests in the Indian White Shrimp, Penaeus indicus.  Aquaculture., 139, 315-328.
  • Omondi, G. & Stark, J.R. 1995. Some digestive carbohydrases from the midgut gland of Penaeus indicus and Penaeus vannamei (Decapoda: Penaeidae). Aquaculture (134)1-2 (1995) pp. 121-135.
  • OTOSHI, C.A., MONTGOMERY, A.D., LOOK, A.M., & MOSS, S.M. (2001). Effects of Diet and Water Source on the Nursery Production of Pacific White Shrimp Litopenaeus vannamei.  Journal of the World Aquaculture Society.,  32 ,  (2):243-249.
  • PAIBULKICHAKUL, C., PIYATIRATITIVORAKUL, S., KITTAKOOP, P., VIYAKARN, V., FAST, A.W., & MENASVETA, P. (1998).  Optimal Dietary Levels of Lecithin and Cholesterol for Black Tiger Prawn Penaeus monodon Larvae and Postlarvae.  Aquaculture,  167, 273-281.
  • PALOMINO, G., CONTRERAS, F., SANCHEZ, A., & ROSAS, C. (2001).  Density and Water Exchange-Dependent Growth and Survival of Litopenaeus setiferus Postlarvae.  Journal of the World Aquaculture Society.,  32, (2):167-175.
  • PARADO-ESTEPA, F.D., LIOBRERA, J.A., VILLALUZ, A., & SALDE, R. (1993). Survival and Metamorphosis of Penaeus monodon Larvae at Different Salinity Levels. The Israeli Journal of Aquaculture - Bamidgeh, 45,  (1):3-7.
  • Parado-Estepa, F.D., Ferraris, R.P., Ladja, J.M. and De Jesus, E.G.
    1987. Responses of intermoult Penaeus indicus to large fluctuations in environmental salinity. Aquaculture, 64: 175-184.
  • PEÑAFLORIDA, V.D., & VIRTANEN, E. (1996).  Growth,Survival and Feed Conversion of Juvenile Shrimp (Penaeus monodon) Fed a Betaine/Amino Acid Additive.  The Israeli Journal of Aquaculture - Bamidgeh,  48, (1):3-9.
  • PEÑAFLORIDA, V.D. (1999).  Interaction Between Dietary Levels of Calcium and Phosphorus on Growth of Juvenile Shrimp, Penaeus monodon.  Aquaculture., 172, 281-289.
  • Peñaflorida, V.D. 2002. EVALUATION OF PLANT PROTEINS AS PARTIAL REPLACEMENT FOR ANIMAL PROTEINS IN DIETS FOR PENAEUS INDICUS AND P. MERGUIENSIS JUVENILES. The Israeli Journal of Aquaculture – Bamidgeh 54(3), 2002, 116-124.Aquaculture Department, SEAFDEC, PO Box 256, Iloilo, Philippines
  • Peterson, E.L., 1999. Benthic shear stress and sediment quality. Aquacultural Engineering 21: 85-111.
  • Peterson, E.L., J.A. Harris and L.C. Wadhwa, 2000. CFD modelling pond dynamic processes. Aquacultural Engineering 23: 61-93. Aquacultural Engineering Society Superior Paper Award, 29th January 2002.
  • Peterson, E.P. and M.B. Walker 2001. Effect of speed on Taiwanese paddlewheel aeration. Aquacultural Engineering 26: 129-147.
  • PETERSON, E.L., WADHWA, L.C., & HARRIS, J.A. (2001). Arrangement of Aerators in an Intensive Shrimp Growout Pond Having a Rectangular Shape. Aquacultural Engineering., 25, 51-65.
  • Pendrey, R. C., Loneragan, N. R.,Kenyon R. A. and VanceD. J. Short Communication: Simple morphometric characters, confirmed by gel electrophoresis, separate small juvenile banana prawns (Penaeus indicus and P. merguiensis). Marine and Freshwater Research 51(4) 379 - 379
  • Phillips, M, M. Beveridge, and R. Clarke. 1991. Impact of aquaculture on water resources, p. 568-591. In: D. Brune and J. Tomasso (eds.) Advances in Aquaculture, Volume 3. World Aquaculture Society, Baton Rouge, LA
  • Phillips, M., C. Kwei Lin, and M. Beveridge. 1993. Shrimp culture and the environment: lessons for the world's most rapidly expanding warmwater aquaculture sector, p. 171-197. In: R. Pullin et al. (eds.) Environment and aquaculture in Developing countries. ICLARM Conference Proceedings 31, 359 pages.
  • Phillips M.J., Lin C.K. and Bereridge M.C.M. 1993, shrimp culture and environment lessons from world's most rapidly expending warm water Aquaculture sector. Environmental and Aquaculture in Development Countries (Ed. By R.S.V. Pullin, H. Roenthal and T. L. Madean) I.C.Larm conference proceedings 31, 171-197.
  • Phongdara, A., Chotigeat, W., Chandumpai, A. D., Tanthana, C.F., and Duangtong, P. 1999. Identification of Penaeus merguiensis and Penaeus indicus by RAPD-PCR derived DNA markers. Science Asia 1999, 25 : 143-151.
  • PIEDRAHITA, R.H. (1991). Simulation of Short-Term Management Actions to Prevent Oxygen Depletion in Ponds. The World Aquaculture Society.,  22, (3):157-166.
  • PILLAI, M.C., & CLARK, W.H.J. (1987).  Oocyte Activation in the Marine Shrimp, Sicyonia ingentis. Journal of Experimental Zoology.,  244, 325-329.
  • PILLAY, D. (2000). The Impact of Prawn Effluent On The Macrobenthos of the Amatikulu and Mlalazi Estuaries. Unpublished, Honours Project, University of Natal Durban., 1-35.
  • Poernomo, A. 1992. Site selection for sustainable coastal shrimp ponds. Jakarta, Indonesia, The Central Research Institute for Fisheries, Agency for Agricultural Research and Development, Publication No. PHP/PATEK/004/1992, 38p.
  • PONCE-POLAFOX, J., MARTINEZ-PALACIOS, C.A., & ROSS, L.G. (1997). The Effects of Salinity and Temperature on the Growth and Survival Rates of Juvenile White Shrimp, Penaeus vannamei,(Boone,1931.).  Aquaculture,  157 , (1):107-115.
  • Poupin, J., 1998. - Crustacea Decapoda and Stomatopoda of French Polynesia (Dendrobranchiata, Stenopodidea, Caridea, Thalassinidea, and Stomatopoda, with additions to Astacidea, Palinuridea, Anomura, and Brachyura). Atoll Research Bulletin, September 1998 , 451: 1-62, fig. 1-9.
  • Preston, N.P., Burford, M.A., Jackson C.J., Crocos P.C. (1995) Sustainable shrimp farming in Australia - prospects and constraints. Proceedings of PACON Sustainable Aquaculture 95, Hawaii. pp 308-316
  • Preston, N.P., I Macleod, P.C.R. Rothlisberg and Long B. (1997) Environmentally sustainable aquaculture production - an Australian perspective. In: Developing and Sustaining World Fisheries Resources: The State of Science and Management. Second World Fisheries Congress, Brisbane 1996. Vol 2: Proceedings'. (Eds D A Hancock, D C Smith, A Grant and J P Beumer) pp. 471-477 (CSIRO: Melbourne).
  • Preston N.P., Rothlisberg P.C. 2000a Aquaculture – Environmental impacts. ABARE 2000, Outlook 2000. Proceedings of the National Outlook Conference. Oceans Policy, Fishing and Aquaculture, pp 255-261
  • Preston, N. & Rothlisberg, P. 2001. The environmental management of shrimp farming in Australia. http://www.apfa.com.au/files/environment/csiro_naca_paper.pdf
  • Preston, N.P., P.C. Rothlisberg, M.A. Burford and C.J. Jackson 2002. The Environmental Management of Shrimp Farming in Australia. Report prepared under the World Bank, NACA, WWF and FAO Consortium Program on Shrimp Farming and the Environment. Work in Progress for Public Discussion. Published by the Consortium. 9 pages. http://www.enaca.org/Shrimp/Case/Asia/Asia1.pdf; http://www.apfa.com.au//files/environment/csiro_naca_paper.pdf
  • Primavera, J.H., T. Young and C. de los Reyes.1980. Survival, maturation, fecundity and hatching rate of unablated and ablated P.indicus. Contrib. No. 59, SEAFDEC Aqua. Dept. 14 p.
  • PRIMAVERA, J.H., & POSADAS, R.A. (1981). Studies on the Egg Quality of Penaeus monodon Fabricius, Based on Morphology and Hatching Rates. Aquaculture.,  22, 269-277.
  • PRIMAVERA, J.H. (1978).  Induced Maturation and Spawning in Five-Month-Old Penaeus monodon Fabricius by Eyestalk Ablation.  Aquaculture., 13, 355-359.
  • Primavera, J. 1989. The social, ecological and economic implications of intensive prawn farming. Asian Aquaculture 11(1): 1-6.
  • Primavera, J. 1991. Intensive prawn farming in the Philippines: ecological, social, and economics implications. Ambio 20: 28-33.
  • Primavera, J. 1993. A critical review of shrimp pond culture in the Philippines. Reviews in Fisheries Science 1(2): 151-201.
  • Pruder, G.D., E.O. Duerr, W.A. Walsh, A.L. Lawrence, and W.A. Bray.  1992.  The technical feasibility of pond liners for rearing Pacific white shrimp (Penaeus vannamei) in terms of survival, growth, water exchange rate and effluent water quality.  Aquacultural Engineering 11:183-201.
  • QUACKENBUSH, L.S. (1989).  Vitellogenesis in the Shrimp, Penaeus vannamei: In Vitro Studies of the Isolated Hepatopancreas and Ovary.  Comp.Biochem.Physiol.,  94B, (2):253-261.
  • Rahman, M., S.C. Paul and P.P.G.S.N. Siriwardena. 2002. Farmer training and extension: the key to health management in extensive brackishwater shrimp aquaculture in Bangladesh. p. 313-321. In: J.R. Arthur, M.J. Phillips, R.P. Subasinghe, M.B. Reantaso and I.H. MacRae. (eds.) Primary Aquatic Animal Health Care in Rural, Small-scale, Aquaculture Development. FAO Fish. Tech. Pap. No. 406.
  • Rakocyl, J.E., Losordo, T.M. and Masser. M.P. 1992. Recirculating Aquaculture Tank Production Systems Integrating Fish and Plant Culture. SRAC Publication No. 454, November 1992, Southern Regional Aquaculture Centre. http://ag.arizona.edu/azaqua/extension/Classroom/SRAC/454fs.pdf ( http://ag.arizona.edu/azaqua/extension/Classroom/SRAC/ )
  • RALISON, A. (1987). Basic data on the industrial exploitation of penaeid shrimps of the western coast of Madagascar (south of Cap St André). Doc. OIOSO RAF/79/065,  42-59.
  • 332. RALISON , A. (1981). Biologie de P. indicus M.E. en baie de Narindra (Madagascar). Doc. CNRO (BP 68 Nosy Be- Madagascar), 3, 33 p.
  • RAVID, T., TIETZ, A., KHAYAT M. ,BOEHM E., MICHELIS R. AND LUBZENS, E. 1999. LIPID ACCUMULATION IN THE OVARIES OF A MARINE SHRIMP PENAEUS SEMISULCATUS (DE HAAN). The Journal of Experimental Biology 202, 1819–1829 (1999).
  • Ramasamy, P., Jayakumar, R., & and Brennan, G P. 2000. Muscle degeneration associated with cotton shrimp disease of Penaeus indicus. Journal of Fish Diseases Volume 23 Issue 1 Page 77  - January 2000 doi:10.1046/j.1365-2761.2000.00208.x
  • RAMESH, M.X., & KATHIRESAN, K. (1992). Mangrove Cholesterol in the diet of Penaeid Prawn  Penaeus indicus.  Indian Journal of Marine Sciences., 21, 164-166.
  • Rajyalakshmi T. Taxonomy and Key to the identification of the commercially important Penaeid prawns of India. Cen. Mar. Fish. Res. Inst.
  • READ, G.H.L. (1981). The Response of Penaeus indicus (Crustacea: Penaeidea) to Purified and Compounded Diets of varying Fatty Acid Composition. Aquaculture.,  24, 245-256.
  • Reddy, H.R.V., Rai,  A., and Annappaswamy, T.S. 1999. Essentiality of vitamins for juvenile white shrimp, Penaeus indicus. The Israeli Journal of Aquaculture, 51(3):122-13.
  • Reddy, M., Naik, G., and Annappaswamy, T.S. 1999. Evaluation of the dietary essentiality of vitamins for Penaeus monodon. Aquaculture Nutrition Vol. 5 Issue 4 Page 267 December 1999
  • REGNAULT, M. (1987). Nitrogen Excretion in Marine and Fresh-Water Crustacea.  Biol.Rev., 62, 1-24.
  • Ribeiro, A.L.T. and Jones, D.A. 1996. Live and artificial diets in feeding
    Penaeus indicus post-larvae. Book of Abstracts, World Aquaculture ‘96. 336 p.
  • RIBEIRO, F.A.L.T., & JONES, D.A. (2000). Growth and Ontogenetic Change in Activities of Digestive Enzymes in Fennero Penaeus indicus Postlarvae. Aquaculture Nutrition.,  6, 53-64.
  • Ribeiro, F.A.L.T. and Jones, D.A. 2001. Morphology of the post-larva of Fenneropenaeus indicus (H. Milne Edwards) In: Editors: C.I. Hendry, G. Van Stappen, M.Wille and P. Sorgeloos. Short communications and abstracts of contributions presented at the Larvi 2001 - Fish and Shellfish Larviculture symposium, which was held in Gent, Belgium, September 3-6, 2001.EAS Special Publication No.30, 2001. http://www.easonline.org/publications/en/catSP30.asp
  • Rippingale, R. J. & Payne, M. F. 2001. INTENSIVE CULTIVATION OF A CALANOID COPEPOD Gladioferens imparipes. A GUIDE TO PROCEDURES. Department of Environmental Biology Curtin University of Technology. ISBN 1 74067 070 1. June 2001.
  • RITVO, G., DIXON, J.B., SAMOCHA, T.M., LAWRENCE, A.L., & NEILL, W.H. (1998).  Low-Cost Experimental Unit and Growth Medium for Testing Soil Effects on Shrimp Culture.  Aquacultural Engineering.,  18, 245-249.
  • ROBBINS, K.R., NORTON, H.W., & BAKER, D.H. (1979). Estimation of Nutrient Requirements from Growth Data. Journal of Nutrition., 109, 1710-1714.
  • RODRIGUEZ, A., LEVAY, L., MOURENTE, G., & JONES, D.A. (1994).  Biochemical Composition and Digestive Enzyme Activity in Larvae and Postlarvae of Penaeus japonocus during Herbivorous and Carnivorous feeding.  Marine Biology.,  118, 45-51.
  • Rogers, C.S. Garrison, G., Grober, R., Hills, Z-M., and Franke, M.A. 1994. Coral Reef monitoring manual for the Caribbean and Western Atlantic. http://www.fcsc.usgs.gov/Monitoring_Manual.pdf
  • Rönnbäck, P. 2001. Shrimp aquaculture - State of the art. Swedish EIA Centre, Report 1. Swedish University of Agricultural Sciences (SLU), Uppsala. (ISBN 91-576- 6113-8). http://www-mkb.slu.se/mkb/rakodling/Shrimp-webb.pdf
  • ROSAS, C., SANCHEZ, A., DIAZ, E., SOTO, L.A., GAXIOLA, G., BRITO, R., BAES, M., & PEDROZA, R. (1995).  Oxygen Consumption and Ammonia Excretion of Penaeus setiferus, P. schmitti, P. duorarum and P. notialis Postlarvae Fed Purified Test Diets: Effect of Protein Level on Substrate Metabolism. Aquat.Living Resour.,  8, 161-169.
  • ROSAS, C., MARTINEZ, E., GAXIOLA, G., BRITO, R., DIAZ, E., & SOTO, L.A. (1998).  Effect of Dissolved Oxygen on the Energy Balance and Survival of Peaneus setiferus Juveniles. Marine Ecology Prog.Ser.,  174, 67-75.
  • ROSAS, C., MARTINEZ, E., GAXIOLA, G., BRITO, R., SÁNCHEZ, A., & SOTO, L.A. (1999). The Effect of Dissolved Oxygen and Salinity on Oxygen Consumption, Ammonia Excretion and Osmotic Pressure of Penaeus setiferus (Linnaeus) Juveniles.  Exp.Mar.Biol.Ecol.,  234, 41-57.
  • ROSAS, C., CUZON, G., GAXIOLA, G., PASCUAL, C., TABOADA, G., ARENA, L., & van WORMHOUDT, A. (2002).  An Energetic and Conceptual Model of the Physiological Role of Dietary Carbohydrates and Salinity on Litopenaeus vannamei Juveniles. Jounrnal of Experimental Marine Biology and Ecology.., 268, 47-67.
  • Rosenberry, B. 2004a. Farmed Species. Shrimp News International.10845 Scripps Ranch Boulevard, Suite #4San Diego, CA 92131 USA. http://www.shrimpnews.com , http://www.shrimpnews.com/Species.html
  • ROTHLISBERG, P.C. (1998).  Aspects of Penaeid Biology and Ecology of Relevance to Aquaculture: a Review.  Aquaculture., 164, 49-65.
  • ROUT, R.K., & BANDYOPADHYAY, S. (1999).  A Comparative Study of Shrimp Feed Pellets Processed Through Cooking Extruder and Meat Mincer. Aquacultural Engineering.,  19, 71-79.
  • Ruangpan, L., S. Prapadsorn, and K.  Sangrungruang. 1997. Minimal Inhibitory Concentration of 5 Chemotherapeutants against Vibrio Bacteria and their Transfer of R-plasmids. In T.W. Flegel and I.H. MacRae (eds.), Diseases in Asian Aquaculture lll. Fish Health Section, Asian Fisheries Society, Manila.
  • RUIZ-VERDUGO, L.M., GARCIA-BANUELOS, M.L., VARGAS-ALBORES, F.H.-C., I, & YEPIZ-PLACENCIA, G.M. (1997). Amino Acids and Lipids of the Plasma HDL from the White Shrimp Penaeus vannamei Boone.  Comp.Biochem.Physiol.,  118B,  (1):91-96.
  • RULIFSON, R.A. (1981). Substrate Preferences of Juvenile Penaeid Shrimps in Estuarine Habitats.  Contributions in Marine Science,  24, 35-52.
  • SAMBHU, C., & JAYAPRAKAS, V. (1994). Effect of Hormones on Growth, Food Conversion and Proximate Composition of the White Prawn, Penaeus indicus (Milne Edwards).  Indian Journal of Marine Sciences., 23, 232-235.
  • SAMBHU, C., & JAYAPRAKA, V. (1997).  Dietary Supplementation of Testosterone Propionate on Growth Preformance of White Prawn, Penaeus indicus (M. Edwards).  Indian Journal of Experimental Biology.,  35, 1353-1358.
  • Sammut, J. 2001. Amelioration and Management of Shrimp Ponds in Acid Sulfate Soils: Key Researchable Issues. Australian Centre for International Agricultural Research (ACIAR). School of Geography, The University of New South Wales 2052, Australia.
  • Samocha, T. M. and Lawrence, A. L. 1997. Shrimp Farms’ Effluent Waters, Environmental Impact and Potential Treatment Methods.  UJNR Technical Report No. 24. Edited by B. Jane Keller, P. Kilho Park, James P. McVey, Kazufumi Takayanagi and Kazumi Hosoya U.S.-Japan Cooperative Program in Natural Resources (UJNR) Technical Report No. 24 Texas A&M University Sea Grant College Program TAMU-SG-97-102. http://www.lib.noaa.gov/japan/aquaculture/report24/report24.pdf
  • SAMONTE, G.P.B., AGBAYANI, R.F., & TUMAKIUAN, R.E. (1991). Economic Feasibility of Polyculture of Tiger Shrimp (Penaeus monodon) with Nile Tilapia (Oreochromis niloticus) in Brackishwater Ponds.  Asian Fisheries Science., 4, 335-343.
  • Sankarankutty, C. 1974. "Coastal and estuarine aquaculture: A case for introducing prawn culture in Tanzania." In Msangi and J. J. Griffin, eds., International Conference on Marine Resources Development in Eastern Africa, pp. 26-28. University of Dar es Salaam.
  • SANSANAYUTH, P., PHADUNGCHEP, A., NGAMMONTHA, S., NGDNGAM, S., SUKASEM, P., HOSHINO, H., & TTABUCANON, M.S. (1996). Shrimp Pond Effluent: Pollution Problems And Treatment By Constructed Wetlands.  Wat.Sci.Tech.,  34,  (11):93-98.
  • SANTIAGO, A.C.Jr. (1977).  Successful Spawning of Cultured Penaeus monodon Fabricius after Eyestalk Ablation. Aquaculture.,  11, 185-196.
  • SARAC, Z., THAGGARD, H., SAUNDERS, J., GRAVEL, M., NEILL, A., & COWAN.R.T. (1993). Observations on the Chemical Composition of some Commercial Prawn Feeds and Associated Growth Responses in Penaeus monodon. Aquaculture.,  115, 97-110.
  • SARAC, Z., McMENIMAN, N.P., THAGGARD, H., GRAVEL, M., TABRETT, S., & SAUNDERS, J. (1994). Relationships Between the Weight and Chemical Composition of Exuvia and Whole Body of the Black Tiger Prawn, Penaeus monodon.  Aquaculture,   119, 249-258.
  • Sara, J.R; Gous, R & Forbes A.T. (2004). The Protein Requirement of the Marine Prawn Fenneropenaeus indicus.
  • Sarac, H.Z., McMeniman, N.P., Thaggard, H., Gravel, M.,Tabrett, S., Saunders, J. (1994). Relationships between the weight and chemical composition of exuvia and whole body of the black tigher prawn, Penaeus monodon. Aquaculture 119: 249-258.
  • SEDGWICK, R.W. (1979). Influence of Dietary Protein and Energy on Growth, Food Consumption and Food Conversion Efficiency in Penaeus merguiensis DE MAN.  Aquaculture.,  16, 7-30.
  • SEPPINGS, K.A., & DEMETRIADES, N.T. (1992).  Flood and Feeding Biology of Penaeus indicus in Two Natal Estuaries.  Conference on Aquatic Ecosystems,   Capetown, p-95.
  • Shang, Y.C. 1990. Aquaculture Economics Analysis: An Introduction. The World Aquaculture Society, Baton Rouge, LA ISBN 0-9624529-1-2.
  • SHEEN, S.S., LIU, P.C., CHEN, S.N., & CHEN, J.C. (1994). Cholesterol Requirements of Juvenile Tiger Shrimp (Penaeus monodon ).  Aquaculture., 125, 131-137.
  • Shewbart, K.L., Mies, W.L., Ludwig, P.D. (1972) Identification and quantitative analysis of amino acids present in protein of the brown shrimp Penaeus aztecus. Marine Biology 16: 64-67.
  • SHIAU, S., LIN, K.-P., & CHIOU, C.-L. (1992).  Digestibility of different protein sources by Penaeus monodon raised in brackish water and in sea water.  Journal of Applied Aquaculture.,  1,  (3):47-53.
  • SHIAU, S., & PENG, C.H. (1992).  Utilization of Different Carbohydrates at Different Dietary Protein Levels in Grass Prawn, Penaeus monodon, Reared in Seawater.  Aquaculture.,  101, 241-250.
  • SHIAU, S., & SUEN, G.-S. (1994). The Dietary Requirement of Juvenile Grass Shrimp (Penaeus monodon) for Niacin. Aquaculture.,  125, 139-145.
  • SHIAU, S. (1998).  Nutrient requirements of Penaeid Shrimps. Aquaculture, 164, 77-93.
  • SHIAU, S., & YU, Y.P. (1998).  Chitin but Not Chitosan Supplementation Enhances Growth of Grass Shrimp, Penaeus monodon. American Society for Nutritional Sciences., 128, (5):908-912.
  • SHIAU, S., & CHIN, Y. (1998).  Dietary Biotin Requirement for Maximum Growth of Juvenile Grass Shrimp, Penaeus monodon.  American Society for Nutritional Sciences., 128, 2494-2497.
  • SHIAU, T.M., & LIN, S.J. (1989). Studies on the Three Types of Microparticle Diets for Rearing the Larvae of Red Tail Prawn, Penaeus penicillatus.  Bulletin of Taiwan Fisheries Research Inst.,  43, 27-37.
  • SHYLAJA, K., & RENGARAJAN, K. (1993).  Tolerance Limits of Salinity, Temperature, Oxygen and pH by the Juveniles of Prawn Penaeus indicus H.Milne Edwards. CMFRI Spl.Publ., 54, 64-69.
  • SINGH, S., EBELING, J., & WHEATON, F. (1999).  Water Quality Trials in Four Recirculating Aquaculture System Configurations. Aquacultural Engineering., 20, 75-84.
  • SIVAKUMAR, P., SUGUNA, L., & CHANDRAKASAN, G. (1997).  Purification and Partial Characterization of a Type V like Ollagen from the Muscle of Marine Prawn, Penaeus indicus. Bioscience., 22,  (2):131-141.
  • SKJOLSTRUP, J., NIELSEN, P.H., FRIER, J.-O., & McLEAN E. (1998). Performance Characteristics of Fluidised Bed Biofilters in a Novel Laboratory-Scale Recirculation System for Rainbow Trout: Nitrification Rates, Oxygen Consumption and Sludge Collection. Aquacultural Engineering., 18, 265-276.
  • SMITH, D.M., BURFORD, M.A., TABRETT, S.J., IRVIN, S.J., & WARD, L. (2002).  The Effect of Feeding Frequency on Water Quality and Growth of the Black Tiger Shrimp (Penaeus monodon).  Aquaculture,  207, 125-136.
  • SMITH, L.L., LEE, P.G., LAWRENCE, A.L., & STRAWN, K. (1985). Growth and Digestibility by Three Sizes of Penaeus vannamei Boone: Effects of Dietary Protein Level and Protein Source.  Aquaculture., 46, 85-96.
  • SOLIMAN, A.K., JAUNCEY, K., & ROBERTS, R.J. (1987).  Stability of L-Ascorbic Acid (Vitamin C) and its Forms in Fish Feeds During Processing, Storage and Leaching.  Aquaculture., 60, 73-83.
  • SPAARGAREN, D.H. (1997). Physiological Constraints in Shrimp Cultures.  Comp.Biochem.Physiol., 118A,  (4):1371-1376.
  • SRIDHAR, M., & PEREIRA, S. (1996). A Nutritional Evaluation of some Imported and Indigenous Shrimp Feeds. Fishery Technology., 33,  (1):28-35.
  • SRIRIMAN, K., & NARAYANAN, R.A. (1987).  Culture of Penaeus indicus (Milne-Edwards) with Different Stocking Densities. J.Mar.biol.Ass.India., 29,  (1 & 2):108-114.
  • Stone, Y., Ogburn, D. and Baulch, I. NSW. 2000. Operating the Farm. In: NSW North Coast Sustainable Aquaculture Strategy. August 2000. North Coast Sustainable Aquaculture Strategy. Land based aquaculture. (http://www.fisheries.nsw.gov.au/aqu/reports/ncas.htm). A NSW Government Initiative (NSW Fisheries, Department of Urban Affairs and Planning, Department of State and Regional Development, Environment Protection Authority, Department of Land and Water Conservation, National Parks and Wildlife Service and NSW Agriculture to encourage sustainable aquaculture in New South Wales ). http://www.fisheries.nsw.gov.au/aquaculture/reports/pdf/7_AIDP_o.pdf
  • SUBRAHMANYAM, C.B. (1962). Oxygen Consumption in Relation to Body Weight and Oxygen Tension in the Prawn Penaeus indicus. (Milne Edwards).  Indian Academy of Sciences.,  55, (3):152-161.
  • SUBRAHMANYAM, C.B. (1976). Tidal and Diurnal Rhythms of Locomotory Activity and Oxygen Consumption in the Pink Shrimp, Penaeus duorarum.  Marine Science.,  20, 123-132.
  • SUBRAMANIAN, P., & KRISHNAMURTHY, K. (1986). Effects of Salinity and Body Size on Metabolism and Growth of Juvenile Penaeid Prawns. Journal of Experimental Biology., 24, 773-778.
  • Swann, L. 1992. A Basic Overview of Aquaculture. Aquaculture Extension Specialist. Illinois-lndiana Sea Grant Program. Purdue University. West Lafayette, IN. http://ag.ansc.purdue.edu/aquanic/publicat/state/il-in/as-457.htm
  • SZE, C.P. (1998).  Shrimp Pond Effluents And The Environment: The Malaysian Scenario.  INFOFISH International, 6, 28-34.
  • TACON, A.G.J., & RODRIQUES, A.M.P. (1984). Comparison of Chromic Oxide, Crude Fibre, Polyethylene and Acid-Insoluble Ash as Dietary Markers fpr the Estimation of Apparent Digestibility Coeffients in Rainbow Trout.  Aquaculture, 43, 391-399.
  • Tacon, A.G.J. (1990) Standard methods for the nutrition and feeding of farmed fish and shrimp. The Essential Nutrients. Argent Laboratories Press, Redmond, Washington, USA.
  • Tacon, A. G. J. 1997. 2.1 Aquafeeds and Feeding Strategies. In: SELECTED DEVELOPMENTS AND TRENDS. FAO Fisheries Circular No. 886 FIRI/C886 (Rev.1) Rome, 1997. ISSN 0429-9329. REVIEW OF THE STATE OF WORLD AQUACULTURE.
  • Tacon, A. G. J., M. J. Phillips, and U. C. Barg. 1995. Aquaculture feeds and the environment: the Asian experience. Water Science and Technology 31(10):41–59. IWA Publishing. Abstract available at: http://www.iwaponline.com/wst/03110/wst031100041.htm
  • Tacon, A.G.J. 2002. Thematic Review of Feeds and Feed Management Practices in Shrimp Aquaculture. Report prepared under the World Bank, NACA, WWF and FAO Consortium Program on Shrimp Farming and the Environment. Work in Progress for Public Discussion. Published by the Consortium. 69 pages.
  • Tamaru, C., et al. (eds.). 2000. Spawning and maturation of aquaculture species. Proceedings of the twenty-eighth UJNR Aquaculture Panel Symposium, November 10-12, 1999. Kihei, Hawaii. University of Hawaii Sea Grant College Program. UJNR Technical Report no 28. http://www.lib.noaa.gov/japan/aquaculture/proceedings.htm
  • TAN-FERMIN, J.D., & PUDADERA, R.A. (1989). Ovaria Maturation Stages of the Wild Giant Tiger Prawn, Penaeus monodon Fabricius. Aquaculture.,  77, 229-242.
  • Tave, D. 1995. Selective breeding programs for medium-sized fish farms. FAO Fisheries Technical Paper 352
  • TESHIMA, S.-I., KANAZAWA, A., KOSHIO, S., & HORINOUCHI, K. (1989). Lipid Metabolism of the Prawn Penaeus japonicus during Maturation: Variation in Lipid Profiles of the Ovary and Hepatopancreas.  Comp.Biochem.Physiol.,  92B,  (1):45-49.
  • TESHIMA, S.-I., KANAZAWA, A., & KOSHIO, S. (1993). Recent Developements in Nutrition and Microparticulate Diets of Larval Prawns.  The Israeli Journal of Aquaculture - Bamidgeh,  45, (4):175-184.
  • TESHIMA, S., KANAZAWA, A., & KOSHIO, S. (1992).  Supplemental Effects of Methionine-Enriched Plastein in Penaeus japonicus Diets. Aquaculture.,  101, 85-93.
  • The Trade and Environment Database, Case Studies, Thailand Shrimp Farming. http://www.american.edu/TED/THAISHMP.HTM
  • THOMAS, G., & DIWAN, A.D. (1990).  Changes in Nucleic Acids and Protein Content in Relation to Body Size in the Prawn Penaeus indicus H.Milne Edwards. Proc.Indian Acad.Sci.(Anim.Sci), 99,  (2):125-130.
  • THOMAS, M.M., KATHIRVEL, M., & GEORGE, K.V. (1991).  Laboratory Experiments on Growth of Penaeid Prawns Fed with Artificial Pellets. Marine Biological Ass.of Cochin., 33, 444-450.
  • THONGROD, S., & BOONYARATPALIN, M. (1998). Cholesterol and Lecithin Requirements of Juvenile Banana Shrimp, Penaeus merguiensis. Aquaculture, 161, 315-321.
  • THONNEY, M.L., PALHOF, B.A., DeCARLO, M.R., ROSS.D.A., PEROSIO, D.J., & DUHAIME, D.J. (1985).  Sources of Variation of Dry Matter Digestibility Measured by the Acid Insoluble Ash Marker. Journal of Dairy Science,  68, (3):661-668.
  • THUNJAI, T., BOYD, C.E., & DUBE, K. (2001).  Pond Soil pH Measurement. Journal of the World Aquculture Society.,  32, (2):141-152.
  • TIAN, X., LEUNG, P.-S., & HOCHMAN, E. (1993).  Shrimp Growth Functions and Their Economic Implications. Aquacultural Engineering., 12, 81-96.
  • TIAN, X., LEUNG, P.-S., & LEE, D.J. (2000).  Size Economics and Optimal Scheduling in Shrimp Production: Results from a Computor Simulation Model. Aquacultural Engineering., 22, 289-307.
  • TIRMIZIN, N.M., & TAHERA, Q. (1989). Length-Frequency Distribution and Length-Weight Relationship of some Penaied Prawns. Proc.Pakistan Congr.Zool,  9, 265-272.
  • TOOKWINAS, S. (1998).  The Environmental Impact Of Marine Shrimp Farming Effluents And Carrying Capacity Estimation At Kung Krabaen Bay, Eastern Thialand.  Asian Fisheries Science.,  11, 303-316.
  • TOVAR, A., MORENO, C., MÁNUEL-VEZ, M.P., & GARCÌA-VARGAS, M. (2000).  Environmental Implications of Intensive Marine Aquaculture in Earthen Ponds.  Marine Pollution Bulletin, 40,  (11):981-988.
  • Treece, G.D. 2000? Shrimp Culture. In: Encyclopedia of Aquaculture. pp798-868.
  • Treece, G.D., Yates, M.E. 1993. Laboratory Manual for the Culture of Penaeid Shrimp Larvae. Marine Advisory Service, Sea Grant College Program, Texas A&M University. AMU-SG-88-202(R)
  • Treece, G.D. 1999. Operations Outline for Semi-intensive shrimp farming. Texas A&M University.
  • TRIÑO, A.T., PEÑAFLORIDA, V.D., & BOLIVAR, E.C. (1992).  Growth and Survival of Penaeus monodon Juveniles Fed a Diet Lacking Vitamin Supplements in a Modified Extensive Culture System. Aquaculture.,  101, 25-32.
  • TRIÑO, A.T., & SARROZA, J.C. (1995). Effect of a Diet Lacking in Vitamin and Mineral Supplements on Growth and Survival of Penaeus monodon Juveniles in a Modified Extensive Culture System.  Aquaculture., 136, 323-330.
  • Tripathi, N. K., Annachchatre, A and Patil, A.A. 1998. On the role of Remote Sensing in environmental impact analysis of shrimp farming. http://www.gisdevelopment.net/application/miscellaneous/misc022.htm
  • TROTT, L.A., & ALONGI, D.M. (2001).  The Impact of Shrimp Pond Effluent on Water Quality and Phytoplankton Biomass in a Tropical Mangrove Estuary.  Marine Pollution Bulletin,  40, (11):947-951. FRDC 97/212, Australian Institute of Marine Science.
  • TRUESDALE, G.A., DOWNING, A.L., & LOWDEN, G.F. 1955. The Solubility of Oxygen in Pure Water and Sea-Water.  Journal of appl.Chem.,  5, 53-62.
  • TSAI, S.-J., & CHEN, J.-C. 2002. Acute Toxicity of Nitrate on Penaeus monodon Juveniles at Different Salinity Levels.  Aquaculture,  213, 163-170.
    TSENG, K.-F., SU, H.-M., & SU, M.-S. (1998). Culture of Penaeus monodon in a Recirculating System.  Aquacultural Engineering.,  17, 138-147.
  • UNEP. 2002. CONVENTION ON BIOLOGICAL DIVERSITY. AD HOC TECHNICAL EXPERT GROUP ON MARICULTURE. THE EFFECTS OF MARICULTURE ON BIODIVERSITY. Background document prepared by World Fisheries Trust. UNEP/CBD/AHTEG-MAR/1/2 25 June 2002 . http://www.biodiv.org/doc/meetings/mar/temctre-01/official/temctre-01-02-en.pdf
  • UNEP/CBD/SBSTTA/8/9/Add.2 2002. SUMMARY REPORT OF THE AD HOC TECHNICAL EXPERT GROUP ON MARICULTURE. http://www.biodiversite-sbstta.org/IMG/doc/doc-45.doc Draft
  • UNEP. 1987. Environmental Law Guidelines and Principles: Environmental Impact Assessment, Nairobi, UNEP.
  • UNEP. 2002. Environmental Impact Assessment Training Resource Manual. http://www.unep.ch/etu/publications/EIAMan_2edition_toc.htm .
  • Uwate, K. R., P. Kunatuba, B. Raobati, and C. Tenakanai. 1984. A review of aquaculture activities in the Pacific islands region. Pacific Island Development Program, East-West Center. n.p.
  • VELASCO, M., LAWRENCE, A.L., & CASTILLE, F.L. 1999.  Effect of Variations in Daily Feeding Frequency and Ration Size on Growth of Shrimp, Litopenaeus vannamei (Boone), in Zero-Water Exchange Culture Tanks.  Aquaculture,  179, 141-148.
  • VERGHESE, C.P. 1995. Sustained  Development of Brackish Water Shrimp Farming. Seafood Export Journal., 26,  (4):17-32.
  • VIJAYAN, K.K., & DIWAN, A.D. 1993. Studies on the Physiology of Moulting in the Penaeid Prawn Penaeus indicus. H.Milne Edwards.  CMFRI Spl.Publ.,  56, 66-72.
  • VIJAYAN, K.K., & DIWAN, A.D. 1995. Influence of Temperature, Salinity, pH and Light on Molting and Growth in the Indian white Prawn Penaeus indicus (Crustacea: Decapoda: Penaeidae) under Laboratory Conditions.  Asian Fisheries Science., 8, 63-72.
  • VIJAYAN, K.K., & DIWAN, A.D. 1996. Fluctuations in Ca, Mg and P levels in the Hemolymph, Muscle, Midgut Gland and Exoskeketon During the Moult Cycle of the Indian White Prawn, Penaeus indicus. (Decapoda: Penaeidae).  Comp.Biochem.Physiol., 114A,  (1):91-97.
  • VIJAYAN, K.K., MOHAMED.S., & DIWAN, A.D. (1997). Studies on Moult Staging, Moulting Duration and Moulting Behaviour in Indian White Shrimp Penaeus indicus Milne Edwards (Decapoda: Penaeidae). Aquaculture in the Tropics., 12,  (1):53-64.
  • Vijayan KK, KS Mohamed, AD Diwan. 1997. Studies on moult staging, moulting duration and moulting behaviour in Indian white shrimp Penaeus indicus. Milne Edwards (Decapoda: Penaeidae) J. Aquacult. 12: 53-64.
  • VILLANUEVA, R., NOZAIS, C., & BOLETZKY, S.v. (1996). Swimming Behaviour and Food Searching in Planktonic Octopus Vulgaris cuvier from Hatching to Settlement.  Exp.Mar.Biol.Ecol., 208, 169-184.
  • Vijayan, V., Edwin, L. and Ravindran, K. 2000. Conservation and Management of Marine Fishery Resources of Kerala State, India. Naga, The ICLARM Quarterly (Vol. 23, No. 3) July-September 2000. http://www.worldfishcenter.org/naga/feature2.pdf
  • WASSENBERG, T.J., & HILL, B.J. (1987). Natural Diet of the Tiger Prawns. Penaeus esculentus and P.semisulcatus. Aust.J.Mar.Freshw.Res.,  38, 169-182.
  • WEAR, R.G., & SANTIAGO, A.C.Jr. (1976).  Induction of Maturity and Spawning in Penaeus monodon Fabricus, 1798, by Unilateral Eyestalk Ablation (Decapoda, Natantia). Crustaceana. , 31,  (2):218-220.
  • Whetstone, J.M., Treece, G.D., Browdy, C.L., and Stokes, A.D. 2002. Opportunities and Constraints in Marine Shrimp Farming. SRAC Publication No. 2600. http://srac.tamu.edu/2600fs.pdf
  • White, I., Melville, M.D., Lin, C., van Oploo, P., Sammut, J. and Wilson, B.P. 1995. Identification and management of acid sulphate soils. In: Hazelton, P.A. and Koppi, A.J., ed., Soil technology—applied soil science. A course of
    lectures. 3rd Edition. Australian Soil Science Society, New South Wales Branch and Department of Agricultural Chemistry and Soil Science, University of Sydney, Australia, Chapter 30, 463–497.
  • WICKINS, J.F. (1976).  The Tolerance of Warm-Water Prawns to Recirculated Water. Aquaculture.,  9, 19-37.
  • WILKS, A. (1995).  Prawns, Profit, and Protein.  The Ecologist., 25,  (2/3):120-125.
  • WILLIAMS, A.S., DAVIS, D.A., & ARNOLD, C.R. (1996).  Density-Dependent Growth and Survival of Penaeus setiferus and Penaeus vannamei in a Semi-Closed Recirculating System.  The World Aquaculture Society., 27,  (1):107-112.
  • Wouters, R., Nieto1 J., and Sorgeloos, P. 2000. A REVIEW OF RECENT RESEARCH ON SHRIMP BROODSTOCK NUTRITION AND ARTIFICIAL DIETS. http://202.167.121.158/sardi/AacrabCWare/relating/sh_broodstock.htm
  • WU, C.H. (1989). A Study on the Dietary Protein Requirement of Red Tail Prawn. Penaeus penicillatus Alock.  Bulletin of Taiwan Fisheries Research Inst.,  47, 39-46.
  • Wyban W., G. Martinez, J. Sweeney. 1997. Adding paprika to Penaeus vannamei maturation diet improves nauplii quality. World Aquaculture. June 1997.
  • WYBAN, J.A., PRUDER, G.D., LEBER, K.M., & BURZELL, L. (1989).  Paddlewheel Effects on Shrimp Growth, Production and Crop Value in Commercial Earthen Ponds. Journal of the World Aquaculture Society., 20,  (1):18-23.
  • WYBAN, J.A., WALSH, W.A., & GODIN, D.M. (1995).  Temperature Effects on Growth, Feeding Rate and Feed Conversion of the Pacific White Shrimp. (Penaeus vannamei). Aquaculture, 138, 267-279.
  • YAMADA, S., TANAKA, Y., SAMESHIMA, M., & ITO, Y. (1990). Pigmentation Of Prawn (Penaeus japonicus) with Carotenoids. 1. Effect of Dietary Astaxanthin. -Carotene and Canthaxanthin on Pigmentation. Aquaculture.,  87, (3-4):323-330.
  • YANO, I. (1985). Induced Ovarian Maturation and Spawning in Greasyback Shrimp, Metapenaeus ensis, by Progesterone.  Aquaculture., 47, 223-229.
  • YANO, I., & CHINZEI, Y. (1986).  Ovary is the Site of Vitellogenin Synthesis in Kuruma Prawn, Penaeus japonicus. Aquaculture., 213-218.
  • YANO, I., KANNA, R.A., OYAMA, R.N., & WYBAN, J.A. (1988).  Mating Behaviour in the Penaeid Shrimp Penaeus vannamei.  Marine Biology.,  97, 171-175.
  • YANO, I. (1995). Final Oocyte Maturation, Spawning and Mating in Penaeid Shrimp.  Exp.Mar.Biol.Ecol.,  193, 113-118.
  • Yap, W.G. & Landoy, R.J. 1993. SHRIMP CULTURE DEVELOPMENT ISLAMIC REPUBLIC OF IRAN CONSULTANT REPORT TABLE OF CONTENTS. A report prepared for the project ‘Shrimp Culture Development’of the Iranian Fisheries Company (Shilat) of the Islamic Republic of Iran. FOOD AND AGRICULTURE ORGANIZATION OF THE UNITED NATIONS.FI:DP/IRA/89/041 Field Document 1.Rome, 1993.
  • Ying, Q. J., Adelman, I.R., Maher, J., Skurla, J.1997. Evaluation of Recirculating Aquaculture Systems. Minnesota Department of Agriculture and University of Minnesota. http://www.mda.state.mn.us/DOCS/MKTG/Aquacult/Recirc.htm
  • ZENG, Y., & WAN, X. (1999).  A New Mathematical Model and its Application to the Growth of Crustaceans. Crustaceana.,  73, (5):565-573.
  • ZHU, S., & CHEN, S. (1999).  An Experimental Study on Nitrification Biofilm Performance Using a Series Reactor System. Aquacultural Engineering., 20,  245-259.
  • ZHU, S., & CHEN, S. (2001).  Impacts of Reynolds Number on Nitrification Biofilm Kinetics.  Aquacultural Engineering.,  24, 213-229.
  • ZHU, S., & CHEN, S. (2001).  Effects of Organic Carbon on Nitrification Rate in Fixed Film Biofilters. Aquacultural Engineering., 25, 1-11.
  • ZHU, S., & CHEN, S. (2002).  The Impact of Temperature on Nitrification Rate in Fixed Film Biofilters. Aquacultural Engineering., 26, 221-237.
  • ZIEMANN, D.A., WALSH, W.A., SAPHORE, E.G., & FULTON-BENNETT, K. (1992).  A Survey Of Water Quality Characteristics Of Effluent From Hawaiian Aquaculture Facilities.  Journal of the World Aquaculture Society.,  23, (3):180-191.