[Balcázar J. L., Vendrell D., de Blas I., Ruiz-Zarzuela I., Muzquiz J. L., Girones O. 2008 – Characterization of probiotic properties of lactic acid bacteria isolated from intestinal microbiota of fish – Aquaculture 278: 188-191.10.1016/j.aquaculture.2008.03.014]Search in Google Scholar
[Bertolo A.P., Biz A.P., Kempka A.P. Rigo E., Cavalheiroet D. 2019 – Yeast (Saccharomyces cerevisiae): evaluation of cellular disruption processes, chemical composition, functional properties and digestibility – J. Food Sci. Technol. 56: 3697-3706.10.1007/s13197-019-03833-3]Search in Google Scholar
[Bligh E.G., Dyer W.J. 1959 – A rapid method of total lipid extraction and purification – Can. J. Biochem. Physiol. 37: 911-917.10.1139/y59-099]Search in Google Scholar
[Bogut I., Adamek Z., Puškadija Z. 2010 – Nutritional value of planktonic cladoceran Daphnia magna for common carp (Cyprinus carpio) fry feeding – Ribarstvo 68: 1-10.]Search in Google Scholar
[Brosale P., Gadre R. 2001 – Production of â-carotene by a mutant of Rhodotorula glutinis – Appl. Biochem. Biotechnol. 55: 423-42710.1007/s002530000570]Search in Google Scholar
[de Carvalho C.C.C.R., Caramujo M.J. 2017 – Carotenoids in aquatic ecosystems and aquaculture: a colorful business with implications for human health – Front. Mar. Sci. 4: 93.10.3389/fmars.2017.00093]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
[Das P., Mandal S.C., Bhagabati S.K., Akhtar M.S., Singh S.K. 2012 – Important live food organisms and their role in aquaculture – In: Frontiers in Aquaculture (Eds) J.K. Sundaray, M. Sukham, R.K. Mohanty, S.K. Otta, Narendra Publishing House, India, New Delhi: 69-86.]Search in Google Scholar
[Finkel’shtein E.I. 2016 – Modern Methods of Analysis of Carotenoids (Review) – Pharm. Chem. J. 50: 96-107.10.1007/s11094-016-1405-2]Search in Google Scholar
[Frengova G.I., Beshkova D.M. 2009 – Carotenoids from Rhodotorula and Phaffia: yeasts of biotechnological importance – J. Ind. Microbiol. Biotechnol. 36: 163-180.10.1007/s10295-008-0492-9]Search in Google Scholar
[Frengova G.I., Emilina S.D., Beshkova D.M. 2003 – Carotenoid production by lactoso-negative yeasts co-cultivated with lactic acid bacteria in whey ultrafiltrate – Z. Naturforsch C 58: 562-567.10.1515/znc-2003-7-820]Search in Google Scholar
[Frengova G.I., Simova E.D., Beshkova D.M. 2004 – Use of whey ultrafiltrate as a substrate for production of carotenoids by the yeast Rhodotorula rubra – Appl. Biochem. Biotechnol. 112: 133-141.10.1385/ABAB:112:3:133]Search in Google Scholar
[Gholomi M. 2010 – Effect of n-3 HUFA enriched Daphnia magna on growth, survival, stress resistance and fatty acid composition of white fish fry (Rutilus frisii kutum)– J. Fish. Aquac. Sci. 5: 49-55.10.3923/jfas.2010.49.55]Search in Google Scholar
[Goda A.A., Sallam A. E., Srour T. M. 2018 – Evaluation of natural and synthetic carotenoid supplementation on growth, survival, total carotenoid content, fatty acids profile and stress resistance of European seabass, Dicentrarchus labrax, fry – Aquac. Stud. 18: 27-39.]Search in Google Scholar
[Gupta S.K., Jha A.K., Pal A.K., Venkateshwarlu G. 2007 – Use of natural carotenoids for pigmentation in fishes – Nat Prod. Radiance 6: 46-49.]Search in Google Scholar
[Jafaryan H., Morovat R., Shirzad H. 2008 – The use of bioencapsulated Daphnia magna by probiotic bacillus and their effect on the growth of Rainbow trout (Oncorhynchus mykiss) larvae – Iranian J. Biol. 21: 24-35.]Search in Google Scholar
[Kibria G., Nugegoda D., Fairclough R., Lam P., Bradly A. 1997 – Zooplankton: its biochemistry and significance in aquaculture – NAGA. ICLARM Q. 20: 8-12.]Search in Google Scholar
[Kluttgen B., Dulmer U., Engels M., Ratte H.T. 1994 – ADaM, an artificial fresh water for the culture of zooplankton – Water Res. 28: 743-746.10.1016/0043-1354(94)90157-0]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
[Kraievska I.M., Vasina L.M. 2017 – Dynamics of biomass accumulation and carotene synthesizing activity of Rhodotorula glutinis (Fresenius) F.C. Harrison (1982) under the action of ultraviolet radiation – Biolgical Systems 9: 183-186 (in Ukrainian)10.31861/biosystems2017.02.183]Search in Google Scholar
[Kushniryk O.V., Marchenko M.M., Khudyi O.I., Vasina L.M., Khuda L.V., Kavulya O.M. 2014 – The application of yeast Rhodotorula glutinis for cultivation of Simocephalus vetulus (Müller, 1776) under the laboratory conditions – Biolgical Systems 6: 24-29 (in Ukrainian).]Search in Google Scholar
[Kushniryk O.V., Khudyi O.I., Khuda L.V. 2015a – Hydrolytic activity and nutritional value of Simocephalus vetulus (Muller) during cultivation with different feeding substrates – Odesa National University Herald. Biology. 20: 115-120 (in Ukrainian).10.18524/2077-1746.2015.1(36).56904]Search in Google Scholar
[Kushniryk O., Khudyi O., Khuda L., Kolman R., Marchenko M. 2015b – 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
[Malla S., Banik S.K. 2015 – Production and application of live food organisms for freshwater ornamental fish larviculture – Adv. Biores. 6: 159-167.]Search in Google Scholar
[Manklinniam P., Chittapun S., Maiphae S. 2018 – Growth and nutritional value of Moina macrocopa (Straus, 1820) fed with Saccharomyces cerevisiae and Phaffia rhodozyma – Crustaceana 91: 897-912.10.1163/15685403-00003803]Search in Google Scholar
[Moliné M., Flores M.R., Libkind D., del Carmen Diéguez M., Farías M.E., van Broock M. 2010 – Photoprotection by carotenoid pigments in the yeast Rhodotorula mucilaginosa: the role of torularhodin – Photochem. Photobiol. Sci. 9: 1145-1151.10.1039/c0pp00009d20571712]Search in Google Scholar
[Putra D.F., Fanni, M., Muchlisin Z.A., Muhammadar A.A. 2016 – Growth performance and survival rate of climbing perch (Anabas testudineus) fed Daphnia sp. enriched with manure, coconut dregs flour and soybean meal – AACL Bioflux 9: 944-948.]Search in Google Scholar
[Rastogi R.P., Richa Kumar A., Tyagi M.B., Sinha R.P. 2010 – Molecular mechanisms of ultraviolet radiation-induced DNA damage and repair – J. Nucleic Acids 2010: 592980.10.4061/2010/592980301066021209706]Search in Google Scholar
[Shahidi F., Brown J.A. 1998 – Carotenoid pigments in seafoods and aquaculture – Crit. Rev. Food Sci. 38: 1-67.10.1080/104086998912741659491309]Search in Google Scholar
[Shawkey M.D., D’Alba L. 2017 – Interactions between colour-producing mechanisms and their effects on the integumentary colour palette – Philos. Trans. R. Soc. B. Biol. Sci. 372: 2016053610.1098/rstb.2016.0536544407228533449]Search in Google Scholar
[Shimidzu N., Goto M., Miki W. 1996 – Carotenoids as singlet oxygen quenchers in marine organisms – Fish. Sci. 62: 134-137.10.2331/fishsci.62.134]Search in Google Scholar
[Simova E., Simov Z., Beshkova D., Frengova G., Dimitrov Z., Spasov Z. 2006 – Amino acid profiles of lactic acid bacteria, isolated from kefir grains and kefir starter made from them – Int. J. Food Microbiol. 107: 112-123.10.1016/j.ijfoodmicro.2005.08.020]Search in Google Scholar
[Tuchapska A., Krazhan S. 2014 – Cultivation of cladoceran for increasing provision of young-of-the-year carp with natural feeds (review) – Fisheries Science of Ukraine 2: 55-68 (in Ukrainian)10.15407/fsu2014.02.055]Search in Google Scholar
[Weaver R.J., Cobine P.A., Hill G.E. 2018 – On the bioconversion of dietary carotenoids to astaxanthin in the marine copepod, Tigriopus californicus – J. Plankton Res. 40: 142-150.10.1093/plankt/fbx072]Search in Google Scholar
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