[Achremowicz, K., Szary-Sworst, K. (2005). Wielonienasycone kwasy tłuszczowe czynnikiem poprawy stanu zdrowia człowieka. Żywność. Nauka. Technologia. Jakość, 3(44), 23-55.]Search in Google Scholar
[Abdul, R., Che Man, Y.B., Yusof, F.M. (2014). The use of FTIR spectroscopy and chemometrics for rapid authentication of extra virgin olive oil. JAOCS, Journal of the American Oil Chemists' Society 91.2, 207-213.]Search in Google Scholar
[Ahmad, J., Yusup, S., Bokhari, A., Kamil, R.N.M. (2014). Study of fuel properties of rubber seed oil based biodiesel. Energy Conversion and Management, 78, 266-275.10.1016/j.enconman.2013.10.056]Open DOISearch in Google Scholar
[Bouzid, O., Navarro, D., Roche, M., Asther, M., Haon, M., Delattre, M., Lorquin, J., Labat, M., Asther, M., Lesage-Meessen, L. (2005). Fungal enzymes as a powerful tool to release simple phenolic compounds from olive oil by-product. Process Biochemistry, 40, 1855-1862.10.1016/j.procbio.2004.06.054]Open DOISearch in Google Scholar
[Bryś, J., Wirkowska, M., Górska, A., Ostrowska-Ligęza, E., Bryś, A., Koczoń, P. (2013). The use of DSC and FT-IR spectroscopy for evaluation of oxidative stability of interesterified fats. Journal of Thermal Analysis and Calorimetry, 1-7, 23.10.1007/s10973-012-2794-4]Search in Google Scholar
[Ciemniewska-Żytkiewicz, H., Bryś, J., Sujka, K., Koczoń, P. (2015). Assessment of the hazelnuts roasting process by pressure differential scanning calorimetry and MID-FT-IR spectroscopy. Food Analytical Methods, 8(10), 2465-2473.10.1007/s12161-015-0133-7]Search in Google Scholar
[Dubois, V., Breton, S., Linder, M., Fanni, J., Parmentier, M. (2007). Fatty acid profiles of 80 vegetable oils with regard to their nutritional potential. European Journal of Lipid Science and Technology, 109, 710-732.10.1002/ejlt.200700040]Search in Google Scholar
[Eder, K., Brandsch, C. (2002). The effect of fatty acid composition of rapeseed oil on plasma lipids and oxidative stability of low-density lipoproteins in cholesterol-fed hamsters. European Journal of Lipid Science and Technology, 104, 3-13.10.1002/1438-9312(200201)104:1<3::AID-EJLT3>3.0.CO;2-A]Search in Google Scholar
[El-Adawy, T.A. Taha, K.M. (2001). Characteristics and composition of different seed oils and flours. Food chemistry, 74, 47-54.10.1016/S0308-8146(00)00337-X]Search in Google Scholar
[Guillen, M.D., Cabo, N. (1997). Infrared spectroscopy in the study of edible oils and fats. Journal of the Science of Food and Agriculture, 75, 1-11.10.1002/(SICI)1097-0010(199709)75:1<1::AID-JSFA842>3.0.CO;2-R]Open DOISearch in Google Scholar
[Guillen, M.D., Cabo, N. (1997). “Characterization of edible oils and lard by Fourier transform infrared spectroscopy. Relationships between composition and frequency of concrete bands in the fingerprint region. Journal of the American Oil Chemists' Society, 74.10, 1281-1286.]Search in Google Scholar
[Gurdeniz, G., Ozen, B. (2009). Detection of adulteration of extra-virgin olive oil by chemometric analysis of mid-infrared spectral data. Food Chemistry, 116, 519-525.10.1016/j.foodchem.2009.02.068]Search in Google Scholar
[Kapoor R., Huang, Y.-S. (2006). Gamma linolenic acid: an antiinflammatory omega-6 fatty acid. Current pharmaceutical biotechnology, 7, 531-534.10.2174/138920106779116874]Search in Google Scholar
[Kim, K.-N., Heo, S.-J., Song, C.B., Lee, J., Heo, M.-S., Yeo, I.-K., Kang, K.A., Hyun, J.W., Jeon, Y.-J. (2006). Protective effect of Ecklonia cava enzymatic extracts on hydrogen peroxide-induced cell damage. Process Biochemistry, 41, 2393-2401.10.1016/j.procbio.2006.06.028]Open DOISearch in Google Scholar
[Koczoń, P., Lipińska, E., Czerniawska-Piątkowska, E., Mikuł, M., Bartyzel, B.J. (2016). The change of fatty acids composition of Polish biscuits during storage. Food chemistry, 202, 341-348.10.1016/j.foodchem.2016.02.019]Search in Google Scholar
[Kolayli, S., Tarhan, O., Kara, M., Aliyazicioglu, Kucuk, R.M. (2011). An investigation of frequently consumed edible oils in Turkey in terms of omega fatty acids. Chemistry of Natural Compounds, 47, 347.10.1007/s10600-011-9929-x]Open DOISearch in Google Scholar
[Koutsouki, A., Tegou, E., Badeka, A., Kontakos, S., P. Pomonis Kontominas, M., (2016). In situ and conventional transesterification of rapeseeds for biodiesel production. The effect of direct sonication. Industrial Crops and Products, 84, 399-407.10.1016/j.indcrop.2016.02.031]Open DOISearch in Google Scholar
[Latif, S., Anwar, F., Ashraf, M. (2007). Characterization of enzyme-assisted cold-pressed cottonseed oil. Journal of Food Lipids, 14, 424-436.10.1111/j.1745-4522.2007.00097.x]Open DOISearch in Google Scholar
[Lazos, E. S., Tsaknis, J., Bante, M., (1995). Changes in pumpkin seed oil during heating. Grasas y aceites, 46, 233-239.10.3989/gya.1995.v46.i4-5.930]Open DOISearch in Google Scholar
[Mansour, E., Dworschak, E.J., Peredi, A. (1993). Lugasi, Evaluation of pumpkin seed (Cucurbita pepo, Kakai 35) as a new source of protein. Acta Alimentaria-an International Journal of Food Science, 22, 3-14.]Search in Google Scholar
[Mehrotra, R. (2006). Infrared Spectroscopy, Gas Chromatography/Infrared in Food Analysis. John Wiley & Sons, Ltd, 2000.]Search in Google Scholar
[Murkovic, M. Pfannhauser, W. (2000). Stability of pumpkin seed oil. European Journal of Lipid Science and Technology, 102, 607-611.10.1002/1438-9312(200010)102:10<607::AID-EJLT607>3.0.CO;2-E]Search in Google Scholar
[Nunes Cleiton, A. (2014). Vibrational spectroscopy and chemometrics to assess authenticity, adulteration and intrinsic quality parameters of edible oils and fats. Food Research International, 60, 255-261.10.1016/j.foodres.2013.08.041]Open DOISearch in Google Scholar
[Obiedzińska, A., Waszkiewicz-Robak, B. (2012). Oleje tłoczone na zimno jako żywność funkcjonalna. Zywność. Nauka. Technologia. Jakość, 1(80), 27-44.]Search in Google Scholar
[Parker, T.D., Adams, D., Zhou, K., Harris, M., Yu, L. (2006). Fatty acid composition and oxidative stability of cold-pressed edible seed oils. Journal of Food Science, 68, 1240-1243.10.1111/j.1365-2621.2003.tb09632.x]Search in Google Scholar
[Parry, J., Hao, Z., Luther, M., Su, L., Zhou, K., Yu, L.L. (2006). Characterization of cold-pressed onion, parsley, cardamom, mullein, roasted pumpkin, and milk thistle seed oils. Journal of the American Oil Chemists' Society, 83, 847-854.10.1007/s11746-006-5036-8]Open DOISearch in Google Scholar
[Parry, J. Yu, L. (2004). Fatty acid content and antioxidant properties of cold-pressed black raspberry seed oil and meal. Journal of Food Science, 69, 22.10.1111/j.1365-2621.2004.tb13356.x]Search in Google Scholar
[Radović, Jagoš, R., Aeppli, Ch., Nelson, R.K., Jimenez, N., Reddy, Ch.M., Bayona,, J.M., Albaigés, J. (2014). Assessment of photochemical processes in marine oil spill fingerprinting. Marine Pollution Bulletin 79.1, 268-277.10.1016/j.marpolbul.2013.11.029]Search in Google Scholar
[Ramadan, M.F. Mörse, l J.-T. (2003). Oil goldenberry (Physalis peruviana L.). Journal of Agricultural and Food Chemistry, 51, 969-974.10.1021/jf020778z]Search in Google Scholar
[Sabudak, T. (2007). Fatty acid composition of seed and leaf oils of pumpkin, walnut, almond, maize, sunflower and melon. Chemistry of Natural Compounds, 43(4), 465-467.10.1007/s10600-007-0163-5]Open DOISearch in Google Scholar
[Safar, M., Bertrand, D., Robert, P., Devaux, M.F., Genot, C. (1994). Characterization of edible oils, butters and margarines by Fourier transform infrared spectroscopy with attenuated total reflectance. Journal of the American Oil Chemists' Society 71.4, 371-377.10.1007/BF02540516]Search in Google Scholar
[Schinas, P., G. Karavalakis, C. Davaris, G. Anastopoulos, D. Karonis Zannikos, F., Stournas, S., Lois, E. (2009). Pumpkin (Cucurbita pepo L.) seed oil as an alternative feedstock for the production of biodiesel in Greece. Biomass and Bioenergy, 33, 44-49.10.1016/j.biombioe.2008.04.008]Search in Google Scholar
[Soto, C., Concha, J., Zuniga, M. (2008). Antioxidant content of oil and defatted meal obtained from borage seeds by an enzymatic-aided cold pressing process. Process Biochemistry, 43, 696-699.10.1016/j.procbio.2008.02.006]Open DOISearch in Google Scholar
[Standard For Named Vegetable Oils Codex Stan. Codex Alimentarius, 210-(1999).]Search in Google Scholar
[Sujka, K., Koczoń, P., Ceglińsk, A., Reder, M., Ciemniewska-Żytkiewicz, H. (2017). The Application of FT-IR Spectroscopy for Quality Control of Flours Obtained from Polish Producers. Journal of analytical methods in chemistry, 1-9, 11.10.1155/2017/4315678]Search in Google Scholar
[Yang, H., Irudayaraj, J., Paradkar, M.M. (2005). Discriminant analysis of edible oils and fats by FTIR, FT-NIR and FT-Raman spectroscopy. Food Chemistry, 93, 25-32.10.1016/j.foodchem.2004.08.039]Open DOISearch in Google Scholar
[Yan-qun, L., De-xin, Kong, Wu, H. (2013). Analysis and evaluation of essential oil components of cinnamon barks using GC–MS and FTIR spectroscopy.” Industrial Crops and Products 41, 269-278.]Search in Google Scholar
[Younis, Y., Ghirmay, S., Al-Shihry, S. (2000). African Cucurbita pepo L.: properties of seed and variability in fatty acid composition of seed oil. Phytochemistry, 54, 71-75.10.1016/S0031-9422(99)00610-X]Search in Google Scholar
[Verma, P., Sharma, M. (2016). Review of process parameters for biodiesel production from different feedstocks. Renewable and Sustainable Energy Reviews, 62, 1063-1071.10.1016/j.rser.2016.04.054]Open DOISearch in Google Scholar
[Vlachos, N., Skopelitis, Y., Psaroudaki, M., Konstantinidou, V., Chatzilazarou, A., Tegou, E. (2006). Applications of Fourier transform-infrared spectroscopy to edible oils.” Analytica Chimica Acta, 573, 459-465.10.1016/j.aca.2006.05.03417723561]Search in Google Scholar