[1]Ambler, J.A., 1986. Effects of food quantity and quality on egg production of Acartia tonsa Dana from East Lagoon, Galveston, Texas Estuar. Coast. Shelf Sci. 23, 183–196.
[2]Anholt, B.R., Voordouw M.J., 2002. Environmental sex determination in a splash pool copepod. Biol. J. Linn. Soc. 76, 511–520.
[3]Avery, D.E., 2005. Induction of embryonic dormancy in the Calanoid copepod Acartia hudsonica: proximal cues and variation among individuals. J. Exp. Mar. Biol. Ecol. 314, 203–214.
[4] Belmonte, G., Potenza, D., 2001. Biogeography of the family Acartiidae (Calanoida) in the Ponto-Mediterranean Province. In Copepoda: Developments in Ecology, Biology and Systematics (pp. 171-176). Springer Netherlands.
[5]Buikema, A.L., 1973. Some effects of light on the growth, molting, reproduction and survival of the Cladoceran, Daphnia pulex, Hydrobiologia 41 . pp. 391–418.
[6]Camus T., Zeng C., 2008. Effects of photoperiod on egg production and hatching success, naupliar and copepodite development, adult sex ratio and life expectancy of the tropical calanoid copepod Acartia sinjiensis :Aquaculture 280 , 220–226.
[7] Carlotti F., Rey C., Javanshir A., Nival S. 1997; Laboratory studies on egg and faecal pellet production of Centropages typicus: effect of age, effect of temperature, individual variability; J. Plankton Research; 1997; 19: 1143–1165.
[8]Castro-Longoria, E., Williams J.A., 1999. The production of subitaneous and diapause eggs: a reproductive strategy for Acartia bifilosa (Copepoda: Calanoida) in Southhampton water UK. J.Plankton Res. 21, 65–84.
[9]Cervetto, G., Gaudy R., Pagano M., 1999. Influence of salinity on the distribution of Acartia tonsa (Copepoda Calanoida). J.Exp. Mar. Biol. Ecol. 239, 33–45.
[10]Chen, Q., Sheng, J., Lin, Q., Gao, Y., Lv, J., 2006. Effect of salinity on reproduction and survival of the copepod Pseudondiaptomus annandalei Sezell, 1919. Aquaculture 258, 575–582.
[11]Chinnery, F.E., Williams J.A., 2003. Photoperiod and temperature regulation of diapause egg production in Acartia bifilosa from Southampton water. Mar. Ecol. Prog.
[12] Farhadian, A., 2011.Gruth and production in copepod cyclopoid Microcyclops varicans. journal of biology of Iran,Vol.24,No.4,549-557.
[13] Gilbert, J.J., Williamson C.E., 1983. Sexual dimorphism in zooplankton (copepoda, cladocera and rotifera). Ann. Rev. Ecology. Syst. 14, 1–33.
[14]Hairston, N.G., Kearns C.M., 1995. The interaction of photoperiod and temperature in diapause timing: a copepod example. Biol. Bull. 189, 42–48
[15]Hazel, M.P., Fatimah Y., Mohamed S., Aziz A., 2005. Effects of some environmental parameters on the reproduction and development of a tropical marine harpacticoid copepod Nitocra affinis f. californica Lang. Marine Pollution Bulletin 51 , 722–728
[16] Holste, L., Peck, M. A., 2006. The effects of temperature and salinity on egg production and hatching success of Baltic Acartia tonsa (Copepoda: Calanoida): a laboratory investigation. Marine Biology, 148(5), 1061-1070.
[17]Koski,M., 1999. feeding and production of common planktonic copepods: the effect of food and temperetur. Helsinki University .Finland. P:35.
[18]Lee, C.-S., O'Bryen, P., Marcus, N.H., 2005. Copepods in Aquaculture. Blackwell Publishing, Oxford, p. 288.
[19]Marcus, N.H., 2005. Calanoid copepods, resting eggs, and aquaculture. In: Lee, C.-S., O'Bryen, P.J., Marcus, N.H. (Eds.), Copepods in aquaculture. Blackwell Scientific Publication Ltd,Melbourne, pp. 3–9.
[20]McEvoy, L., Naess T., Bell J.G., Lie O., 1998. Lipid and fatty acid composition of normal and malpigmented Atlantic halibut (Hippoglossus hippoglossus) fed enriched Artemia: a comparisonwith fry fed wild copepods. Aquaculture 163, 235–248.
[21]Milion, H., 1992. Effects of light (photoperiod, spectral composition) on the population dynamics of Tisbe holo thuriae Humes (Copepoda: Harpacticoida), Hydrobiologia 232 (1992), pp. 201–209
[22]Munk, P., Nielsen T.G., 1994. Tropho dynamics of the plankton Community at Dogger Bank: predatory impact by larval fish. J. Plankton Res. 16, 1225–1245.
[23]Nanton, D.A., Castell, J.D., 1999. The effects of temperature and dietary Fatty acids on the fatty acid composition of harpacticoid copepods, for Use as live food for marine fish larvae. Aquaculture 175, 167–181.
[24]Omori, M., Ikeda, T., 1984. Methods in zooplankton ecology. John Wiley and Sons Inc.,New York, 332P.
[25] Payne, M. F., Rippingale, R. J., 2001. Effects of salinity, cold storage and enrichment on the calanoid copepod< i> Gladioferens imparipes</i>. Aquaculture, 201(3), 251-262.
[26]Peck, M.A., Holste L., 2006. Effects of salinity, photoperiod and adult stocking density on egg production and egg hatchingsuccess in Acartia tonsa (Calanoida: Copepoda): Optimizingintensive cultures. Aquaculture 255(2006) 341-350.
[27]Pepin, P., Penney R.W., 1997. Patterns of prey size and taxonomic Composition in larval fish: are there general size dependent models? J. Fish Biol. 51, 84–100.
[28]Rodriguez ,V., Guerrero F., Bautista B., 1995. Egg production of individual copepods of Acartia grani Sars from coastal waters: seasonal and diel variability. J. PlanktonRes.17, 2233–2250.
[29]Sargent, J.R., Falk-Petersen S.,1988. The lipid biochemistry of calanoid copepods. Hydrobiologia 167/168, 101–114.
[29]Savas, S., and Erdogan, O., 2006. The effect of food (Scendesmus acuminatus (Von Lagerheim)R.H. Chodat) densities and temperature on the population growth of the cladoceran Ceriodaphnia quadrangula .Muller, 1785. Journal of Fisheries and Aquatic Sciences, 23:113-116.
[30]Schipp,G.R.,Bosmans,J.M.P.,Marshall,A.J.,1999.A method for hatchery culture of tropical Calanoid copepods,Acartia spp.Aquaculture,174:81-88.
[31] Sergestråle, S.G., 1970. Light control of the reproductive cycle of Pontoporeia affinis Lindstrom (Crusteceana: Amphipoda), Journal ofExperimental marine Biology and Ecology 5 (1970), pp. 272–275.
[32] Shields, R. J., J. G. Bell, F. S. Luizi, B. Gara, N. R. Bromage and J. R. Sargent, 1999. Natural copepods are superior to enriched Artemia nauplii as feed for halibut larvae (Hippoglossus hippoglossus) in terms of survival, pigmentation, and retinal morphology: relation to dietary essential fatty acids. Journal ofNutrition 129:1186-1194.
[33]Stearns ,D.E., Tester P.A., Walker R.L., 1989. Diel changes in the egg production rate of Acartia tonsa (Copepoda Calanoida) and related environmental factors in two estuaries. Mar. Ecol. Prog. Ser.52,7–16.
[34]Støttrup, J., 2003. Production and nutritional value of copepods. In: Støttrup J., McEvoy L.A. (Eds.), Live Feeds in Marin Aquaculture. Blackwell Publishing, Oxford, pp. 145–205.
[35] Stottrup,J,G., and McEvoy,J.A., 2003. Live feeds In marine aquaculture. Aquaculture Nutrition. Blsckwell Science. 318p.
[36]Svåsand, T., Kristiansen T.S., Pedersen T., Salvanes A.G.V., Engelsen R., Nødtvedt M., 1998. Havbeite med torsk artsrapportNorges forskningsråd. 78 pp.
[37]Toledo J.D., Golez M.S., Doi M., Ohno A., 1999. Use of copepod nauplii during early feeding stage of grouper Epinepheluscoiodes. Fish. Sci. 65, 390–397.