[Ballhorn, D. J. (2011). Cyanogenic glycosides in nuts and seeds. In: Preedy, V. R., Watson, R. R., Patel, V. B. (eds.). Nuts and Seeds in Health and DiseasePrevention (1st edn.) (pp. 129-136). London, Burlington, San Diego: Academic Press.]Search in Google Scholar
[Barceloux, D. G. (2009). Cyanogenic foods (cassava, fruit kernels, and cycad seeds). Dis.-a-Mon., 55 (6), 336-352. 10.1016/j.disamonth.2009.03.01019446677]Search in Google Scholar
[Deineka, V. I., Deineka, L. A. (2004). Type composition of triglycerides from seed oils. II. Triglycerides from certain cultivated plants of the Rosaceae family. Chem. Nat. Comp., 40 (4), 293-294.]Search in Google Scholar
[Fend, D., Shen, Y., Chavez, E. R. (2003). Effectiveness of different processing methods in reducing hydrogen cyanide content of flaxseed. J. Sci. FoodAgric., 83 (8), 836-841.]Search in Google Scholar
[Fromm, M., Bayha, S., Carle, R., Kammerer D. R. (2012). Characterization and quantitation of low and high molecular weight phenolic compounds in apples. J. Agric. Food Chem., 60 (5), 1232-1242.10.1021/jf204623d22220632]Search in Google Scholar
[Gora, J., Kurowska, A. (1979). Chemical composition of the seed oil from Japanese quince Chaenomeles Japonica. Herba Pol., 25, 53-56.]Search in Google Scholar
[Granados, M. V., Vila, R., Laencina, J., Rumpunen, K., Ros, J. M. (2003). Characteristics and composition of Chaenomeles seed oil. In: Rumpunen, K. (Ed.). Japanese Quince - Potential Fruit Crop for Northern Europe (pp. 141-147). Alnarp: Balsgård-Department of Crop Science, Swedish University of Agricultural Sciences.]Search in Google Scholar
[Hellin, P., Jordan, M. J., Vila, R., Gustafsson, M., Göransson, E., Åkesson, B., Gröön, I., Laencina, J., Ros, J. M. (2003). Processing and products of Japanese quince (Chaenomeles japonica) fruits. In: Rumpunen, K. (Ed.). Japanese Quince - Potential Fruit Crop for Northern Europe (pp.169-175). Alnarp: Balsgård-Department of Crop Science, Swedish University of Agricultural Sciences.]Search in Google Scholar
[Ismail, M., Mariod, A., Bagalkotkar, G., Ling, H. S. (2010). Fatty acid composition and antioxidant activity of oils from two cultivars of cantaloupe extracted by supercritical fluid extraction. Grasas Aceites, 61(1), 37-44.10.3989/gya.053909]Search in Google Scholar
[Jordan, M. J., Vila, R., Hellin, P., Laencina, J., Rumpunen, K., Ros, J. M. (2003). Volatile compounds associated with the fragrance and flavour of Chaenomeles juice. In: Rumpunen, K. (Ed.). Japanese Quince-PotentialFruit Crop for Northern Europe (pp. 149-157). Alnarp: Balsgård-Department of Crop Science, Swedish University of Agricultural Sciences.]Search in Google Scholar
[Maria L. S., de Mello Bora, P. S., Narain, N. (2001). Fatty and amino acids composition of melon (Cucumis melo var. saccharinus) seeds. J. FoodComp. Anal., 14 (1), 69-74.]Search in Google Scholar
[Michotte, D., Rogez, H., Chirinos, R., Mignolet, E., Campos, D., Larondelle, Y. (2011). Linseed oil stabilization with pure natural phenolic compounds. Food Chem., 129 (3), 1228-1231.10.1016/j.foodchem.2011.05.10825212361]Search in Google Scholar
[Mierina, I., Jure, M. (2010). Antioksidantu aktivitâtes noteikðanas metodes [Methods of assessment of antioxidant activity]. Latvijas Íîmijas Þurnâls, 49 (2/4), 221-234 (in Latvian).]Search in Google Scholar
[Mierina, I., Serzane, R., Strele, M., Moskaluka, J., Seglina, D., Jure M. (2011). Extracts of Japanese quince seeds - potential source of antioxidants. In Conference Proceedings of 6th Baltic Conference on Food Scienceand Technology: Innovations for Food Science and Production (pp. 98-103). Jelgava, Latvia: Latvia University of Agriculture.]Search in Google Scholar
[Moreau, R. A., Wayns, K. E., Flores, R. A., Hicks, K. B. (2007). Tocopherols and tocotrienols in barley oil prepared from germ and other fractions from scarification and sieving of hulless barley. Cereal Chem., 84 (6), 587-592.10.1094/CCHEM-84-6-0587]Search in Google Scholar
[Mukhamedova, Kh. S., Akbarov, R. R., Akramov, S. T. (1979). Amounts of phospholipids and phytin in the seeds of various plants II. Chem. Nat. Comp., 13 (4), 422-424.]Search in Google Scholar
[Nogala-Kalucka, M., Rudzinska, M., Zadernowski, R., Siger, A., Krzyzostaniak, I. (2010). Phytochemical content and antioxidant properties of seeds of unconventional oil plants. J. Amer. Oil Chem. Soc., 87 (12), 1481-1487.10.1007/s11746-010-1640-8]Search in Google Scholar
[Omar, K. A., Shan, L., Wang, Y. L., Wang, X. (2010). Stabilizing flaxseed oil with individual antioxidants and their mixtures. Eur. J. Lipid Sci. Technol., 112 (9), 1003-1011.10.1002/ejlt.200900264]Search in Google Scholar
[Panfili, G., Fratianni, A., Di Criscio, T., Marconi, E. (2008). Tocol and -glucan levels in barley varieties and in pearling by-products. FoodChem., 107 (1), 84-91.10.1016/j.foodchem.2007.07.043]Search in Google Scholar
[Poiana, M. A. (2012). Enhancing oxidative stability of sunflower oil during convective and microwave heating using grape seed extract. Int. J. Mol. Sci., 13, 9240-9259.10.3390/ijms13079240343029522942764]Search in Google Scholar
[Poiss, G. (2004). Vairâkkomponentu augu eïïu raþoðana ar aukstâs izspieðanas paòçmienu [Production of multi-component vegetable oils using cold pressing method]. LV Patent No. 13200. Riga: Patent Office of the Republic of Latvia. (in Latvian).]Search in Google Scholar
[Rubilar, M., Morales, E., Sáez, R., Acevedo, F., Palma, B., Villarroel, M., Shene, C. (2012). Polyphenolic fractions improve the oxidative stability of microencapsulated linseed oil. Eur. J. Lipid Sci. Technol., 114 (7), 760-771.10.1002/ejlt.201100230]Search in Google Scholar
[Ruisa, S. (1996). Investigations on organic acid content in fruits, processing products and seed oil content of Chaenomeles japonica. In: Collection ofscientific articles: Problems of Fruit Plant Breeding. Vol. 1 (pp. 24-31). Jelgava: LLU, 1996.]Search in Google Scholar
[Seglina, D. (2001). Processing of Chaenomeles japonica. In: Reports of theScientific Practical Conference: Future Trends in Food and Nutrition Development (pp. 88-90). Jelgava, Latvia: Latvia University of Agriculture, University of Latvia.]Search in Google Scholar
[Singleton, V. L., Orthofer, R. M., Lamuela-Raventos, R. M. (1999). Analysis of total phenols and other oxidant substrates and antioxidants by means of Folin-Ciocalteu reagent. Meth. Enzymol., 299, 152-178.10.1016/S0076-6879(99)99017-1]Search in Google Scholar
[Sokolowska-Wozniak, A., Szewczyk, K., Nowak, R. (2002). Phenolic acids from Cydonia japonica Pers. Herba Polonica, 48 (4), 214-218.]Search in Google Scholar
[Tian, H. L., Zhan, P., Li, K. X. (2010). Analysis of components and study on antioxidant and antimicrobial activities of oil in apple seeds. Int. J. FoodSci. Nutr., 61 (4), 395-403.10.3109/09637480903535772]Search in Google Scholar
[Yanishlieva, N. V., Marinova, E. M. (2001). Stabilisation of edible oils with natural antioxidants. Eur. J. Lipid Sci. Technol., 103 (11), 752-767.10.1002/1438-9312(200111)103:11<752::AID-EJLT752>3.0.CO;2-0]Search in Google Scholar
[Дейнека В. И., Григрев А. М., Дейнека Л. А., Ермаков А. М., Сиротин А. А., Староверов В. М. (2005). Анализ компонентного состава антоцианов плодов и жирных кислот масел семян некоторых видов семейства Кохасеае методом высокоэффективной жидкостной хроматографии [Сошропепі сотрозіііоп апаіувів оі* Ггиіі апіЬосуапіпя]Search in Google Scholar
[апсі неесі Ігі§1усегіс1е$ оГ $оте Козасеае $ресіе8 Ьу НРЬС теіЬосІ].]Search in Google Scholar
[Растительные ресурсы, 41 (1), 91-98 (іп Киззіап).]Search in Google Scholar
