[Aruho C., Walakira J.K., Owori-Wadunde A., Nuwamanya E., Bugenyi F., Sserwadda M., Rutaisire J., Borski R.J. 2020 – Growth and survival of Ripon barbel (Barbus altianalis) larvae and juveniles fed five experimental diets in captivity – Aquac. Rep. 18: 100441.10.1016/j.aqrep.2020.100441]Search in Google Scholar
[Becker E.W. 2007 – Micro-algae as a source of protein – Biotechnol. Adv. 25: 207-210.10.1016/j.biotechadv.2006.11.002]Search in Google Scholar
[Ben-Amotz A., Polle J.E., Rao D. S. 2009 – The Alga Dunaliella: Biodiversity, Physiology, Genomics and Bio-technology – Enfield, NH: Science Publishers. 188.]Search in Google Scholar
[Bernaerts M.M., Gheysen L., Foubert I., Hendrickx M.E., Van Loey A.M. 2019 – The potential of microalgae and their biopolymers as structuring ingredients in food: A review – Biotechnol. Adv. 37(8): 107419.10.1016/j.biotechadv.2019.107419]Search in Google Scholar
[Brett M.T., Müller-Navarra D.C., Ballantyne A.P., Ravet J.L., Goldman C.R. 2006 – Daphnia fatty acid composition reflects that of their diet – Limnol. Oceanogr. 51: 2428-2437.10.4319/lo.2006.51.5.2428]Search in Google Scholar
[Brown M.R. 2002 – Nutritional value of microalgae for aquculture – In: Avances en Nutriciòn Acuìcola VI. Memorias del VI Simposium Internacional de Nutriciòn Acuìcola (Eda) L.E. Cruz-Suàrez, D. Ricque-Marie, M. Tapia-Salazar, M.G. Gaxiola-Cortès, N. Simoes, 3 al 6 de Septiembre del 2002, Cancùn, Quintana Roo, Mèxico: 281-292.]Search in Google Scholar
[Cheban L., Grynko O. 2017 – Use of Acutodesmus dimorphus (Turpin) tsarenko as a fodder organism for Daphnia growing – Acta Biol. Univ. Daugavp. 17: 141-148.]Search in Google Scholar
[Cheban L., Malischuk I., Marchenko M. 2015 – Peculiarities of cultivation Desmodedesmus armatus (Chocl.) Hegew. in the wash water from RAS – Arch. Pol. Fish. 23: 155-162.10.1515/aopf-2015-0018]Search in Google Scholar
[Cheban L., Grynko O., Dorosh I. 2018 – Co-cultivation of Daphnia magna (Straus) and Desmodesmus armatus (chod.) Hegew. in recirculating aquaculture system wastewater – Fish. Aquat. Life. 26: 57-64.10.2478/aopf-2018-0007]Search in Google Scholar
[Conceição L.E., Yúfera M., Makridis P., Morais S., Dinis M.T. 2010 – Live feeds for early stages of fish rearing – Aquac. Res. 41: 613-640.10.1111/j.1365-2109.2009.02242.x]Search in Google Scholar
[Duong V.T., Ahmed F., Thomas-Hall S.R., Quigley S., Nowak E., Schenk P.M. 2015 – High protein- and high lipid-producing microalgae from Northern Australia as potential feedstock for animal feed and biodiesel – Front. Bioeng. Biotechnol. 3: 53-61.10.3389/fbioe.2015.00053]Search in Google Scholar
[Folch J., Lees M., Stanley G.H.S. 1957 – A simple method for the isolation and purification of total lipids from animal tissues – J. Biol. Chem. 226: 497-509.10.1016/S0021-9258(18)64849-5]Search in Google Scholar
[González López C.V., García M.C.C., Fernández F.G.A., Bustos C.S., Chisti Y., Sevilla J.M.F. 2010. – Protein measurements of microalgal and cyanobacterial biomass – Bioresour. Technol. 101: 7587-7591.10.1016/j.biortech.2010.04.07720494571]Search in Google Scholar
[Guedes A.C., Amaro H.M., Malcata F.X. 2011 – Microalgae as sources of carotenoids – Mar. Drugs. 9: 625-644.10.3390/md9040625]Search in Google Scholar
[Hamre K., Yúfera M., Rønnestad I., Boglione C., Conceição L.E., Izquierdo M. 2013 – Fish larval nutrition and feed formulation: knowledge gaps and bottlenecks for advances in larval rearing – Rev. Aquac. 5: S26-S58.10.1111/j.1753-5131.2012.01086.x]Search in Google Scholar
[Harel M., Koven W., Lein I., Bar Y., Behrens P., Stubblefield J., Zohar Y., Place A.R. 2002. Advanced DHA, EPA and ArA enrichment materials for marine aquaculture using single cell heterotrophs – Aquaculture 213: 347-362.]Search in Google Scholar
[Harris R.P., Wiebe P.H., Lenz J., Skjoldal H.R., Huntley M. 2000 – Zooplankton methodology manual – Academic Press, London.]Search in Google Scholar
[Hosseini Tafreshi A., Shariati M. 2009 – Dunaliella biotechnology: methods and applications – J. Appl. Microbiol. 107: 14-35.10.1111/j.1365-2672.2009.04153.x]Search in Google Scholar
[Hu Q., Sommerfeld M., Jarvis E., Ghirardi M., Posewitz M., Seibert M., Darzins A. 2008 – Microalgal triacylglycerols as feedstocks for biofuel production: perspectives and advances – Plant J. 54: 621-639.10.1111/j.1365-313X.2008.03492.x]Search in Google Scholar
[Khudyi O., Marchenko M., Cheban L., Khuda L., Kushniryk O., Malishchuk I. 2016 – Recirculating aquaculture systems waste water as a medium for increase of phytoplankton and zooplankton biomass – Int. Lett. Nat. Sci. 54: 1-7.10.18052/www.scipress.com/ILNS.54.1]Search in Google Scholar
[Kolkovski S. 2001 – Digestive enzymes in fish larvae and juveniles – implications and applications to formulated diets – Aquaculture 200: 181-201.10.1016/S0044-8486(01)00700-1]Search in Google Scholar
[Kolman R., Khudyi O., Kushniryk O., Khuda L., Prusinska M., Wiszniewski G. 2018 – Influence of temperature and Artemia enriched with x-3 PUFAs on the early ontogenesis of Atlantic sturgeon, Acipenser oxyrinchus Mitchill, 1815 – Aquac. Res. 4: 1740-1751.]Search in Google Scholar
[Knight J.A., Anderson S., Rawle J.M. 1972 – Chemical basis of the sulfo-phospho-vanillin. Reaction for estimating total serum lipid – Clin. Chem. 18: 199-202.10.1093/clinchem/18.3.199]Search in Google Scholar
[Kushniryk O., Khudyi O., Khuda L., Kolman R., Marchenko M. 2015 – Cultivating Moina macrocopa Straus in different media using carotenogenic yeast Rhodotorula – Arch. Pol. Fish. 23: 37-42.10.1515/aopf-2015-0004]Search in Google Scholar
[Lowry O.H., Rosebrough N.J., Farr A.L., Randall R.J. 1951 – Protein measurement with the Folin phenol reagent – J. Biol. Chem. 193: 265-275.10.1016/S0021-9258(19)52451-6]Search in Google Scholar
[Makridis P, Vadstein O. 1999 – Food size selectivity of Artemia franciscana at three developmental stages – J. Plankton Res. 21: 2191-2201.10.1093/plankt/21.11.2191]Search in Google Scholar
[Monroig Ó., Navarro J.C., Amat F., Hontoria F. 2007 – Enrichment of Artemia nauplii in vitamin A, vitamin C and methionine using liposomes – Aquaculture 269: 504-513.]Search in Google Scholar
[Nermin A. 2011 – The polyphasic description of a Desmodesmus spp. isolate with the potential of bioactive compounds production. – Biotechnol. Agron. Soc. Environ. 15: 231-238.]Search in Google Scholar
[Ovie S.I., Egborge A.B.M. 2002 – The effect of different algal densities of Scenedesmus acuminatus on the population growth of Moina micrura Kurz (Crustacea: Anomopoda, Moinidae) – Hydrobiologia 477: 41-45.]Search in Google Scholar
[Prusińska M., Kushniryk O., Khudyi O., Khuda L., Kolman R. 2015 – Impact of enriching larval brine shrimp (Artemia sp.) with a supplement containing polyunsaturated fatty acids on their growth and mortality – Arch. Pol. Fish. 23: 149-154.10.1515/aopf-2015-0017]Search in Google Scholar
[Roe S.H. 1955 – The determination of sugar in blood and spinal fluid with anthrone reagent – J. Biol. Chem. 212: 334-343.10.1016/S0021-9258(18)71120-4]Search in Google Scholar
[Safi C., Zebib B., Meraha O., Pontaliera P., Vaca-Garcia C. 2014 – Morphology, composition, production, processing and applications of Chlorella vulgaris: A review – Renew. Sust. Energ. Rev. 35: 265-278.]Search in Google Scholar
[Salama E.S., Kim H.C., Abou-Shanab R.I., Ji M.K., Oh Y.K., Kim S.H., B.H. Jeon 2013 – Biomass, lipid content, and fatty acid composition of freshwater Chlamydomonas mexicana and Scenedesmus obliquus grown under salt stress – Bioprocess Biosyst. Eng. 36: 827-833.10.1007/s00449-013-0919-1]Search in Google Scholar
[Samek D., Mišurcová L., Machů L., Buňka F., Fišera M. 2013 – Influencing of amino acid composition of green freshwater algae and cyanobacterium by methods of cultivation –Turk. J. Biochem. 38: 360-368.10.5505/tjb.2013.42104]Search in Google Scholar
[Macías-Sánchez M.D., Serrano C.M., Rodríguez M.R., de la Ossa E.M., Lubián L.M., Montero O. 2008 – Extraction of carotenoids and chlorophyll from microalgae with supercritical carbon dioxide and ethanos as cosolvent – J. Sep. Sci. 31: 1352-1362.10.1002/jssc.200700503]Search in Google Scholar
[Simon M. 2016 – Use of brine shrimp (artemia) in the feeding of sturgeon juveniles (Acipenseridae) (Review) – Ribogospod. naukà Ukr. 2 (36): 97-122 (in Ukrainian).10.15407/fsu2016.02.097]Search in Google Scholar
[Sorgeloos P., Dhert P. Candreva P. 2001 – Use of the brine shrimp, Artemia spp., in marine fish larviculture – Aquaculture 200: 147-159.]Search in Google Scholar
[Tanaka Y. 1978 – Comparative biochemical studies on carotenoids in aquatic animals – Mem. Fac. Fish. 27: 355-422.]Search in Google Scholar
[Van der Meeren T., Mangor-Jensen A., Pickova J. 2007 – The effect of green water and light intensity on survival, growth and lipid composition in Atlantic cod (Gadus morhua) during intensive larval rearing – Aquaculture 265: 206-217.]Search in Google Scholar
[Viciano E., Monroig O., Salvador A., Amat J., Fiszman S., Navarro J.C. 2015 – Enriching Artemia nauplii with a high DHA – containing lipid emulsion: search for an optimal protocol – Aquac. Res. 46: 1066-1077.10.1111/are.12258]Search in Google Scholar
[Villarruel-López A., Ascencio F., Nuńo K. 2017 – Microalgae, a potential natural functional food source – a review – Pol. J. Food Nutr. Sci. 67: 251-263.]Search in Google Scholar
[Watanabe T., Kitajima C., Fujita S. 1983 – Nutritional values of live organisms used in Japan for mass propagation of fish: a review – Aquaculture 34: 115-143.10.1016/0044-8486(83)90296-X]Search in Google Scholar