References

1. K.D. Zink, D.E. Lieberman, Impact of meat and Lower Palaeolithic food processing techniques on chewing in humans, Nature, 531 (2016) 500–509.
2. J.S. Serrano-León, K.B. Bergamaschi, C.M.P. Yoshida, E. Saldaña, M.M. Selani, J.D. Rios-Mera, S.M. Alencar, C.J. Contreras-Castillo, Chitosan active films containing agro-industrial residue extracts for shelf life extension of chicken restructured product, Food. Res. Int., 108 (2018) 93–100.
3. S. Brooks, C.T. Elliot, M. Spence, C. Walsh, M. Dean, Four years post-horsegate: an update of measures and actions put in place following the horsemeat incident of 2013, npj. Sci. Food, 5 (2017) 1–5.
4. J. Filipy, B. Rumburg, G. Mount, H. Westberg, B. Lamb, Identification and quantification of volatile organic compounds from a dairy, Atmos. Environ., 40 (2006) 1480–1494.
5. R.W.R. Parker, J.L. Blanchard, C. Gardner, B.S. Green, K. Hartmann, P.H. Tyedmers, R.A. Watson, Fuel use and greenhouse gas emissions of world fisheries, Nat. Clim. Change., 8 (2018) 333–337.
6. T. Matias, J. Marques, M.J. Quina, L. Gando-Ferreira, A.J.M. Valente, A. Portugal, L. Durães, Silica-based aerogels as adsorbents for phenol-derivative compounds, Colloids. Surf., A., 480 (2015) 260–269.
7. P. Lewkowska, B. Cieślik, T. Dymerski, P. Konieczka, J. Namieśnik, Characteristics of odors emitted from municipal wastewater treatment plant and methods for their identification and deodorization techniques, Environ. Res., 151 (2016) 573–586.
8. R. Munõz, E.C. Sivret, G. Parcsi, R. Lebrero, X. Wang, I.L.M. Suffet, R.M. Stuetz, Monitoring techniques for odor abatement assessment, Water. Res., 44 (2010) 5129–5149.
9. O.D. Frutos, G. Barriguín, R. Lebrero, R. Muñoz, Assessing the influence of the carbon source on the abatement of industrial N₂O emissions coupled with the synthesis of added-value bioproducts, Sci. Total. Environ., 598 (2017) 765–771.
10. C. Lauritano, J. Martin, M. Cruz, F. Reyes, G. Romano, A. Lanora, First identification of marine diatoms with anti-tuberculosis activity, Sci. Rep., 8 (2018) 1–10.
11. X. Wang, K. Bao, W. Cao, Y. Zhao, W.C. Hu, Screening of microalgae for integral biogas slurry nutrient removal and biogas upgrading by different microalgae cultivation technology, Sci. Rep., 7 (2017) 1–12.
12. R. Rippka, J. Deruelles, J.B. Waterbury, M. Herdman, R.Y. Stanier, Generic assignments strain histories and properties of pure cultures of cyanobacteria, J. Gen. Microbiol., 111 (1979) 1–61.
13. American Public Health Association, Standard Methods for the Examination of Water and Wastewater, Washington, USA, v 20, 2005.
14. E.C. Francisco, T.T. Franco, L.Q. Zepka, E. Jacob-Lopes, From waste-to-energy: the process integration and intensification for bulk oil and biodiesel production by microalgae, J. Environ. Chem. Eng., 3 (2015) 482–487.
15. A.B. Santos, A.S. Fernandes, R. Wagner, E. Jacob-Lopes, L.Q. Zepka, Biogeneration of volatile organic compounds produced by Phormidium autumnale in heterotrophic bioreactor, J. Appl. Phycol., 60 (2016) 32–42.
16. T. Acree, H. Arn, Flavornet and human odor space. 2017. Available at: http://www.flavornet.org/f_kovats.html (Accessed on 30 January 2018).
17. Y. Nagata, N. Takeuchi, Determination of odor threshold value by triangle odor bag method, Bull. Japan Environ. Sanitation Center, 17 (1990) 77–89.
18. D. Tonder, M.A. Petersen, L. Poll, C.E. Olsen, Discrimination between freshly made and stored reconstituted orange juice using GC odor profiling and aroma values, Food. Chem., 61 (1998) 223–229.
19. S.L. Guerche, B. Dauphin, M. Pons, D. Blancard, P. Darriet, Characterization of some mushroom and earthy off-odors microbially induced by the development of rot on grapes, J. Agric. Food. Chem., 54 (2006) 9193–9200.
20. M. Czerny, M. Christlbauer, M. Christlbauer, A. Fischer, M. Granvogl, M. Hammer, C. Hartl, N.M. Hernandez, P. Schieberle, Re-investigation on odour thresholds of key food aroma compounds and development of an aroma language based on odour qualities of defined aqueous odorant solutions, Eur. Food. Res. Technol., 228 (2008) 265–273.
21. A. Talaiekhozani, M. Bagheri, A. Goli, M.R.T. Khoozani, An overview of principles of odor production, emission, and control methods in wastewater collection and treatment systems, J. Environ. Manage., 170 (2016) 186–206.
22. E. Sánchez-Palomo, M. Trujillo, A.G. García Ruiz, M.A. González-Viñas, Aroma profile of malbec red wines from La Mancha region: chemical and sensory characterization, Food. Res. Int., 100 (2017) 201–208.
23. I. Steen, S.S. Waehrens, M.A. Petersen, M. Münchow, W.L.P. Bredie, Influence of serving temperature on flavour perception and release of Bourbon Caturra coffee, Food Chem., 219 (2017) 61–68.
24. G. Jiang, D. Melder, J. Keller, Z. Yuan, Odor emissions from domestic wastewater: a review, Crit. Rev. Environ. Sci. Technol., 47 (2017) 1581–1611.
25. M.I. Hosoglu, Aroma characterization of five microalgae species using solid-phase microextraction and gas chromatographymass spectrometry/olfactometry, Food. Chem., .
26. J.C.T. Concepcion, S. Ouk, A. Riedel, M. Calingacion, D. Zhao, M. Ouk, M.J. Garson, M.A. Fitzgerald, Quality evaluation, fatty acid analysis and untargeted profiling of volatiles in cambodian rice, Food. Chem., 240 (2018) 1014–1021.
27. J. Liu, W. Zhao, S. Li, A. Zhang, Y. Zhang, S. Liu, Characterization of the key aroma compounds in proso millet wine using headspace solid-phase microextraction and gas chromatography-mass spectrometry, Molecules, 23 (2018) 1–15.
28. C. Alfonsín, R. Lebrero, J.M. Estrada, R. Munõz, N.J.R. Kraakman, G. Feijoo, M.T. Moreira, Selection of odour removal technologies in wastewater treatment plants: a guideline based on Life Cycle Assessment, J. Environ. Manage., 149 (2015) 77–84.
29. A. Shammay, E.C. Sivret, N. Le-Minh, R.L. Fernandez, I. Evanson, R.M. Stuetz, Review of odour abatement in sewer networks, J. Environ. Chem. Eng., 4 (2016) 3866–3881.
30. J. Gębicki, T. Dymerski, J. Namieśnik, Investigation of Air Quality beside a municipal Landfill: the fate of malodour compounds as a model VOC, Environments, 4 (2017) 7.
31. R.G. Berger, Biotechnology as a source of natural volatile flavours, Curr. Opin. Food. Sci., 1 (2015) 38–43.
32. J.M. Estrada, N.R.J.B. Kraakman, R. Muñoz, R. Lebrero, A comparative analysis of odour treatment technologies in wastewater treatment plants, Environ. Sci. Technol., 45 (2011) 1100–1106.
33. B.E. Logan, D. Call, S. Cheng, H.V.M. Hamelers, T.H.J.A. Sleutels, A.W. Jeremiasse, R.A. Rozendal, Microbial electrolysis cells for high yield hydrogen gas production from organic matter, Environ. Sci. Technol., 42 (2008) 8630–8640.
34. R. Lebrero, D. Volckaert, R. Pérez, R. Munõz, H. Van Langenhove, A membrane bioreactor for the simultaneous treatment of acetone, toluene, limonene and hexane at trace level concentrations, Water Res., 47 (2013) 2199–2212.
35. R. Lebrero, M.G.L. Rangel. R. Muñoz, Characterization and biofiltration of a real odorous emission from wastewater treatment plant sludge, J. Environ. Manage., 116 (2013) 50–57.
36. D.Z. Chen, X.Y. Zhao, X.P. Miao, J.Y. Chen, J.X. Ye, Z.W. Cheng, S.H. Zhang, J.M. Chen, A solid composite microbial inoculant for the simultaneous removal of volatile organic sulfide compounds: preparation, characterization, and its bioaugmentation of a biotrickling filter, J. Hazard. Mater., 342 (2018) 589–596.
37. E. Jacob-Lopes, L.Q. Zepka, M.I. Queiroz, Cyanobacteria and carbon sequestration. In: Cyanobacteria An Economic Perspective, N.K. Sharma, A.K. Rai, L.J. Stal Eds., John Wiley and Sons, LTD, Oxford, 2014, pp. 65–72.
38. K.P. Hayes, M.D. Burch, Odorous compounds associated with algal blooms in South Australian waters, Water. Res., 23 (1989) 115–121.
39. M. Steinke, G. Malin, P.S. Liss, Trophic interactions in the sea: an ecological role for climate relevant volatiles?, J. Phycol., 38 (2002) 630–638.
40. S.B. Watson, P. Monis, P. Baker, S. Giglio, Biochemistry and genetics of taste- and odor-producing cyanobacteria, Harmful. Algae., 54 (2016) 112–127.
41. 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 (2015) 273–279.
42. L.D. Patias, A.S. Fernandes, F.C. Petry, A.Z. Mercadante, E. Jacob-Lopes, L.Q. Zepka, Carotenoid profile of three microalgae/cyanobacteria species with peroxyl radical scavenger capacity, Food Res. Int., 100 (2017) 260–266.
43. G. Britton, W.J.S. Lockley, R. Powls, T.W. Goodwin, L.M. Heyes, Carotenoids transformations during chloroplast development in Scenedesmus obliquus PG1 demonstrated by deuterium labelling, Nature, 268 (1977) 81–82.
44. A.J. Smith, Modes of cyanobacterial metabolism. In: The Biology of Cyanobateria. Botanical Monographs, N.G. Carr and B.A. Whitton, Black well, Oxford, 1983, pp. 47–86.
45. D.B. Rodrigues, E.M.M. Flores, J.S. Barin, A. Mercadante, E. Jacob-Lopes, L.Q. Zepka, Production of carotenoids from microalgae cultivated using agroindustrial wastes, Food. Res. Int., 65 (2014) 144–148.