[55]Kreeger D A, Langdon C J. Digestion and assimilation of protein by Mytilus trossulus. (Bivalvia: Molluscs) fed mixed carbohydrate /protein microcapsules, Mar Biol,1994, 118:479-488
[2]
[56]Southgate P C, Lee P S, Nell J A. Preliminary assessment of a microencapsulated diet for larval culture of the Syney rock oyster, Saccostrea commercialis (Iredale & Roughley).Aquaculture, 1992, 105: 345 - 352
[3]
[1]Jones D A, Munford J G, Gabbot P A. Microcapsules as artificial food particles for aquatic filter feeders. Nature (London), 1974, 247:233-235
[4]
[2]Jones D A, Kanazawa A, Ono K. Studies on the nutritional requirement of the larval stages of Penaeus japonicus using microencapsulated diets. Marine Biology, 1979, 54:261-267
[5]
[3]Kanazawa A, Teshima S, Sasada H. Culture of prawn larvae with micro-particulate diets. Bul Jpn Soc Fish, 1982, 48(2):195-199
[6]
[4]Jones D A, Kurmaly K, Arshard A. Penaeid shrimp hatchery trials using microencapsulated diets. Aquaculture, 1987, 64:133-146
[7]
[5]Kurmaly K, Jones D A, Yule A B, et al. Comparative analysis of the growth and survival of Penaeus monodon (Fabricius) larvae, from protozoea 1 to postlarva 1, on live feeds, artificial diets and on combinations of both.Aquaculture, 1989, 81:27-45
[8]
[6]Clark J, Jones D A, Kurmaly K. Penaeid larval rearing on microencapsulated feeds. In : Volcher C M, Volcher A (Editors). 1st Inter-American congress of Aquaculture.Brazil: Salvador, 1986, 14-21
[9]
[7]Ottogali L. Total substitution of microparticules for algae for Penaeus stylirostris larval rearing in New Caledonia. Journal of the World Aquaculture Society, 1991, 22: 46A
[10]
[8]Le Vay L, Rodriguez A, Mourente G, et al. Influence of diet on digestive activity and growth of Penaeus japonicus larvae-implications for nutritional studies. Special Publication,European Aquaculture Soc, 1993, 19:145
[11]
[9]Kurmaly K, Jones D A, Yule A B. Acceptability and digestion of diets fed to larval stages of Homarus gammarus and their role of dietary conditioning behavior. Marine Biology, 1990, 106:181-190
[12]
[10]Bautista M N, Millamena O M, Kanazawa A. Use of kappa-carrageenan microbound diet (C-MBD) as feed for Penaeus monodon larvae. Marine Biology, 1989, 103:169-173
[13]
[11]Toshiaki I, Yukinori T. Survival of larval giant tiger prawns Penaeus monodon after addition of killed vibrio cells to a microencapsulated diet. Journal of Aquatic Animal Health,1991, 3:151-152
[14]
[12]Le Vay L, Rodriguez A, Kamarudin M S, et al. Influence of live and artificial diets on tissue composition and trypsin activity in Penaeus japonicus larvae. Aquaculture, 1993,118:287-297
[15]
[13]Villamar D F, Langdon C J. Delivery of dietary components to larval shrimp ( Penaeus vannamei ) by means of complex microcapsules. Marine biology, 1993, 115:635-642
[16]
[14]Teshima S I, Kanazawa A. Effects of several factors on growth and survival of the prawn larvae reared with microparticulate diets. Bulletin of Japanese Society of Scientific Fisheries, 1983, 49(12) : 1 893-1 896
[17]
[15]Marin-Magan V, Canavate J P. Fluorometric determination of selectivity between live and inert food by Penaeus japonicus larvae. Aquaculture, 1995, 134: 307-311
[18]
[16]Kamarudin M S, Jones D A, Le Vay L. Ontogenetic change in digestive enzyme activity during larval development of Macrobrachium rosenbergii. Aquaculture, 1994, 123:323-333
[19]
[17]Jones D A, Kamarudin M S, Le Vay L. The potential for replacement of live feeds in larval culture. J World Aquacult Soc, 1993, 24:199-210
[20]
[18]Pan B S, Lan C C, Hung T Y. Changes in composition and proteolytic enzyme activities of Artemia during early development. Comp Biochem Physiol, 1991, 100A: 725-730
[21]
[19]Hjelmeland K, Pedersen B H, Nilssen E M. Trypsin content in intestines of herring larvae, Clupea harengus, ingesting inert polystyrene spheres or live crustacean prey. Marine Biology, 1988, 98:331-335
[22]
[20]Munilla-Moran R, Stark J R, Barbour A. The role of enzyme in digestion in cultured turbot larvae Scophthalmus maximus.Aquaculture, 1990, 88:337-350
[23]
[21]Walford L, Lim T M, Lam T J. Replacing live foods with microencapsulated diets in the rearing of seabass Lates calcarifer larvae :do the larvae ingest and digest protein-membrane microcapsules. Aquaculture, 1991, 92:225-235
[24]
[22]Fernandez-Diaz C, Pascual E, Yufera M. Feeding behavior and prey size selection of gilthead seabream, Sparus aurata L, larvae fed on inert and live food. Mar Biol, 1994, 18:323-328
[25]
[23]Yufera M, Fernandez-Diaz C, Pascual E. Feeding rates of gilthead seabream (Sparus aurata L) , larvae on microcapsules. Aquaculture, 1995, 134:257-268
[26]
[24]Yufera M, Pascual E, Polo A, et al. Effect of starvation on the feeding ability of gilthead seabream ( Sparus aurata )larvae at first feeding. J Exp Mar Biol Ecol, 1993, 169:252-272
[27]
[25]Sarasquete M C, Polo A, Yufera M. Histology and histochemistry of the development of the digestive system of larval gilthead seabream (Sparus aurata L) . Aquaculture,1995, 130:79-92
[28]
[26]Fernandez-Diaz C, Yufera M. Capacity of gilthead seabream (Sparus aurata L) , larvae to break down dietary microcapsules. Aquaculture, 1995, 134:269-278
[29]
[27]Fernandez-Diaz C, Yufera M. Detecting growth in gilthead seabream""(Sparus aurata L) , larvae fed microcapsules.Aquaculture, 1997,153:93-102
[30]
[28]Person Le Ruyet J, Alexandre J C, Theband L, et al.Marine fish of larvae feeding: Formulated diets or live prey.J World Aquacul Soc, 1993, 24:211-224
[31]
[29]Kolkovski S, Tandler A. Why microdiets are still inadequate as a viable alternative to live zooplankter for developing marine fish larvae. Spes Publ Eur Aquaculture Soc, 1995,24:265-266
[32]
[30]Yufera M, Pascual E, Fernandez-Diaz C. A highly efficient microencapsulated food for rearing early larvae of marine fish. Aquaculture, 1999, 177:249-256
[33]
[31]Carvalho A P, Escalre A M, Oliva Tedes A, et al. First feeding of common carp larvae on diets with high levels of protein hydrolysates. Aquaculture, 1997, Int 5:361-367
[34]
[32]Walford J, Lam T J. Development of digestive tract and proteolytic enzyme activity in seabass (Lates calarifer)larvae and juvenile. Aquaculture, 1993, 109:187-205
[35]
[33]Lopez-Alvarado J, Langdon C J, Teshima S I, et al. Effect of coating and encapsulation of crystalline amino acid on leaching in larval feeds. Aquaculture, 1994, 122:335-346
[36]
[34]Lauff M, Hofer R. Proteolytic enzymes in fish development and the importance of dietary enzymes. Aquaculture, 1984,37: 335-346
[37]
[35]Segner J, Roesch R, Schmadt H, et al. Digestive enzymes in larval Coregonus lavaretus. Journal of Fish Biology,1989, 35:249-253
[38]
[36]Joan Holt G. Feeding larval red drum on microparticulate diets in a closed recirculating water system. Journal of the World Aquaculture Society, 1993, 24 (2): 225-230
[39]
[37]Hjelmeland K, Pedersen B H, Nilssen E M. Trypsion content in intestines of herring larvae, Clupea harengus,ingesting inert polystyrene spheres or live crustacea prey.Mar Biol, 1988, 98:331-335
[40]
[38]Cahu C L, Zambonino Infante J L, Le Gall M M, et al.Early weaning of seabream: are digestive enzyme limiting?Spec Publ. European Aquaculture Society. 1995,24:268-271
[41]
[39]Fluchter J, Substance essential for metamorphosis of fish larvae extracted from Artemia. Aquaculture, 1982, 27:83-85
[42]
[40]Fluchter J, Rembold H. Soluble factor essential for metamorphosis of coregonid larvae has been partially purified from Artemia salina. Arch Hydrobiol, 1986, 22:197-202
[43]
[41]Kolkovski S, Tandler A, Izquierdo M S. Effect of live food and dietary dietary digestive enzymes on the efficiency of microdiets for seabass ( Dicentrarchus labrax ) larvae.Aquaculture, 1997, 148:313-322
[44]
[42]Dabrowski K, Glogowski J. A study of the application of proteolitic enzymes to fish food. Aquaculture, 1997, 12:349-360
[45]
[43]Kolkovski S, Tandler A, Kissil G W M, et al. The dietary exogenous digestive enzyme on ingestion, assimilation,growth and survival of gilthead seabream larvae. Fish Physiology and Biochemistry, 1993, 12:203-209
[46]
[44]Baragi V, Lovell R T. Digestive enzyme activities in striped bass from first feeding through larvae development.Transaction of the American Fisheries Society, 1986, 115:478-484
[47]
[45]Chu Fu-Lin E, Ozkizilcik S. Acceptability of complex microencapsulated diets by striped bass ( Morone saxatilis )larvae. Journal of Experimental Marine Biology and Ecology,1999, 237:1-9
[48]
[46]Webster C D, Lovell R T. Comparison of live brine shrimp nauplii and nonliving diets as first food for striped bass larvae. Progressive Fish-Culturist, 1990, 52:171-175
[49]
[47]Cousin J C B, Baudjn Laurencin F, Gabaudan J. Ontogeny of enzymatic activities in fed and fasting turbot, Scophthalmus maximus L. Journal of Fish Biology, 1987, 30:15-33
[50]
[48]Khemis I B, Noue J I, Audet C. Feeding larvae of winter flounder Pseudopleuronectes americanus (Walbaum) with live prey or microencapsulated diet :linear growth and protein, RNA and DNA content. Aquaculture Research,2000, 31:377-386
[51]
[49]Thshima S, Kanazawa A, Sakamoto M. Micro-particulate diets for the larvae of aquatic animals. Mini Rev Data File Fish Res, 1982, 2:67-86
[52]
[50]Numaguchi K, Nell J A. Effect of gelatin acacia microcapsules and algal meal supplementation of algal diets on growth rates of Sydney rock oyster Saccostrea commercialis (Iredale & Roughley) larvae. Aquaculture, 1991, 94:65-78
[53]
[51]ChuF-L E, Webb K L, Hepworth D, et al. The acceptability and digestibility of microeapsules by larvae of Crassostrea virginica. J Shellfish Res, 1982: 2:29-34
[54]
[52]ChuF-L E, Webb K L, Hepworth D, et al. Metamorphosis of larvae of Crassostrea virginica fed microcapsules diets.Aquaculture, 1987, 64:185-197
[55]
[53]Langdon C J. Preparation and evaluation of protein microcapsules for a marine suspension-feeder, the Pacific oyster Crassostrea gigas. Mar Biol, 1989, 102:217-224
[56]
[54]Langdon C J, DeBevoise A E. Effect of microcapsule type on delivery of dietary protein to a marine suspension-feeder, the oyster Crassostrea gigas. Mar Biol, 1990, 105:437-443
[57]
[57]Teshima S, Kanazama A, Sakamoto M. Microparticulate diets for the larvae of aquatic animals. Mini Review and Data File of Fisheries Research, 1982, 2:67-86
[58]
[58]Yufera M, Kolkovski S, Fernandez-Diaz C, et al. Microencapsulated diets for fish larvae-current state of art,Bioencapsulation Ⅶ and Microencapsulation Symposium Proceedings. Maryland: NSA, 1998.
[59]
[59]Lindner P, Eshel A, Kolkovski S, et al. Proteolysis by juvenile sea bass Dicentrarchus labrax gastrointestinal enzymes as a method for the evaluation of feed proteins. Fish Physiol Biochem, 1995, 14:399-407
