(4): 293–308.
12 EC (2015). Commission implementing decision (EU) 2015/546 of 31 March 2015 authorising an extension of use of DHA and EPA‐rich oil from the micro‐algae Schizochytrium sp. as a novel food ingredient under Regulation (EC) No 258/97 of the European Parliament and of the Council. Official Journal of the European Union 90: 11–13.
13 EU (2019). EUROSTAT – EU Statistical Office.
14 European Commission (2019). EU Crops Market Observatory – oilseeds and protein crops.
15 FAO (2013). Edible Insects: Future Prospects for Food and Feed Security. Rome, Italy: FAO.
16 FAO (2018). Oilseeds and oilseed products. In: OECD‐FAO Agricultural Outlook 2018–2027, 127–138. OECD Publishing.
17 Feoll, C.E. and Ingaramo, J. (2015). South America perspectives on sunflower production and processing. In: Sunflower: Chemistry, Production, Processing, and Utilization (eds. E. Martinez‐Force, N.T. Dunford and J.J. Salas), 517–553. Champaign, IL: AOAC Press.
18 Ferraris, S. (2019). Market situation in the olive oil and table olives sector. Committee for the Common Organisation of the Agricultural Markets: European Comission.
19 Foale, M. (2005). An introduction to the coconut palm. In: Coconut Genetic Resources (eds. P. Batugal, V.R. Rao and J. Oliver), 1–12. Selangor, Malaysia: International Plant Genetic Resources Institute – Regional Office for Asia, the Pacific and Oceania.
20 Garrido‐Cardenas, J.A., Manzano‐Agugliaro, F., Acién‐Fernández, F.G. et al. (2018). Microalgae research worldwide. Algal Research 35: 50–60.
21 Gunn, B.F., Baudouin, L., and Olsen, K.M. (2011). Independent origins of cultivated coconut (Cocos nucifera L.) in the old world tropics. PLoS One 6 (6): e21143.
22 Gunstone, F. (ed.) (2011a). Production and trade of vegetable oils. In: Vegetable Oils in Food Technology: Composition, Properties and Uses, 1–24. Pondicherry, India: Wiley.
23 Gunstone, F. (2011b). Vegetable Oils in Food Technology: Composition, Properties and Uses. Pondicherry, India: Wiley.
24 Gupta, M. (2017). Practical Guide to Vegetable Oil Processing. San Diego, CA: Elsevier.
25 van Heerwaarden, J., Doebley, J., Briggs, W.H. et al. (2011). Genetic signals of origin, spread, and introgression in a large sample of maize landraces. Proceedings of the National Academy of Sciences of the United States of America 108 (3): 1088–1092.
26 Henders, S., Persson, U.M., and Kastner, T. (2015). Trading forests: land‐use change and carbon emissions embodied in production and exports of forest‐risk commodities. Environmental Research Letters 10 (12): e125012.
27 Islam, M.A., Heimann, K., and Brown, R.J. (2017). Microalgae biodiesel: current status and future needs for engine performance and emissions. Renewable and Sustainable Energy Reviews 79: 1160–1170.
28 Kajla, P., Sharma, A., and Sood, D.R. (2015). Flaxseed—a potential functional food source. Journal of Food Science and Technology 52 (4): 1857–1871.
29 Kumar, P.P. and Krishna, A.G. (2015). Physicochemical characteristics of commercial coconut oils produced in India. Grasas y Aceites 66 (1): e 062.
30 Lafarga, T. (2019). Effect of microalgal biomass incorporation into foods: nutritional and sensorial attributes of the end products. Algal Research 41: 101566.
31 Lafarga, T. (2020). Cultured microalgae and compounds derived thereof for food applications: strain selection and cultivation, drying, and processing strategies. Food Reviews International 36: 559–586.
32 Lafarga, T., Acién‐Fernández, F.G., and García‐Vaquero, M. (2020). Bioactive peptides and carbohydrates from seaweed for food applications: natural occurrence, isolation, purification, and identification. Algal Research 48: 101909.
33 Le Chef, E. and Kemper, T. (2015). Sunflower seed preparation and oil extraction. In: Sunflower: Chemistry, Production, Processing, and Utilization (eds. E. Martinez‐Force, N.T. Dunford and J.J. Salas), 187–226. Champaign, IL: AOAC Press.
34 Lee, G.A., Crawford, G.W., Liu, L. et al. (2011). Archaeological soybean (Glycine max) in East Asia: does size matter? PLoS One 6 (11): e26720.
35 MacDonald, I., Oghale, O.U., Sheena, O.E. et al. (2018). Physicochemical properties, antioxidant activity and phyto‐nutritional composition of cold and hot pressed coconut oils. GSC Biological and Pharmaceutical Sciences 5 (1): 56–66.
36 Mariod, A.A., Mirghani, M.E.S., and Hussein, I. (eds.) (2017). Unconventional Oilseeds and Oil Sources. London: Academic Press.
37 Mba, O.I., Dumont, M.J., and Ngadi, M. (2015). Palm oil: processing, characterization and utilization in the food industry – a review. Food Bioscience 10 (1): 26–41.
38 O'Brien, R., Jones, L.A., King, C.C. et al. (2005). Cottonseed oil. In: Bailey's Industrial Oil and Fat Products (ed. F. Shahidi), 136–159. Hoboken, NJ: Wiley.
39 Oomah, B.D. (2001). Flaxseed as a functional food source. Journal of the Science of Food and Agriculture 81 (9): 889–894.
40 Pandey, M.K., Wang, M.L., Qiao, L. et al. (2014). Identification of QTLs associated with oil content and mapping FAD2 genes and their relative contribution to oil quality in peanut (Arachis hypogaea L.). BMC Genetics 15 (1): ID133.
41 Pirker, J., Mosnier, A., Fraxner, F. et al. (2016). What are the limits to oil palm expansion? Global Environmental Change 40 (1): 73–81.
42 Ramanatha Rao, V., Hodgkin, T., and Bourdeix, R. (2005). Locating coconut genetic diversity. In: Coconut Genetic Resources (eds. P. Batugal, V.R. Rao and J. Oliver), 13–74. Selangor, Malaysia: International Plant Genetic Resources Institute – Regional Office for Asia, the Pacific and Oceania.
43 Ranum, P., Peña‐Rosas, J.P., and Garcia‐Casal, M.N. (2014). Global maize production, utilization, and consumption. Annals of the New York; Academy of Sciences 1312 (1): 105–112.
44 Salas, J.J., Bootello, M.A., and Garcés, R. (2015). Food uses of sunflower oil. In: Sunflower: Chemistry, Production, Processing, and Utilization (eds. E. Martinez‐Force, N.T. Dunford and J.J. Salas), 441–464. Champaign, IL: AOAC Press.
45 Savoire, R., Lanoisellé, J.L., and Vorobiev, E. (2013). Mechanical continuous oil expression from oilseeds: a review. Food and Bioprocess Technology 6 (1): 1–16.
46 Saxena, D.K., Sharma, S.K., and Sambi, S.S. (2011). Comparative extraction of cottonseed oil by n‐hexane and ethanol. ARPN Journal of Engineering and Applied Sciences 6 (1): 84–89.
47 Shasidhar, Y., Vishwakarma, M.K., Pandey, M.K. et al. (2017). Molecular mapping of oil content and fatty acids using dense genetic maps in groundnut (Arachis hypogaea L.). Frontiers in Plant Science 8 (1): 794.
48 Skarka, J. (2012). Microalgae biomass potential in Europe. Technikfolgenabschätzung – Theorie und Praxis 21 (1): 72–79.
49 Sosa, D.A.T. and Fogliano, V. (2017). Potential of insect‐derived ingredients for food applications. In: Insect Physiology and Ecology (ed. V.D.C. Shields), 215–231. Rijeka, Croatia: IntechOpen.
50 Torres, A.M., Barros, G.G., Palacios, S.A. et al. (2014). Review on pre‐ and post‐harvest management of peanuts to minimize aflatoxin contamination. Food Research International 62 (1): 11–19.
51 UN FAOSTAT – FAO statistical database (United Nations). (2019).
52 USDA (2017). Oilseeds: World Markets and Trade. Washington, DC: USDA Foreign Agricultural Service.
53 USDA (2018). Oil Crops Outlook. Washington, DC: USDA.
54 USDA (2019a). Oilseeds: World Markets and Trade. Washington, DC: USDA Foreign Agricultural Service.
55 USDA (2019b). World Agricultural Supply and Demand Estimates. Washington, DC: USDA.
56 Vijay, V., Pimm, S.L., Jenkins, C.N. et al. (2016). The impacts of oil palm on recent deforestation and biodiversity loss. PLoS One 11 (7): e0159668.
57 Wan, Y., Li, H., Fu, G. et al. (2015). The relationship of antioxidant components and antioxidant activity of sesame