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A Comparison of Acrylamide Contents of Some Nuts Produced Organically and Conventionally

Yıl 2023, , 166 - 174, 19.01.2023
https://doi.org/10.33462/jotaf.1128261

Öz

Akrilamid, ısıl işlem proses kirleticisi olarak tanımlanan kanserojen ve nörotoksik bir bileşiktir. Sağlık endişesi nedeniyle akrilamid oluşumunun en aza indirilmesi gerekmektedir. Bu çalışmanın amacı, organik sertifikalı ve konvansiyonel yöntemlerle üretilen badem (Prunus dulcis), fındık (Corylus avellana), antepfıstığı (Pistacia vera), yerfıstığı (Arachishypogaea), ayçiçeği çekirdeği (Helianthus annuus) ve kabak çekirdeğinde (Cucurbita pepo) akrilamid miktarlarını araştırmak ve bulunan değerleri karşılaştırmaktadır. Türkiye'de organik sertifikalı ve konvansiyonel yöntemlerle yetiştirilen ve ülke genelinde yaygın ve düzenli olarak tüketilen kuruyemiş çeşitlerinden 180 adet örnek UHPLC-MS/MS cihazı kullanılarak incelenmiştir. Organik sertifikalı ve konvansiyonel yöntemlerle yetiştirilen badem, antep fıstığı, yerfıstığı ve ayçiçeği tohumu çeşitleri arasında istatistiksel olarak önemli farklılıklar bulunmuştur (P<0,05). Buna karşılık, fındık ve kabak çekirdeği çeşitlerinde önemli bir fark bulunmamıştır. Organik sertifikalı ve konvansiyonel yöntemlerle üretilmiş kuruyemişlerde ortalama akrilamid konsantrasyonlarının sırasıyla bademde 1,68 ng ml-1 ve 266,14 ng ml-1, fındıkta 7,90 ng ml-1 ve 6,68 ng ml-1 olduğu, sırasıyla antep fıstığında 4,86 ng ml-1 ve 9,95 ng ml-1, yerfıstığında 14,09 ng ml-1 ve 36,27 ng ml-1, kabak çekirdeğinde 5,96 ng ml-1 ve 4,54 ng ml-1 olarak belirlenmiştir. Organik sertifikalı ayçiçeklerinde akrilamid miktarı tespit edilmezken, konvansiyonel yöntemlerle üretilmiş ayçiçeklerinde ise 16,92 ng ml-1 olarak belirlenmiştir. Genel kabul gören teoriye göre akrilamid oluşumu, yüksek sıcaklıktaki gıdaların işlenmesi ve hazırlanması sırasında meydana gelen Maillard reaksiyonuna bağlanmaktadır. Elde edilen veriler, tüketicilerin organik kuruyemişlerin gıda güvenliği konusunda daha doğru bilgilendirilmesi gerektiğini göstermektedir. Organik olarak üretilen kuruyemişlerin günlük tüketimde gıdalardan akrilamid alımına etkileri de dikkate alınmalıdır. Organik kuruyemişlerde akrilamid bileşiği oluşumunu önlemek veya azaltmak ve daha etkin bir şekilde izlemek için kapsamlı çalışmalar yapılmalı ve gıda ısıl işleme yöntemleri optimize edilmelidir.

Kaynakça

  • Ali Omar, M.M., Elbasir, A.A., Schmitz, O.J. (2015). Determination of acrylamide in sudanese food by high performance liquid chromatography coupled with LTQ orbitrap mass spectrometry. Food Chemistry, 176:342-349.
  • Amrein, T.M., Andres, L., Schönbächler, B., Conde-Petit, B., Escher, F., Amadò, R. (2005). Acrylamide in almond products. European Food Research and Technology, 221:14-18.
  • Anonymous (2005). Acrylamide, Furan, and the FDA. www.fda.gov (access date, 15.02.2020).
  • Asadi, S., Aalami, M., Shoeibi, S., Kashaninejad, M., Ghorbani, M., Delavar, M. (2020). Effects of different roasting methods on formation of acrylamide in pistachio. Food Science and Nutrition, 8:2875-2881.
  • Berker, I.K. (2012). Determination of total antioxidant capacity of lipophilic and hydrophilic antioxidants in the same solution by using ferric-ferricyanide assay. Food Analytical Methods, 5:1150-1158.
  • Buttriss, J., Hughes, J. (2000). An update on copper: contribution of maff-funded research. Nutrition Bulletin, 25:271-280.
  • Can, N.O. (2007). Investigation of factors affecting formation of acrylamide in foodstuffs and determination of amounts. (Master Thesis) Institute of Health Sciences, Eskişehir, Turkey.
  • Claeys, L.W., Vleeschouwer, K.D., Hendrckx, M.E. (2005). Quantifying the formation of carcinogens during food proccessing: acrylamide. Trends in Food Science and Technology, 16:181-193.
  • Cressey, P., Thomson, B., Ashworth, M., Grounds, P., Mc Gill, E. (2012). Acrylamide in New Zealand Food and Updated Exposure Assessment. Ministry of Agriculture and Forestry (MAF), MAF Technical paper no: 2011/19, Bureau Wellington.
  • Demiryurek, K. (2011). Organic agriculture in the World and Turkey. Harran Journal of Agricultural and Food Science, 8:63-71.
  • Finotti, E., Bertone, A., Vivanti, V. (2006). Balance between nutrients and anti-nutrients in nine Italian potato cultivars. Food Chemistry, 99:698-701.
  • Gok, S.A. (2008). Evaluation of Turkey in terms of Organic Agricultural Products Trade in the Expanding European Union Market. Ministry of Agriculture and Rural Affairs, Department of Foreign Relations and European Union Coordination. www.tarimorman.gov.tr (access date, 15.02.2020).
  • Gokmen, V., Palazoglu, T.K, Senyuva, H.Z. (2006). Relation between the acrylamide formation and time- temperature history of surface and core regions of french fries. Journal of Food Engineering, 77:972-976. Jagerstad, M., Skog, K. (2005). Genotoxicity of heat-processed foods. Mutation Research, 574:156-172.
  • Karcik, H., Tasan, M. (2018). A research on heavy metal contents of various organic nuts. Journal of Tekirdag Agricultural Faculty, 15:101-111.
  • Karasek, L., Wenzl, T., Anklam, E. (2009). Determination of acrylamide in roasted chestnuts and chestnut- based foods by isotope dilution HPLC-MS/MS. Food Chemistry, 114:1555-1558.
  • Magkos, F., Arvaniti, F., Zampelas, A. (2003). Putting the safety of organic food in to perspective. Nutrition Research Reviews, 16:211-221.
  • Masatcioglu, M.T. (2013). Effects of extrusion cooking on maillard reaction. (Ph.D. Thesis) HU, Institute of Science and Technology, Ankara, Turkey.
  • Mestdagh, F., De Wilde, T., Fraselle, S., Goavert, Y., Ooghe, W., Degroodt, J.M., Verhé, R., Van Peteghem, C., De Meulenaer, B. (2008). Optimization of the blanching process to reduce acrylamide in fried potatoes. LWT- Food Science and Technology, 41:1648-1654.
  • Mogol, B.A. (2014). Reducing thermal process contaminants with alternative technologies. (Ph.D. Thesis) HU, Institute of Science and Technology, Ankara, Turkey.
  • Nizamlioglu, M.N.(2015). The effect of roasting and storage conditions on some physical, chemical and sensory properties of almond. (Ph.D. Thesis) P.U. Graduate School of Natural and Applied Sciences, Denizli, Turkey.
  • Olmez, H., Tuncay, F., Ozcan, N., Demirel, S. (2008). A survey of acrylamide in foods from the Turkish market. Journal of Food Composition and Analysis, 21:564-568.
  • Otles, S., Otles, S. (2004). Acrylamide in food (chemical structure of acrylamide). The Electronic Journal of Environmental Agricultural and Food Chemistry, 3:723-730.
  • Ozer, D. (2012). Removal of reactive blue 19 colorant from aqueous solutions. Firat University Journal of Science, 2:63-75.
  • Pedreschi, F., Kaack, K., Granby, K., Troncoso, E. (2007). Acrylamide reduction under different pre-treatments in french fries. Journal of Food Engineering, 79:1287-1294.
  • Sayaslan, A., Kaya, C., Yıldız, M., Oguz, A. (2008). Determination of Acrylamide Content of Roasted Corn, Wheat and Chickpea Cookies. Gaziosmanpaşa University Scientific Research Projects Commission, Tokat.
  • Schlörmann, W., Birringer, M., Böhm, V., Löber, K., Jahreis, G., Lorkowski, S., Müller, A.K., Schöne, F., Glei, M. (2015). Influence of roasting conditions on health- related compounds in different nuts. Food Chemistry, 180:77-85.
  • Suvari, M., Sivri, T.G., Oksuz, O. (2017). The effect of different roasting temperatures on acrylamide formation in some nuts. Journal of Environmental Science, Toxicology and Food Technology, 11:38-43.
  • Tasan, M., Demir B.A. (2019). Fatty acid profiles of selected industrial foods with zero trans fatty acids claim. Journal of Tekirdag Agricultural Faculty, 16:23-33.
  • Tezer, K., Menteşe, H., Tacer, C.Z, Nilüfer, E.D. (2015). The effects of roasting and cooking of some oily fruits and seeds on total phenolic substance and antioxidant activity. Academic Food, 13:209-215.
  • Tosun, H., Kaya, S.B. (2010). Food safety in organic foods. Electronic Journal of Food Technology, 5:48-58.
  • Turkozu, D., Karabudak, E. (2013). Evaluation of organic foods in terms of nutritional value, food safety and taste. Food, 39:119-126.
  • Unver, A. (2016). Effect of roasting conditions and storage on acrylamide content and colour of almonds. Academic Food, 14:8-14.
  • Xu, K., Zhong, G., Zhuang, X. (2013). Actin, spectrin and associated proteins form a periodic cytoskeletal structure in axons. Science, 25:339.
  • Yavuz, M., Ozcelik, B. (2013). Toxic compounds formed by heat treatments. World Food, Food Safety and Certification, 1:33-36.
  • Yates, L (2012). “Roasted or raw?”, Nuts Conference, Australian Almond Conference. www. https://cld.bz/bookdata/JMLgIFe/basic-html (access date, 15.02.2020).
  • Zhang, Y., Zhang, Y. (2008). Effect of natural antioxidants on kinetic behaviour of acrylamide formation and elimination in low-moisture asparagine- glucose model system. Journal of Food Engineering, 85:105-115.

A Comparison of Acrylamide Contents of Some Nuts Produced Organically and Conventionally

Yıl 2023, , 166 - 174, 19.01.2023
https://doi.org/10.33462/jotaf.1128261

Öz

Acrylamide is a carcinogenic and neurotoxic compound defined as a heat treatment process contaminant. Due to its health concern, acrylamide formation needed to be minimized. The objective of this study is to examine how much acrylamide is contained in dried almonds (Prunus dulcis), hazelnuts (Corylus avellana), pistachios (Pistacia vera), peanuts (Arachishypogaea), sunflower seeds (Helianthus annuus) as well as pumpkin seeds (Cucurbita pepo) that have been cultivated via organically-certified and conventional processes. Frequently and regularly-consumed nuts - comprising 180 samples that have been cultivated via organically-certified and conventional processes - were studied with UHPLC-MS/MS approach in Turkey. Substantial disparities were statistically found (P<0.05) between the almond, pistachio, peanut and sunflower seed variations that have been cultivated via organically-certified and conventional processes. Conversely, no considerable difference could be found among the variations of hazelnut and pumpkin seeds. It could be observed that the average concentrations of acrylamide in the nuts cultivated via organically-certified and conventional processes were 1.68 ng ml-1 and 266.14 ng ml-1 in almonds, 7.90 ng ml-1 and 6.68 ng ml-1 in hazelnuts, 4.86 ng ml-1 and 9.95 ng ml-1 in pistachios, 14.09 ng ml-1 and 36.27 ng ml-1 in peanuts, 5.96 ng ml-1 and 4.54 ng ml-1 in pumpkin seeds correspondingly. The amount of acrylamide was not ascertained in organically-certified sunflower seeds, while in conventional sunflower seeds, the amount was 16.92 ng ml-1. According to the generally-accepted theory, the production of acrylamide is attributed to the Maillard reaction that takes place during the processing and preparation of high-temperature foods. The data obtained show that consumers should be informed more accurately about the food safety of organic nuts. The effects of organically produced nuts on acrylamide intake from food in daily consumption should also be taken into account. In order to prevent or reduce the formation of acrylamide compounds in organic nuts and to monitor them more effectively, extensive studies should be carried out and food heat treatment methods should be optimized.

Kaynakça

  • Ali Omar, M.M., Elbasir, A.A., Schmitz, O.J. (2015). Determination of acrylamide in sudanese food by high performance liquid chromatography coupled with LTQ orbitrap mass spectrometry. Food Chemistry, 176:342-349.
  • Amrein, T.M., Andres, L., Schönbächler, B., Conde-Petit, B., Escher, F., Amadò, R. (2005). Acrylamide in almond products. European Food Research and Technology, 221:14-18.
  • Anonymous (2005). Acrylamide, Furan, and the FDA. www.fda.gov (access date, 15.02.2020).
  • Asadi, S., Aalami, M., Shoeibi, S., Kashaninejad, M., Ghorbani, M., Delavar, M. (2020). Effects of different roasting methods on formation of acrylamide in pistachio. Food Science and Nutrition, 8:2875-2881.
  • Berker, I.K. (2012). Determination of total antioxidant capacity of lipophilic and hydrophilic antioxidants in the same solution by using ferric-ferricyanide assay. Food Analytical Methods, 5:1150-1158.
  • Buttriss, J., Hughes, J. (2000). An update on copper: contribution of maff-funded research. Nutrition Bulletin, 25:271-280.
  • Can, N.O. (2007). Investigation of factors affecting formation of acrylamide in foodstuffs and determination of amounts. (Master Thesis) Institute of Health Sciences, Eskişehir, Turkey.
  • Claeys, L.W., Vleeschouwer, K.D., Hendrckx, M.E. (2005). Quantifying the formation of carcinogens during food proccessing: acrylamide. Trends in Food Science and Technology, 16:181-193.
  • Cressey, P., Thomson, B., Ashworth, M., Grounds, P., Mc Gill, E. (2012). Acrylamide in New Zealand Food and Updated Exposure Assessment. Ministry of Agriculture and Forestry (MAF), MAF Technical paper no: 2011/19, Bureau Wellington.
  • Demiryurek, K. (2011). Organic agriculture in the World and Turkey. Harran Journal of Agricultural and Food Science, 8:63-71.
  • Finotti, E., Bertone, A., Vivanti, V. (2006). Balance between nutrients and anti-nutrients in nine Italian potato cultivars. Food Chemistry, 99:698-701.
  • Gok, S.A. (2008). Evaluation of Turkey in terms of Organic Agricultural Products Trade in the Expanding European Union Market. Ministry of Agriculture and Rural Affairs, Department of Foreign Relations and European Union Coordination. www.tarimorman.gov.tr (access date, 15.02.2020).
  • Gokmen, V., Palazoglu, T.K, Senyuva, H.Z. (2006). Relation between the acrylamide formation and time- temperature history of surface and core regions of french fries. Journal of Food Engineering, 77:972-976. Jagerstad, M., Skog, K. (2005). Genotoxicity of heat-processed foods. Mutation Research, 574:156-172.
  • Karcik, H., Tasan, M. (2018). A research on heavy metal contents of various organic nuts. Journal of Tekirdag Agricultural Faculty, 15:101-111.
  • Karasek, L., Wenzl, T., Anklam, E. (2009). Determination of acrylamide in roasted chestnuts and chestnut- based foods by isotope dilution HPLC-MS/MS. Food Chemistry, 114:1555-1558.
  • Magkos, F., Arvaniti, F., Zampelas, A. (2003). Putting the safety of organic food in to perspective. Nutrition Research Reviews, 16:211-221.
  • Masatcioglu, M.T. (2013). Effects of extrusion cooking on maillard reaction. (Ph.D. Thesis) HU, Institute of Science and Technology, Ankara, Turkey.
  • Mestdagh, F., De Wilde, T., Fraselle, S., Goavert, Y., Ooghe, W., Degroodt, J.M., Verhé, R., Van Peteghem, C., De Meulenaer, B. (2008). Optimization of the blanching process to reduce acrylamide in fried potatoes. LWT- Food Science and Technology, 41:1648-1654.
  • Mogol, B.A. (2014). Reducing thermal process contaminants with alternative technologies. (Ph.D. Thesis) HU, Institute of Science and Technology, Ankara, Turkey.
  • Nizamlioglu, M.N.(2015). The effect of roasting and storage conditions on some physical, chemical and sensory properties of almond. (Ph.D. Thesis) P.U. Graduate School of Natural and Applied Sciences, Denizli, Turkey.
  • Olmez, H., Tuncay, F., Ozcan, N., Demirel, S. (2008). A survey of acrylamide in foods from the Turkish market. Journal of Food Composition and Analysis, 21:564-568.
  • Otles, S., Otles, S. (2004). Acrylamide in food (chemical structure of acrylamide). The Electronic Journal of Environmental Agricultural and Food Chemistry, 3:723-730.
  • Ozer, D. (2012). Removal of reactive blue 19 colorant from aqueous solutions. Firat University Journal of Science, 2:63-75.
  • Pedreschi, F., Kaack, K., Granby, K., Troncoso, E. (2007). Acrylamide reduction under different pre-treatments in french fries. Journal of Food Engineering, 79:1287-1294.
  • Sayaslan, A., Kaya, C., Yıldız, M., Oguz, A. (2008). Determination of Acrylamide Content of Roasted Corn, Wheat and Chickpea Cookies. Gaziosmanpaşa University Scientific Research Projects Commission, Tokat.
  • Schlörmann, W., Birringer, M., Böhm, V., Löber, K., Jahreis, G., Lorkowski, S., Müller, A.K., Schöne, F., Glei, M. (2015). Influence of roasting conditions on health- related compounds in different nuts. Food Chemistry, 180:77-85.
  • Suvari, M., Sivri, T.G., Oksuz, O. (2017). The effect of different roasting temperatures on acrylamide formation in some nuts. Journal of Environmental Science, Toxicology and Food Technology, 11:38-43.
  • Tasan, M., Demir B.A. (2019). Fatty acid profiles of selected industrial foods with zero trans fatty acids claim. Journal of Tekirdag Agricultural Faculty, 16:23-33.
  • Tezer, K., Menteşe, H., Tacer, C.Z, Nilüfer, E.D. (2015). The effects of roasting and cooking of some oily fruits and seeds on total phenolic substance and antioxidant activity. Academic Food, 13:209-215.
  • Tosun, H., Kaya, S.B. (2010). Food safety in organic foods. Electronic Journal of Food Technology, 5:48-58.
  • Turkozu, D., Karabudak, E. (2013). Evaluation of organic foods in terms of nutritional value, food safety and taste. Food, 39:119-126.
  • Unver, A. (2016). Effect of roasting conditions and storage on acrylamide content and colour of almonds. Academic Food, 14:8-14.
  • Xu, K., Zhong, G., Zhuang, X. (2013). Actin, spectrin and associated proteins form a periodic cytoskeletal structure in axons. Science, 25:339.
  • Yavuz, M., Ozcelik, B. (2013). Toxic compounds formed by heat treatments. World Food, Food Safety and Certification, 1:33-36.
  • Yates, L (2012). “Roasted or raw?”, Nuts Conference, Australian Almond Conference. www. https://cld.bz/bookdata/JMLgIFe/basic-html (access date, 15.02.2020).
  • Zhang, Y., Zhang, Y. (2008). Effect of natural antioxidants on kinetic behaviour of acrylamide formation and elimination in low-moisture asparagine- glucose model system. Journal of Food Engineering, 85:105-115.
Toplam 36 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Bölüm Makaleler
Yazarlar

Baha Aydın Yılmaz 0000-0002-8289-3097

Işın Aydın Ünsal 0000-0002-6005-1315

Murat Taşan 0000-0003-1490-7626

Yayımlanma Tarihi 19 Ocak 2023
Gönderilme Tarihi 9 Haziran 2022
Kabul Tarihi 22 Ağustos 2022
Yayımlandığı Sayı Yıl 2023

Kaynak Göster

APA Yılmaz, B. A., Aydın Ünsal, I., & Taşan, M. (2023). A Comparison of Acrylamide Contents of Some Nuts Produced Organically and Conventionally. Tekirdağ Ziraat Fakültesi Dergisi, 20(1), 166-174. https://doi.org/10.33462/jotaf.1128261
AMA Yılmaz BA, Aydın Ünsal I, Taşan M. A Comparison of Acrylamide Contents of Some Nuts Produced Organically and Conventionally. JOTAF. Ocak 2023;20(1):166-174. doi:10.33462/jotaf.1128261
Chicago Yılmaz, Baha Aydın, Işın Aydın Ünsal, ve Murat Taşan. “A Comparison of Acrylamide Contents of Some Nuts Produced Organically and Conventionally”. Tekirdağ Ziraat Fakültesi Dergisi 20, sy. 1 (Ocak 2023): 166-74. https://doi.org/10.33462/jotaf.1128261.
EndNote Yılmaz BA, Aydın Ünsal I, Taşan M (01 Ocak 2023) A Comparison of Acrylamide Contents of Some Nuts Produced Organically and Conventionally. Tekirdağ Ziraat Fakültesi Dergisi 20 1 166–174.
IEEE B. A. Yılmaz, I. Aydın Ünsal, ve M. Taşan, “A Comparison of Acrylamide Contents of Some Nuts Produced Organically and Conventionally”, JOTAF, c. 20, sy. 1, ss. 166–174, 2023, doi: 10.33462/jotaf.1128261.
ISNAD Yılmaz, Baha Aydın vd. “A Comparison of Acrylamide Contents of Some Nuts Produced Organically and Conventionally”. Tekirdağ Ziraat Fakültesi Dergisi 20/1 (Ocak 2023), 166-174. https://doi.org/10.33462/jotaf.1128261.
JAMA Yılmaz BA, Aydın Ünsal I, Taşan M. A Comparison of Acrylamide Contents of Some Nuts Produced Organically and Conventionally. JOTAF. 2023;20:166–174.
MLA Yılmaz, Baha Aydın vd. “A Comparison of Acrylamide Contents of Some Nuts Produced Organically and Conventionally”. Tekirdağ Ziraat Fakültesi Dergisi, c. 20, sy. 1, 2023, ss. 166-74, doi:10.33462/jotaf.1128261.
Vancouver Yılmaz BA, Aydın Ünsal I, Taşan M. A Comparison of Acrylamide Contents of Some Nuts Produced Organically and Conventionally. JOTAF. 2023;20(1):166-74.