References

  1. L. Evans, S.J. Hennige, N. Willoughby, A.J. Adeloye, M. Skroblin, T. Gutierrez, Effect of organic carbon enrichment on the treatment efficiency of primary settled wastewater by Chlorella vulgaris, Algal Res., Part A, 24 (2017) 368–377.
  2. A.M. dos Santos, A.M. Santos, I.A. Severo, M.I. Queiroz, L.Q. Zepka, E. Jacob-Lopes, Nutrient Cycling in Wastewater Treatment Plants by Microalgae-Based Processes in: S.N. Barton (Ed.) Industrial Waste: Management, Assessment and Environmental Issues Nova Science Publishers, Inc., New York, 2016, pp. 41–63.
  3. S.A. Razzak, M.M. Hossain, R.A. Lucky, A.S. Bassi, H. de Lasa, Integrated CO2 capture, wastewater treatment and bio fuel production by microalgae culturing—A review, Renew. Sustain. Energy Rev., 27 (2013) 622–653.
  4. A.P. Batista, L. Ambrosano, S. Graça, C. Sousa, P.A.S.S. Marques, B. Ribeiro, E.P. Botrel, P. Castro Neto, L. Gouveia, Combining urban wastewater treatment with biohydrogen production – An integrated microalgae-based approach, Bioresour. Technol., 184 (2015) 230–235.
  5. L. Brennan, P. Owende, Biofuels from microalgae—A review of technologies for production, processing, and extractions of biofuels and co-products, Renew. Sustain. Energy Rev., 14 (2010) 557–577.
  6. L. Zhu, Biorefinery as a promising approach to promote microalgae industry: An innovative framework, Renew. Sustain. Energy Rev., 41 (2015) 1376–1384.
  7. J. Trivedi, M. Aila, D.P. Bangwal, S. Kaul, M.O. Garg, Algae based biorefinery—How to make sense?, Renew. Sustain. Energy Rev., 47 (2015) 295–307.
  8. L.D. Zhu, E. Hiltunen, Application of livestock waste compost to cultivate microalgae for bioproducts production: A feasible framework, Renew. Sustain. Energy Rev., 54 (2016) 1285–1290.
  9. C. Ratledge, Fatty acid biosynthesis in microorganisms being used for single cell oil production, Biochimie, 86 (2004) 807–815.
  10. C. Ratledge, Single cell oils for the 21st century, in, AOCS Press, Champaign, 2010, pp. 3–26.
  11. M.I. Queiroz, M.O. Hornes, A.G. da Silva-Manetti, E. Jacob- Lopes, Single-cell oil production by cyanobacterium Aphanothece microscopica Nägeli cultivated heterotrophically in fish processing wastewater, Appl. Energy, 88 (2011) 3438–3443.
  12. M.M. Maroneze, J.S. Barin, C.R.d. Menezes, M.I. Queiroz, L.Q. Zepka, E. Jacob-Lopes, Treatment of cattle-slaughterhouse wastewater and the reuse of sludge for biodiesel production by microalgal heterotrophic bioreactors, Sci. Agric., 71 (2014) 521–524.
  13. M.D. Guiry, G.M. Guiry, AlgaeBase. World-Wide Electronic Publication, in, National University of Ireland, 2017.
  14. R. Rippka, J. Deruelles, J.B. Waterbury, M. Herdman, R.Y. Stanier, Generic assignments, strain histories and properties of pure cultures of cyanobacteria, Microbiology, 111 (1979) 1–61.
  15. APHA, Water Environment, Standard methods for the examination of water and wastewater, American Public Health Association, Washington, D.C., 2005.
  16. AOAC, Official methods of analysis of AOAC International, AOAC International, Gaithersburg, Md., 2002.
  17. E.G. Bligh, W.J. Dyer, A rapid method of total lipid extraction and purification, Canad. J. Biochem. Physiol., 37 (1959) 911–917.
  18. L. Hartman, R.C.A. Lago, Rapid preparation of fatty acids methyl esters, Lab. Practice, 22 (1973) 475–476.
  19. M.F. Mesko, P.A. Mello, C.A. Bizzi, V.L. Dressler, G. Knapp, É.M.M. Flores, Iodine determination in food by inductively coupled plasma mass spectrometry after digestion by microwave- induced combustion, Anal. Bioanal. Chem., 398 (2010) 1125–1131.
  20. D.B. Rodrigues, C.R. Menezes, A.Z. Mercadante, E. Jacob-Lopes, L.Q. Zepka, Bioactive pigments from microalgae Phormidium autumnale, Food Res. Int., 77(Part 2) (2015) 273–279.
  21. B. Soni, B. Kalavadia, U. Trivedi, D. Madamwar, Extraction, purification and characterization of phycocyanin from Oscillatoria quadripunctulata—Isolated from the rocky shores of Bet-Dwarka, Gujarat, India, Process Biochem., 41 (2006) 2017–2023.
  22. A. Bennett, L. Bogorad, Complementary chromatic adaptation in a filamentous blue-green alga, J. Cell Biology, 58 (1973) 419–435.
  23. E. Rodrigues, L.R.B. Mariutti, R.C. Chisté, A.Z. Mercadante, Development of a novel micro-assay for evaluation of peroxyl radical scavenger capacity: Application to carotenoids and structure–activity relationship, Food Chem., 135 (2012) 2103–2111.
  24. B. Ou, M. Hampsch-Woodill, R.L. Prior, Development and validation of an improved oxygen radical absorbance capacity assay using fluorescein as the fluorescent probe, J. Agric. Food Chem., 49 (2001) 4619–4626.
  25. A.F. Talebi, M. Tabatabaei, Y. Chisti, Biodiesel analyzer: a userfriendly software for predicting the properties of prospective biodiesel, Biofuel Res. J., 1 (2014) 55–57.
  26. A.M. dos Santos, G.R. Roso, C.R.d. Menezes, M.I. Queiroz, L.Q. Zepka, E. Jacob-Lopes, The bioeconomy of microalgal heterotrophic bioreactors applied to agroindustrial wastewater treatment, Desal. Water Treat., 64 (2017) 12–20.
  27. M.I. Queiroz, E. Jacob-Lopes, L.Q. Zepka, R.G. Bastos, R. Goldbeck, The kinetics of the removal of nitrogen and organic matter from parboiled rice effluent by cyanobacteria in a stirred batch reactor, Bioresour. Technol., 98 (2007) 2163–2169.
  28. E.B. D’Alessandro, N.R. Antoniosi Filho, Concepts and studies on lipid and pigments of microalgae: A review, Renew. Sustain. Energy Rev., 58 (2016) 832–841.
  29. S.F. Siqueira, É.C. Francisco, M.I. Queiroz, C.R.d. Menezes, L.Q. Zepka, E. Jacob-Lopes, Third generation biodiesel production from microalgae Phormidium autumnale, Brazil. J. Chem. Eng., 33 (2016) 427–433.
  30. A. Meireles dos Santos, K.R. Vieira, R. Basso Sartori, A. Meireles dos Santos, M.I. Queiroz, L. Queiroz Zepka, E. Jacob-Lopes, Heterotrophic cultivation of cyanobacteria: study of effect of exogenous sources of organic carbon, absolute amount of nutrients, and stirring speed on biomass and lipid productivity, Front. Bioeng. Biotechnol., 5 (2017) 1–7.
  31. M.J. Ramos, C.M. Fernández, A. Casas, L. Rodríguez, Á. Pérez, Influence of fatty acid composition of raw materials on biodiesel properties, Bioresour. Technol., 100 (2009) 261–268.
  32. ASTM D6751-15ce, Standard Specification for Biodiesel Fuel (B100) Blend Stock for Distillate Fuels, in: ASTM International, West Conshohocken, PA, 2002.
  33. EN 14214, Fatty acid methyl esters (FAME) for diesel engines -Requirements and test methods, in: Automotive fuels, EU Standard, 2003.
  34. ANP 255, Provisional Brazilian Biodiesel Standard ANP, in: Agencia Nacional do Petróleo (Ed.), 2003.
  35. G. Knothe, L.F. Razon, Biodiesel fuels, Progr. Energy Combus. Sci., 58 (2017) 36–59.
  36. FAO, Amino-acid content of food and biological data on proteins, Food and Agriculture Organization, Rome, 1970.
  37. Commission Regulation, Sets maximum levels for certain contaminants in foodstuffs, in: European Commission (Ed.) (EC) No 1881/2006, Official Journal of the European Union, 2006.
  38. N. Suttle, Ruminant Nutrition – Digestion and Absorption of Minerals and Vitamins, in: Reference Module in Food Science, Elsevier, 2016.
  39. K.W. Chew, J.Y. Yap, P.L. Show, N.H. Suan, J.C. Juan, T.C. Ling, D.-J. Lee, J.-S. Chang, Microalgae biorefinery: High value products perspectives, Bioresour. Technol., 229 (2017) 53–62.
  40. A.C. Guedes, H.M. Amaro, F.X. Malcata, Microalgae as sources of carotenoids, Marine Drugs, 9 (2011) 625–644.
  41. R. Pangestuti, S.-K. Kim, Biological activities and health benefit effects of natural pigments derived from marine algae, J. Funct. Foods, 3 (2011) 255–266.
  42. S.P. Cuellar-Bermudez, I. Aguilar-Hernandez, D.L. Cardenas- Chavez, N. Ornelas-Soto, M.A. Romero-Ogawa, R. Parra-Saldivar, Extraction and purification of high-value metabolites from microalgae: essential lipids, astaxanthin and phycobiliproteins, Microb. Biotechnol., 8 (2015) 190–209.
  43. S. Benedetti, F. Benvenuti, S. Scoglio, F. Canestrari, Oxygen radical absorbance capacity of phycocyanin and phycocyanobilin from the food supplement aphanizomenon flos-aquae, J. Med. Food, 13 (2010) 223–227.
  44. B.P. Chew, Importance of antioxidant vitamins in immunity and health in animals, Animal Feed Sci. Technol., 59 (1996) 103–114.
  45. E.J. Olguín, Dual purpose microalgae–bacteria-based systems that treat wastewater and produce biodiesel and chemical products within a biorefinery, Biotechnol. Adv., 30 (2012) 1031–1046.
  46. X. Zeng, X. Guo, G. Su, M.K. Danquah, S. Zhang, Y. Lu, Y. Sun, L. Lin, Bioprocess considerations for microalgal-based wastewater treatment and biomass production, Renew. Sustain. Energy Rev., 42 (2015) 1385–1392.