The investigation of pretreatment irradiation power and time of microwave on total phenolic content, oxidative stability and the physicochemical properties of Cannabis oil
Subject Areas : Chemistry and analysis of natural compounds
1 - Department of Chemistry, Gonbad Kavous Branch, Islamic Azad University,
Gonbad Kavous, Iran.
Keywords: Pretreatment, Microwave, Total Phenol, Oxidative stability, Cannabis oil,
Abstract :
In this study, the effects of pretreatment irradiation power and time of microwave on total phenolic content , oxidative stability and the physicochemical properties of Cannabis oil, which included: extraction efficiency, acidity values, refractive and color index were studied by a completely randomized design in the form of 3×3 factorial experiment with three levels of applied microwave irradiation power (180, 540 and 900 W) and three microwave time levels (90, 180 and 270 seconds) and three replications. The hemp seeds were supplied from animal feed store in Gonbad kavous city in early spring of 2017 and oils were obtained by using spiral press .The SAS software was used for data analysis. The results were showed that with increasing microwave power, the oil extraction efficiency, acidity, color index, oxidative stability and total phenol increased significantly (p< 0.01). Increasing the microwave time also led to an increase in the oil extraction efficiency, acidity, density, oxidative stability and total phenol. The pretreatment microwave had no significant effect on the oil refractive index. The maximum oil extraction efficiency was obtained from seeds which had a microwave power and time of 900 watts and 270 seconds respectively. The maximum oxidative stability (9.33 hours) was achieved when the applied microwave power and time were at their maximized levels. Overall, regarding the achieved results it can be concluded that the use of microwave in order to treatment of hemp seeds before oil extraction by cold press can improve the oil extraction efficiency and increase phenolic compounds.
- Anjum, F., Anwar, F., Jamil, A. and Iqbal, M. 2006. Microwave Roasting Effects on the Physico-chemical Composition and Oxidative Stability of Sunflower Seed Oil. Journal of the American Oil Chemists' Society, 83(9): 777-784.
- AOAC. 2008. Official methods of analysis of the association of official analytical chemists, Vol. II. Arlington, VA: Association of Official Analytical Chemists.
- AOCS., 1993. Official Methods and Recommended Practices of the American Oil Chemists’ Society.
- Bail, S., Stuebiger, G., Krist, S., Unterweger, H. and Buchbauer, G. 2008. Characterisation of various grape seed oils by volatile compounds, triacylglycerol composition, total phenols and antioxidant capacity. Journal of Food Chemistry, 108: 1122–1132.
- Bakhshabadi, H., Mirzaei, H.O., Ghodsvali, A., Jafari, S.M., Ziaiifar, A.M. and Farzaneh, V. 2017. The effect of microwave pretreatment on some hysic-chemical properties and bioactivity of Black cumin seeds’ oil. Industrial Crops and Products, 97: 1–9.
- Bruhn, C.M., 1995. Consumer attitudes and marketresponse to irradiated food. Journal of Food Protection.58:175-181.
- Crowley, J. and Rice, B. 1998. Hemp (Cannabis sativa L.) production and uses in Ireland. Journal of the International Hemp Association, 5: 40-44.
- Ghavami, M. Gharachorloo, M., and Ezatpanah, H. 2003. Effect of frying on the oil quality properties used in the industry potato chips. Journal of Agricultural and Science, 9(1): 1-15.
- Holser, R.A. 2003. Properties of refined milkweed press oil. Industrial crops and products, 18: 133-138.
- Jiao, J., Li, Z.G., Gai, Q.Y., Li, X.G., Wei, F.U., Fu, Y.J. and Ma, W. 2014. Microwave-assisted aqueous enzymatic extraction of oil from pumpkin seeds and evaluation of its physicochemical properties, fatty acid compositions and antioxidant activities. Food Chemistry. 147: 17-24.
- Kalmendal, R. 2008. Hemp seed cake fed to broilers. Swedish University of Agricultural Sciences Department of Animal Nutrition and Management. pp: 4-15.
- Kim, I.H., Kim, C.J., You, J.M., Lee, K.W., Kim, C.T., Chung, S.H. and Tae, B.S. 2002. Effect of roasting temperature and time on the chemical composition of ricegerm oil. Journal of the American oil chemist’s society, 79: 413–418.
- Kittiphoom, S. and Sutasinee, S. 2015. Effect of microwaves pretreatments on extraction yield and quality of mango seed kernel oil. International Food Research Journal, 22(3): 960-964.
- Koga, T. 1997. Linoleic and alpha Linolenice acids differently modify the effects of elaidic acid on polyunsaturated fatty acid metabolism and some immune indices in rats. Br. Nut. 77(4): 645-656.
- Lee, Y.C., Oh, S.W., Chang, J. and Kim, I.H. 2004. Chemical composition and oxidative stability of safflower oil prepared from safflower seed roasted with different temperatures. Food Chemistry, 84: 1–6.
- Malek, F. 2001. Edible fats and vegetable oils. Farhang-o Ghalam Publication. 464 p. (In Persian).
- Mand, Ch. and Mediavilla, V. 1998. Factor influencing the yield and quality of hemp (Cannabis sativa L.) essential oil. Journal of the International Hemp Association, 5: 16-20.
- Mandal, V., Mohan, Y. and Hemalatha, S. 2007. Microwave Assisted Extraction – An Innovative & Promising Extraction Tool for Medicinal Plant Research. Pharmacognosy Reviews, 1: 8-14.
- Matthaus, B. 2006. Utilization of high – oleic rapeseed oil for deep-fat frying of French fries compared to other commonly used edible oils. European Journal of Lipid Science and Technology. 108: 200-211.
- Megahad, M.G. 2001. Microwave Roasting of Peanuts: Effects on Oil Characteristics and Composition. Nahrung. 45: 255–257.
- Mohamed, H.M.A. and Awatif, I.I. 1998. The use of sesame oil unsaponifiable matter asa natural antioxidant. Food Chemistry. 62:269-276.
- Momeny, E., Rahmati, S. and Ramli, N. 2012. Effect of Microwave Pretreatment on the Oil Yield of Mango Seeds for the Synthesis of a Cocoa Butter Substitute. Journal of Food Processing & Technology. 3(7): 1-7.
- Muanda, F.N., Soulimani, R., Diop, B. and Dicko, A. 2011. Study on chemical composition and biological activities of essential oil and extracts from Steviare baudiana Bertoni leaves. LWT- Food Science and Technology. 44: 1865-1872.
- Muenzing, K. and Zwingelberg, H. 1999. Investigations in to the processing of the hemp seeds for food .Journal Getreid. Mehl. Und. Brot. 53(3)180-186.
- Oomah, B., Busson, M., God frey, D. and Drover, J. 2002. Characteristics of hemp (Cannabis Sativa L.) seed oil. Food Chemistry, 76: 33-43.
- Proestos, C. and Komaitis, M., 2008. Application of microwave-assisted extraction to the fast extraction of plant phenolic compounds. Lebensm. Wiss. U. Technol. 41: 652–659.
- Radfar, R., 2007. Review of selected countries support polities affecting the edible Oil and oilseeds sector, the abstracts of the2nd Scientific-Applicable seminar of Iranian Oilseeds & Vegetable Oils (I.O.V.O.), 75.
- Spielmeyer, A., Wagner, A. and Jahreis, G., 2009. Influence of thermal treatment ofrapeseed on the canolol content. Food Chemistry, 112: 944–948.
- Terigar, B.G., Balasubramanian, S., Sabliov, C.M., Lima, M. and Boldor, D., 2011. Soybean and rice bran oil extraction in a continuous microwave system: From laboratory- to pilot-scale. Journal of Food Engineering, 104(2): 208–217.
- Uquiche, E., Jeréz, M. and Ort, Z.J., 2008. Effect of pretreatment with microwaves on mechanical extraction yield and quality of vegetable oil from Chilean hazelnuts (Gevuina avellana Mol). Innovative Food Science and Emerging Technologies, 9: 495–500.
- Veldsink, J.W., Muuse, B.G., Meijer, M.M.T., Cuperus, F.P., van de Sande, R.L.K.M. and van Putte, K.P.A.M. 1999. Heat pre-treatment of oilseeds: effect on oil quality. Fett/Lipid. 101(7): 244–248.
- Wang, X., Tang, C., Yang, X. and Gao, W. 2008. Characterization, amino acid composition and vitro digestibility of hemp (Cannabis Sativa L.) proteins. Food Chemistry, 107: 11-18.
- Yoshida, H., Tomiyama, Y., Hirakawa, Y. and Mizushina, Y. 2006. Microwave roasting effects on the oxidative stability of oils and molecular species of triacylglycerols in the kernels of pumpkin (Cucurbita spp.) seeds. Journal of Food Composition and Analysis, 19: 330-339.
- Yoshimatsu, K., Iicla, O., and Kitazawa, T. 2004. Growth characteristics of Cannabis sativacultivated in a phytotron and in the field. Bulletin on Natural Instruction of Health Science, 122: 16-20.
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