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仔稚鱼营养需要及生长发育的营养调控

DOI: 10.3969/j.issn.1006-267x.2014.04.003

Keywords: 仔稚鱼,营养需要,营养调控

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Abstract:

亲鱼期及开口期某些营养素的缺乏是导致人工育苗过程中仔稚鱼大量死亡以及发育不良的重要原因。因此,系统地研究从亲鱼期至仔稚期的营养需要及营养素对仔稚鱼生长发育的调控对于保证水产养殖业的快速发展具有重要作用。本文旨在从仔稚鱼亲鱼期和仔稚期的营养需要以及仔稚期的营养调控对其生长发育及后期代谢的影响等方面综述近年来国内外的最新研究进展。

References

[1]  IZQUIERDO M S,FERNáNDEZ-PALACIOS H,TACON A G J.Effect of broodstock nutrition on reproductive performance of fish[J].Aquaculture,2001,197(1/2/3/4):25-42.
[2]  FURUITA H,TANAKA H,YAMAMOTO T,et al.Effects of n-3 HUFA levels in broodstock diet on the reproductive performance and egg and larval quality of the Japanese flounder,Paralichthys olivaceus[J].Aquaculture,2000,187(3/4):387-398.
[3]  FURUITA H,YAMAMOTO T,SHIMA T,et al.Effect of arachidonic acid levels in broodstock diet on larval and egg quality of Japanese flounder Paralichthys olivaceus[J].Aquaculture,2003,220(1/2/3/4):725-735.
[4]  LI Y,CHEN W,SUN Z,et al.Effects of n-3 HUFA content in broodstock diet on spawning performance and fatty acid composition of eggs and larvae in Plectorhynchus cinctus[J].Aquaculture,2005,245(1/2/3/4):263-272.
[5]  ZAKERI M,KOCHANIAN P,MARAMMAZI J,et al.Effects of dietary n-3 HUFA concentrations on spawning performance and fatty acids composition of broodstock,eggs and larvae in yellowfin sea bream,Acanthopagrus latus[J].Aquaculture,2011,310(3/4):388-394.
[6]  LIANG M,LU Q,QIAN C,et al.Effects of dietary n-3 to n-6 fatty acid ratios on spawning performance and larval quality in tongue sole Cynoglossus semilaevis[J].Aquaculture Nutrition,2013,DOI:10.1111/anu.12054.
[7]  YúFERA M,DARIAS M J.The onset of exogenous feeding in marine fish larvae[J].Aquaculture,2007,268(1/2/3/4):53-63.
[8]  ARAG?O C,CONCEI??O L,FYHN H,et al.Estimated amino acid requirements during early ontogeny in fish with different life styles:gilthead seabream (Sparus aurata) and Senegalese sole (Solea senegalensis)[J].Aquaculture,2004,242(1/2/3/4):589-605.
[9]  SAAVEDRA M,CONCEI??O L,HELLAND S,et al.Effect of lysine and tyrosine supplementation in the amino acid metabolism of Diplodus sargus larvae fed rotifers[J].Aquaculture,2008,284(1/2/3/4):180-184.
[10]  CHEN B,QIN J,KUMAR M,et al.Ontogenetic development of the digestive system in yellowtail kingfish Seriola lalandi larvae[J].Aquaculture,2006,256(1/2/3/4):489-501.
[11]  QU M,DING S,XU X,et al.Ontogenetic development of the digestive system and growth in coral trout (Plectropomus leopardus)[J].Aquaculture,2012,334-337:132-141.
[12]  YANG R,XIE C,FAN Q,et al.Ontogeny of the digestive tract in yellow catfish Pelteobagrus fulvidraco larvae[J].Aquaculture,2010,302(1/2):112-123.
[13]  PEREZ-CASANOVA J C,MURRAY H M,GALLANT J W,et al.Development of the digestive capacity in larvae of haddock (Melanogrammus aeglefinus) and Atlantic cod (Gadus morhua)[J].Aquaculture,2006,251(2/3/4):377-401.
[14]  GISBERT E,GIMéNEZ G,FERNáNDEZ I,et al.Development of digestive enzymes in common dentex Dentex dentex during early ontogeny[J].Aquaculture,2009,287(3/4):381-387.
[15]  PRADHAN P K,JENA J,MITRA G,et al.Ontogeny of the digestive enzymes in butter catfish Ompok bimaculatus (Bloch) larvae[J].Aquaculture,2013,372-375:62-69.
[16]  BABAEI S S,ABEDIAN K A,NAZARI R,et al.Developmental changes of digestive enzymes in Persian sturgeon (Acipenser persicus) during larval ontogeny[J].Aquaculture,2011,318(1/2):138-144.
[17]  KV?LE A,MANGOR-JENSEN A,MOREN M,et al.Development and characterisation of some intestinal enzymes in Atlantic cod (Gadus morhua L.) and Atlantic halibut (Hippoglossus hippoglossus L.) larvae[J].Aquaculture,2007,264(1/2/3/4):457-468.
[18]  KUROKAWA T,IINUMA N,UNUMA T,et al.Development of endocrine system regulating exocrine pancreas and estimation of feeding and digestive ability in Japanese eel larvae[J].Aquaculture,2004,234(1/2/3/4):513-525.
[19]  VILLALTA M,ESTéVEZ A,BRANSDEN M P,et al.The effect of graded concentrations of dietary DHA on growth,survival and tissue fatty acid profile of Senegal sole (Solea senegalensis) larvae during the Artemia feeding period[J].Aquaculture,2005,249(1/2/3/4):353-365.
[20]  ROO F J,HERNáNDEZ-CRUZ C M,SOCORRO J A,et al.Effect of DHA content in rotifers on the occurrence of skeletal deformities in red porgy Pagrus pagrus (Linnaeus,1758)[J].Aquaculture,2009,287(1/2):84-93.
[21]  NEGM R K,COBCROFT J M,BROWN M R,et al.The effects of dietary vitamin A in rotifers on the performance and skeletal abnormality of striped trumpeter Latris lineata larvae and post larvae[J].Aquaculture,2013,404-405:105-115.
[22]  BROWN M R,DUNSTAN G A,NICHOLS P D,et al.Effects of α-tocopherol supplementation of rotifers on the growth of striped trumpeter Latris lineata larvae[J].Aquaculture,2005,246(1/2/3/4):367-378.
[23]  BETANCOR M B,ATALAH E,CABALLERO M,et al.α-Tocopherol in weaning diets for European sea bass (Dicentrarchus labrax) improves survival and reduces tissue damage caused by excess dietary DHA contents[J].Aquaculture Nutrition,2011,17(2):e112-e122.
[24]  MERCHIE G,LAVENS P,VERRETH J,et al.The effect of supplemental ascorbic acid in enriched live food for Clarias gariepinus larvae at startfeeding[J].Aquaculture,1997,151(1/2/3/4):245-258.
[25]  NGUYEN V T,SATOH S,HAGA Y,et al.Effect of zinc and manganese supplementation in Artemia on growth and vertebral deformity in red sea bream (Pagrus major) larvae[J].Aquaculture,2008,285(1/2/3/4):184-192.
[26]  TILLNER R,R?NNESTAD I,HARBOE T,et al.Hormonal control of tryptic enzyme activity in Atlantic cod larvae (Gadus morhua):involvement of cholecystokinin during ontogeny and diurnal rhythm[J].Aquaculture,2013,402-403:133-140.
[27]  CAHU C,ZAMBONINO I J,ESCAFFRE A M,et al.Preliminary results on sea bass (Dicentrarchus labrax) larvae rearing with compound diet from first feeding.Comparison with carp (Cyprinus carpio) larvae[J].Aquaculture,1998,169(1/2):1-7.
[28]  CAHU C,R?NNESTAD I,GRANGIER V,et al.Expression and activities of pancreatic enzymes in developing sea bass larvae (Dicentrarchus labrax) in relation to intact and hydrolyzed dietary protein; involvement of cholecystokinin[J].Aquaculture,2004,238(1/2/3/4):295-308.
[29]  PINTO W,FIGUEIRA L,RIBEIRO L,et al.Dietary taurine supplementation enhances metamorphosis and growth potential of Solea senegalensis larvae[J].Aquaculture,2010,309(1/2/3/4):159-164.
[30]  PINTO W,FIGUEIRA L,SANTOS A,et al.Is dietary taurine supplementation beneficial for gilthead seabream (Sparus aurata) larvae?[J].Aquaculture,2013,384-387:1-5.
[31]  BUCHET V,ZAMBONINO I J L,CAHU C.Effect of lipid level in a compound diet on the development of red drum (Sciaenops ocellatus) larvae[J].Aquaculture,2000,184(3/4):339-347.
[32]  COPEMAN L A,PARRISH C C,BROWN J A,et al.Effects of docosahexaenoic,eicosapentaenoic,and arachidonic acids on the early growth,survival,lipid composition and pigmentation of yellowtail flounder (Limanda ferruginea):a live food enrichment experiment[J].Aquaculture,2002,210(1/2/3/4):285-304.
[33]  FURUITA H,KONISHI K,TAKEUCHI T.Effect of different levels of eicosapentaenoic acid and docosahexaenoic acid in Artemia nauplii on growth,survival and salinity tolerance of larvae of the Japanese flounder,Paralichthys olivaceus[J].Aquaculture,1999,170(1):59-69.
[34]  FURUITA H,TANAKA H,YAMAMOTO T,et al.Effects of eicosapentaenoic and docosahexaenoic acids on growth,survival and brain development of larval Japanese flounder (Paralichthys olivaceus)[J].Aquaculture,1998,161(1/2/3/4):269-279.
[35]  BRANSDEN M P,BATTAGLENE S C,MOREHEAD D T,et al.Effect of dietary 22∶ 6 n-3 on growth,survival and tissue fatty acid profile of striped trumpeter (Latris lineata) larvae fed enriched Artemia[J].Aquaculture,2005,243(1/2/3/4):331-344.
[36]  BENíTEZ-SANTANA T,MASUDA R,JUáREZ C,et al.Dietary n-3 HUFA deficiency induces a reduced visual response in gilthead seabream Sparus aurata larvae[J].Aquaculture,2007,264(1/2/3/4):408-417.
[37]  BRANSDEN M P,COBCROFT J M,BATTAGLENE S C,et al.Dietary 22∶ 6 n-3 alters gut and liver structure and behaviour in larval striped trumpeter (Latris lineata)[J].Aquaculture,2005,248(1/2/3/4):275-285.
[38]  HAMRE K,HARBOE T.Critical levels of essential fatty acids for normal pigmentation in Atlantic halibut (Hippoglossus hippoglossus L.) larvae[J].Aquaculture,2008,277(1/2):101-108.
[39]  LUND I,STEENFELDT S J,BENTA G,et al.The influence of dietary concentrations of arachidonic acid and eicosapentaenoic acid at various stages of larval ontogeny on eye migration,pigmentation and prostaglandin content of common sole larvae (Solea solea L.)[J].Aquaculture,2008,276(1/2/3/4):143-153.
[40]  VIZCAíNO-OCHOA V,LAZO J P,BARóN-SEVILLA B,et al.The effect of dietary docosahexaenoic acid (DHA) on growth,survival and pigmentation of California halibut Paralichthys californicus larvae (Ayres,1810)[J].Aquaculture,2010,302(3/4):228-234.
[41]  HAMZA N,MHETLI M,KHEMIS I B,et al.Effect of dietary phospholipid levels on performance,enzyme activities and fatty acid composition of pikeperch (Sander lucioperca) larvae[J].Aquaculture,2008,275(1/2/3/4):274-282.
[42]  ZHAO J,AI Q,MAI K,et al.Effects of dietary phospholipids on survival,growth,digestive enzymes and stress resistance of large yellow croaker,Larmichthys crocea larvae[J].Aquaculture,2013,410-411:122-128.
[43]  SANDEL E,NIXON O,LUTZKY S,et al.The effect of dietary phosphatidylcholine/phosphatidylinositol ratio on malformation in larvae and juvenile gilthead sea bream (Sparus aurata)[J].Aquaculture,2010,304(1/2/3/4):42-48.
[44]  WOLD P A,HOEHNE-REITAN K,CAHU C,et al.Phospholipids vs.neutral lipids:effects on digestive enzymes in Atlantic cod (Gadus morhua) larvae[J].Aquaculture,2007,272(1/2/3/4):502-513.
[45]  DARIAS M J,MAZURAIS D,KOUMOUNDOUROS G,et al.Dietary vitamin D3 affects digestive system ontogenesis and ossification in European sea bass (Dicentrachus labrax,Linnaeus,1758)[J].Aquaculture,2010,298(3/4):300-307.
[46]  GOUILLOU-COUSTANS M F,BERGOT P,KAUSHIK S J,et al.Dietary ascorbic acid needs of common carp (Cyprinus carpio) larvae[J].Aquaculture,1998,161(1/2/3/4):453-461.
[47]  MAZURAIS D,GLYNATSI N,DARIAS M,et al.Optimal levels of dietary vitamin A for reduced deformity incidence during development of European sea bass larvae (Dicentrarchus labrax) depend on malformation type[J].Aquaculture,2009,294(3/4):262-270.
[48]  PENGLASE S,NORDGREEN A,VAN DER MEEREN T,et al.Increasing the level of selenium in rotifers (Brachionus plicatilis ‘Cayman’) enhances the mRNA expression and activity of glutathione peroxidase in cod (Gadus morhua L.) larvae[J].Aquaculture,2010,306(1/2/3/4):259-269.
[49]  LUCAS A.Programming by early nutrition:an experimental approach[J].The Journal of Nutrition,1998,128(S2):401S-406S.
[50]  PATEL S,SRINIVASAN M.Metabolic programming:causes and consequences[J].Journal of Biological Chemistry,2002,277:1629-1632.
[51]  JAENISH R,BIRD A.Epigenetic regulation of gene expression:how the genome integrates intrinsic and environmental signals[J].Nature Genetics,2003,33:245-254.
[52]  WATERLAND R A,JIRTLE R L.Early nutrition,epigenetic changes at transposons and imprinted genes,and enhanced susceptibility to adult chronic diseases[J].Nutrition,2004,20:63-68.
[53]  GEURDEN I,ARAMENDI M,ZAMBONINO-INFANTE J,et al.Early feeding of carnivorous rainbow trout (Oncorhynchus mykiss) with a hyperglucidic diet during a short period:effect on dietary glucose utilization in juveniles[J].The American Journal of Physiology-Regulatory,Integrative and Comparative Physiology,2007,292:2275-2283.
[54]  VAGNER M,ZAMBONINO-INFANTE J,ROBIN J,et al.Is it possible to influence European sea bass (Dicentrarchus labrax) juvenile metabolism by a nutritional conditioning during larval stage?[J].Aquaculture,2007,267(1/2/3/4):165-174.

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