BENJAMíN G G, FELIPE A G.Influence of diet on ongrowing and nutrient utilization in the common octopus (Octopus vulgaris)[J].Aquaculture, 2002, 211(1/2/3/4):171-182.
SIMKISS K.Metalions in cells[J].Endeavour, 1979, 3(1):2-6.
[4]
LALL S P.The minerals[M]//HALVER J E, HARDY R W.Fish nutrition.San Diego, C.A.:Academic Press, 2002, 3:259-308.
[5]
HANLON R T, BIDWELL J P, TAIT R.Strontium is required for statolith development and thus normal swimming behaviour of hatchling cephalopods[J].Journal of Experimental Biology, 1989, 141:187-195.
[6]
MIRAMAND P, BUSTAMANTE P, BENTLEY D, et al.Variation of heavy metal concentrations (Ag, Cd, Co, Cu, Fe, Pb, V, Zn) during the life cycle of the common cuttlefish Sepia officinalis[J].Science of the Total Environment, 2006, 361(1/3):132-143.
[7]
BUSTAMANTE P, CAURANT F, FOWLER S W, et al.Cephalopods as a vector for the transfer of cadmium to top marine predators in the North East Atlantic ocean[J].Science of the Total Environment, 1998, 220(1):71-80.
[8]
BUSTAMANTE P, TEYSSIE J L, FOWLER S W, et al.Biokinetics of zinc and cadmiumaccumulation and depuration at different stages in the life cycle of the cuttlefish Sepia officinalis[J].Marine Ecology Progress Series, 2002, 231:167-177.
[9]
BUSTAMANTE P, TEYSSI J L, DANIS B, et al.Uptake, transfer and distribution of silver and cobalt in tissues of the common cuttlefish Sepia officinalis at different stages of its life cycle[J].Marine Ecology-Progress Series, 2004, 269:185-195.
[10]
SMITH J D, PLUES L, HEYRAUD M, et al.Concentrations of the elements Ag, Al, Ca, Cd, Cu, Fe, Mg, Pb and Zn, and the radionuclides 210Pb and 210Po in the digestive gland of the squid Nototodarus gouldi[J].Marine Environmental Research, 1984, 13(1):55-68.
[11]
GUARY J C, HIGGO J J W, HEYRAUD M.High concentrations of transuranics and natural radioactive elements in the branchial hearts of the cephalopod Octopus vulgaris[J].Marine Ecology Progress Series, 1981, 4:123-126.
[12]
YAMADA M, AONO T, HIRANO S.239+240Pu and 137Cs concentrations in fish, cephalopods, crustaceans, shellfish, and algae collected around the Japanese coast in the early 1990s[J].Science of the Total Environment, 1999, 239(1/2/3):131-142.
[13]
WATANABE T, KIRON V, SATOH S.Trace minerals in fish nutrition[J].Aquaculture, 1997, 15:185-207.
[14]
WATANABE T, TAKESHIMA F.Effect of α-tocopherol deficiency on carp Ⅳ.Deficiency symptoms and change of fatty acid and triglycerⅡde distribution in adult carp[J].Bulletin of the Japanese Society of Scientific Fisheries, 1977, 43(6):819-830.
[15]
TERAKITA A, HARA R, HARA T.Retinal-binding protein as a shuttle for retinal in the rhodopsin-retinochrome system of the squid visual cells[J].Vision Research, 1989, 29(6):639-652.
[16]
BLOMHOFF R, GREEN M H, NORUM K R.Vitamin A:physiological and biochemical processing[J].Annual Review of Nutrition, 1992, 12:37-57.
[17]
VILLANUEVA R, ESCUDERO J M, DEULOFEU R, et al.Vitamin A and E content in early stages of cephalopods and their dietary effects in Octopus vulgaris paralarvae[J].Aquaculture, 2009, 286(3/4):277-282.
[18]
SARGENT J R, MCEVOY L A, BELL J G.Requirements, presentation and sources of polyunsaturated fatty acids in marine fish larval feeds[J].Aquaculture, 1997, 155(1/2/3/4):117-127.
[19]
MAOKA T, YOKOI S, MATSUNO T.Comparative biochemical studies of carotenoids in nine species of Cephalopoda[J].Comparative Biochemistry and Physiology Part B:Comparative Biochemistry, 1989, 92(2):247-250.
[20]
NIXON M.Cephalopod diets[M]//BOYLE P R.Cephalopod life cycles.London:Academic Press, 1987:201-219.
[21]
FORSYTHE J W, TOLL R B.Clarification of the Western Atlantic ocean pygmy octopus complex:the identity and life history of Octopus joubini (Cephalopoda:Octopodinae)[J].Bulletin of Marine Science, 1991, 49(1/2):88-97.
[22]
MOREN M, GUNDERSEN T E, HAMRE K.Quantitative and qualitative analysis of retinoids in Artemia and copepods by HPLC and diode array detection[J].Aquaculture, 2005, 246(1/4):359-365.
[23]
SURYANARAYANAN H, ALEXANDER K M.Fuel reserves of molluscan muscle[J].Comparative Biochemistry and Physiology Part A:Physiology, 1971, 40(1):55-60.
DANIEL Q, PEDRO D, SANDRA G.Effect of two artificial wet diets agglutinated with gelatin on feed and growth performance of common octopus (Octopus vulgaris) sub-adults[J].Aquaculture, 2008, 280:161-164.
[29]
LEE P G.Nutrition of cephalopods:fueling the system[J].Marine and Freshwater Behaviour and Physiology, 1995, 25:1-3.
[30]
VILLANUEVA R, RIBA J, RUíZ-CAPILLAS C, et al.Amino acid composition of early stages of cephalopods and effect of amino acid dietary treatments on Octopus vulgaris paralarvae[J].Aquaculture, 2004, 242(1/2/3/4):455-478.
[31]
DOMINGUES P.Development of alternative diets for the mass culture of the European cuttlefish Sepia officinalis[D].Ph.D Thesis.Faro:University of the Algarve, 1999:5-9.
[32]
LE B E, PERRIN A, KOUETA N.Influence of diet peptide content on survival, growth and digestive enzymes activities of juvenile cuttlefish Sepia officinalis[J].Vie et Milieu, 2006, 56(2):139-145.
[33]
VILLANUEVA R, KOUETA N, RIBA J, et al.Growth and proteolytic activity of Octopus vulgaris paralarvae with different food rations during first feeding, using Artemia nauplⅡ and compound diets[J].Aquaculture, 2002, 205(3/4):269-286.
[34]
LEGER P H, BENGTSON D A, SIMPSON K L, et al.The use and nutritional value of Artemia as a food source[J].Oceanography Marine Biology Annual Review, 1986, 24:521-623.
[35]
IGLESIAS J, SNCHEZ F J, BERSANO J G F, et al.Rearing of Octopus vulgaris paralarvae:present status, bottlenecks and trends[J].Aquaculture, 2007, 266(1/2/3/4):1-15.
[36]
CASTILLE P L, LAWRENCE A L.Uptake of amino acids and hexoses from sea wate by octopus hatchlings[J].Physiologist, 1978, 21(4):4-13.
NAVARRO J C, VILLANUEVA R.Lipid and fatty acid composition of early stages of cephalopods:an approach to their lipid requirements[J].Aquaculture, 2000, 183(1/2):161-177.
[41]
HAMASAKI K, TAKEUCHI T.Dietary value of Artemia with w2 yeast or shark eggs as food for planktonic larvae of Octopus vulgaris[J].Saibai-Giken, 2001, 28:65-68.
[42]
OKUMURA S, KURIHARA A, IWAMOTO A, et al.Improved survival and growth in Octopus vulgaris paralarvae by feeding large type Artemia and Pacific sandeel, Ammodytes personatus:improved survival and growth of common octopus paralarvae[J].Aquaculture, 2005, 244(1/2/3/4):147-157.
