Adams, J. B. (1997). Food additive–additive interactions involving sulphur dioxide and ascorbic and nitrous acids: A review. Food Chemistry, 59(3), 401–409.
Akin, E. B., Karabulut, I., & Topcu, A. (2008). Some compositional properties of main Malatya apricot Prunus armeniaca L. varieties. Food Chemistry, 107, 939–948.
AOAC (2000) Official methods of analysis (17th ed.). Gaithersburg: AOAC.
[+]
Adams, J. B. (1997). Food additive–additive interactions involving sulphur dioxide and ascorbic and nitrous acids: A review. Food Chemistry, 59(3), 401–409.
Akin, E. B., Karabulut, I., & Topcu, A. (2008). Some compositional properties of main Malatya apricot Prunus armeniaca L. varieties. Food Chemistry, 107, 939–948.
AOAC (2000) Official methods of analysis (17th ed.). Gaithersburg: AOAC.
Azodanlou, R., Darbellay, C., Luisier, J., Villettaz, J., & Amadò, R. (2003). Development of a model for quality assessment of tomatoes and apricots. LWT- Food Science and Technology, 36(2), 223–233.
Contreras, C., Martín-Esparza, M. E., Martínez-Navarrete, N., & Chiralt, A. (2005). Effect of vacuum impregnation and microwave application on structural changes which occurred during air-drying of apple. Lebensmittel-Wissenschaft und Technologie, 38, 471–477.
Doymaz, I. (2004). Effect of pre-treatments using potassium metabisulphide and alkaline ethyl oleate on the drying kinetics of apricots. Biosystems Engineering, 89(3), 281–287.
Dragovic-Uzelac, V., Levaj, B., Mrkic, V., Bursac, D., & Boras, M. (2007). The content of polyphenols and carotenoids in three apricot cultivars depending on stage of maturity and geographical region. Food Chemistry, 102(3), 966–975.
El Halouat, A., & Labuza, T. P. (1987). Air drying characteristics of apricots. Journal of Food Science, 52, 342–345.
Femenia, A., Sánchez, E. S., Simal, S., & Rosselló, C. (1998). Developmental and ripening-related effects on the cell wall of apricot (Prunus armeniaca) fruit. Journal of the Science of Food and Agriculture, 77, 487–493.
Funebo, T., & Ohlsson, T. (1998). Microwave assisted air dehydration of apple and mushroom. Journal of Food Engineering, 38, 353–367.
Glüçü, K., Altun, M., Ozyurek, M., Karademir, S. E., & Apak, R. (2006). Antioxidant capacity of fresh, sun- and sulphited-dried Malatya apricot assayed by CUPRAC, ABTS/TEAC and folin methods. International Journal of Food Science and Technology, 41(S1), 76–85.
Gregory, I. F. (1993). Vitamins. In O. Fennema (Ed.), Food chemistry (3rd ed., pp. 531–616). New York: Marcel Dekker.
Halliwell, B. (1994). Free radical antioxidants in human disease. Curiosity, cause or consequence. Lancet, 344, 72–74.
Jiménez, M., Martínez-Tomé, M., Egea, I., Romojaro, F., & Murcia, M. A. (2008). Effect of industrial processing and storage on antioxidant activity of apricot. European Food Research and Technology, 227(1), 125–134.
Kamişli, F., & Karatas, F. (2009). Effects of sulphurisation on vitamins (A, C and E) and malondialdehyde in apricots. International Journal of Food Science and Technology, 44, 987–993.
Karabulut, I., Topcu, A., Duran, A., Turan, S., & Ozturk, B. (2007). Effect of hot air drying and sun drying on color values and β-carotene content of apricot (Prunus armeniaca L.). Lebensmittel-Wissenschaft und Technologie, 40, 753–758.
Karatas, F., & Kamişli, F. (2007). Variations of vitamins (A, C and E) and MDA in apricots dried in IR and microwave. Journal of Food Engineering, 78, 662–668.
Kevers, C., Falkowski, M., Tabart, J., Defraigne, J. O., Dommes, J., & Pincemail, J. (2007). Evolution of antioxidant capacity during storage of selected fruits and vegetables. Journal of Agricultural and Food Chemistry, 55, 8596–8603.
Krinsky, N. I. (1989). Carotenoids and cancer in animal models. Journal of Nutrition, 119, 123–126.
Kritchevsky, D. (1992). Antioxidant vitamins in the prevention of cardiovascular disease. Nutrition Today, 27, 30–33.
Leccese, A., Bartolini, S., & Viti, R. (2008). Total antioxidant capacity and phenolics content in fresh apricots. Acta Alimentaria, 37(1), 65–76.
Leong, S. Y., & Oey, I. (2012). Effects of processing on anthocyanins, carotenoids and vitamin C in summer fruits and vegetables. Food Chemistry, 133(4), 1577–1587.
Lo Voi, A., Impembo, M., Fasanaro, G., & Castaldo, D. (1994). Chemical characterization of apricot puree. Journal of Food Composition and Analysis, 8, 78–85.
Madrau, M. A., Piscopo, A., Sanguinetti, A. M., Del Caro, A., Poiana, M., Romeo, F. V., et al. (2009). Effect of drying temperature on polyphenolic content and antioxidant activity of apricots. European Food Research and Technology, 228, 441–448.
Mahmutoğlu, T., Saygi, Y. B., Borcakli, M., & Özay, G. (1996). Effects of pretreatment–drying method combinations on the drying rates, quality and storage stability of apricots. Lebensmittel-Wissenschaft und Technologie, 29, 118–121.
Meléndez-Martínez A.J., Vicario I.M., Heredia F.J. (2004) Estabilidad de los pigmentos carotenoides en los alimentos. Archivos Latinoamericanos de Nutrición (ALAN), publicación oficial de la Sociedad Latinoamericana de Nutrición (SLAN), 54(2), 149–154.
Mezzetti, A., Lapenna, D., Pierdomenico, S. D., Calafiore, A. M., Constantini, F., Riario-Sforza, G., et al. (1995). Vitamin E, C and lipid peroxidation in plasma and arterial tissue of smokers and non-smokers. Atherosclerosis, 112, 91–99.
Mir, M. A., Hussain, P. R., Fouzia, S., & Rather, A. H. (2009). Effect of sulphiting and drying methods on physicochemical and sensorial quality of dried apricots during ambient storage. International Journal of Food Science and Technology, 44, 1157–1166.
Munzuroğlu, O., Karatas, F., & Geckil, H. (2003). The vitamin and selenium contents of apricot fruit of different varieties cultivated in different geographical regions. Food Chemistry, 83, 205–212.
Olives, A. I., Cámara, M., Sánchez, M. C., Fernández, V., & López, M. (2006). Application of a UV–vis detection-HPLC method for a rapid determination of lycopene and β-carotene in vegetables. Food Chemistry, 95, 328–336.
Ozkan, M., & Cemeroglu, B. (2002). Desulfiting dried apricots by hydrogen peroxide. Journal of Food Science, 67, 1631–1635.
Piga, A., Poiana, M., Pinna, I., Agabbio, M., & Minciane, A. (2004). Drying performance of five Italian apricot cultivars. Sciencies des Aliments, 24, 247–259.
Roos, Y. H., Roininen, K., Jouppila, K., & Tuorila, H. (1998). Glass transition and water plasticization effects on crispness of a snack food extrudate. International Journal of Food Properties, 1, 163–180.
Ruiz, D., Egea, J., Gil, M. I., & Tomás-Barberán, F. A. (2005). Carotenoids from new apricot Prunus armeniaca L. varieties and their relationship with flesh and skin colour. Journal of Agricultural and Food Chemistry, 53, 6368–6374.
Ryley, J., & Kajda, P. (1994). Vitamins in thermal processing. Food Chemistry, 49(2), 119–129.
Sharma, G., & Prasad, S. (2001). Drying of garlic (Allium sativum) cloves by microwave–hot air combination. Journal of Food Engineering, 50, 99–105.
Stryer, L. (1995). Biochemistry (4th ed., pp. 452–455). New York: W.H. Freeman and Company.
Torreggiani D., Forni D., Maestrelli A., Quadri F. (1998). Influence of osmotic dehydration on texture and pectic composition of kiwifruit slices. In: Proceedings of the 11th International Drying Symposium (IDS098), vol. A, pp. 930–937, 19–22 August 1998, Halkidiki, Greece.
Vadivambal, R., & Jayas, D. S. (2007). Changes in quality of microwave-treated agricultural products—A review. Biosystems Engineering, 98, 1–16.
Velu, V., Nagender, A., Prabhakara Rao, P. G., & Rao, D. G. (2006). Dry milling characteristics of microwave dried maize grains. Journal of Food Engineering, 74(1), 30–36.
Xu, G., Liu, D., Chen, J., Ye, X., Ma, Y., & Shi, J. (2008). Juice components and antioxidant capacity of citrus varieties cultivated in China. Food Chemistry, 106, 545–551.
Ziegler, R. G. (1989). A review of epidemiologic evidence that carotenoids reduce the risk of cancer. Journal of Nutrition, 119, 116–122.
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