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The Effects of Different Storage Temperatures on the Oxidative Stability of Breakfast and Kitchen Margarines

Yıl 2018, Cilt: 28 Sayı: 1, 103 - 111, 30.03.2018
https://doi.org/10.29133/yyutbd.385607

Öz

In this study, different
brands of breakfast  (K1, K2,
K3, K4 and K5) and kitchen margarines (M1,
M2, M3, M4 and M5) were stored at 4
and 25°C for 12 weeks. During the storage period, samples were taken every 2
weeks and the oxidative stability of the margarines was evaluated by detecting
changes in tocopherol contents, peroxide values (PV), thiobarbituric acid (TBA)
values, conjugated diene (K232) and fatty acid compositions. In the
margarine samples used in the study, it was determined that the initial values
were compatible with the label values, but changed depending on the storage
temperature and duration. In breakfast margarine samples kept at 4 °C and 25°C,
K3 (11.08 meqO2 kg-1) and K4 (70.97 meqO2
kg-1) showed the highest PVs, respectively. In kitchen margarines
stored at 4 °C and 25°C, M2 (9.22 meqO2 kg-1)
and M1 (27.63 meqO2 kg-1) showed the highest
PVs, respectively. The PVs of margarines kept at 4°C remained within legal
limits (except K3). The breakfast margarines generally exceeded the legal limit
after the 2nd week, and in the kitchen margarines after the 4th
week in samples stored at 25°C. K232 and TBA values increased with
storage temperature. The breakfast margarine samples showed higher K232 and TBA
values than those of kitchen margarines. Margarines had different tocopherol
contents which showed decreasing trend depending on increasing temprature and
time. As the storage temperature and duration increased, the total saturated
fatty acids contents of margarines increased and their total unsaturated fatty
acids content decreased. Kitchen margarines showed higher oxidative stability
than breakfast margarines due to their higher saturated fatty acids contents.
For margarines, storage at 4°C is appropriate, while storage at 25°C led to
deterioration after  the first week.

Kaynakça

  • AOCS (1989a). "Official Method Ce 8-89. Determination of tocopherols and tocotrienols in vegetable oils and fats by HPLC. In Official methods and recommended practices of the American Oil Chemists’ Society (4th ed.)," AOCS, Champaign, IL, USA.
  • AOCS (1989b). "Official Method Cd 8b-90. (1989b). Peroxide value, acetic acidisooctane method. In Official methods and recommended practices of the American Oil Chemists’ Society (4th ed.)," AOCS Champaign, IL, USA.
  • AOCS (1994). "Official methods and recommended practices of the American Oil Chemists' Society," AOCS press.
  • Azizkhani M, Kamkar A, Nejad ASM (2011). Effects of Tocopherols on Oxidative Stability of Margarine. Journal of the Chemical Society of Pakistan 33, 134-137.
  • Bahmaei M, Eshratabadi P (2016). Comparison of Physicochemical Characteristics of Margarine and Butter in Iranian Market During Storage. Journal of Pharmaceutical & Health Sciences 4, 181-191.
  • Basturk A, Javidipour I, Boyaci IH (2007). Oxidative stability of natural and chemically interesterified cottonseed, palm and soybean oils. Journal of Food Lipids 14, 170-188.
  • Botsoglou NA, Fletouris DJ, Papageorgiou GE, Vassilopoulos VN, Mantis AJ, Trakatellis AG (1994). Rapid, sensitive, and specific thiobarbituric acid method for measuring lipid peroxidation in animal tissue, food, and feedstuff samples. Journal of Agricultural and Food Chemistry 42, 1931-1937.
  • De Martini Soares FAS, Osorio NM, da Silva RC, Gioielli LA, Ferreira‐Dias S (2013). Batch and continuous lipase‐catalyzed interesterification of blends containing olive oil for trans‐free margarines. European journal of lipid science and technology 115, 413-428.
  • Engler Ribeiro PC, de Britto Policarpi P, Dal Bo A, Barbetta PA, Block JM (2017). Impact of pecan nut shell aqueous extract on the oxidative properties of margarines during storage. J Sci Food Agric 97, 3005-3012.
  • Filip V, Hrádková I, Šmidrkal J (2009). Antioxidants in margarine emulsions. Czech J Food Sci 27, S9-S11.
  • Gümüşkesen A (1999). "Bitkisel Yağ Teknolojisi. Asya Tıp Yayıncılık Ltd. Şti." ISBN 975-941208-0-5.
  • Hodate Y, Ueno S, Yano J, Katsuragi T, Tezuka Y, Tagawa T, Yoshimoto N, Sato K (1997). Ultrasonic velocity measurement of crystallization rates of palm oil in oil-water emulsions. Colloids and Surfaces A: Physicochemical and Engineering Aspects 128, 217-224.
  • Hornero-Méndez D, Pérez-Gálvez A, Mínguez-Mosquera MI (2001). A rapid spectrophotometric method for the determination of peroxide value in food lipids with high carotenoid content. Journal of the American Oil Chemists' Society 78, 1151-1155.
  • IUPAC (1992). "Standard Methods for the Analysis of Oils, Fats and Derivatives.," 7th/Ed. Blackwell, International Union of Pure and Applied Chemistry, Oxford, England.
  • Keskin H, Erkmen G (1987). Besin Kimyası c. 1, Güray Matbaacılık Tic. Ltd. Şti., İstanbul.
  • Liu YF, Meng Z, Zhang FQ, Shan L, Wang XG (2010). Influence of lipid composition, crystallization behavior and microstructure on hardness of palm oil-based margarines. European Food Research and Technology 230, 759-767.
  • Mahdi Y, Bassiri R (2015). Evaluation of the antioxidant potential of fennel seed extract as compared to the synthetic antioxidants in margarine under accelerated storage condition. Journal of Food Biosciences and Technology, 5(1), 63-68.
  • Marangoni F, Poli A (2010). Phytosterols and cardiovascular health. Pharmacol Res 61, 193-9.
  • Maskan M, Öner M, Aya A (1993). Storage stability and accelerated shelf‐life testing of margarine samples. Journal of food quality 16, 175-186.
  • Nadeem M, Imran M, Taj I, Ajmal M, Junaid M (2017). Omega-3 fatty acids, phenolic compounds and antioxidant characteristics of chia oil supplemented margarine. Lipids in health and disease 16, 102.
  • Nair SS, Leitch JW, Falconer J, Garg ML (1997). Prevention of cardiac arrhythmia by dietary (n-3) polyunsaturated fatty acids and their mechanism of action. The Journal of nutrition 127, 383-393.
  • Rudzinska M, Przybylski R, Wasowicz E (2014). Degradation of phytosterols during storage of enriched margarines. Food Chem 142, 294-8.
  • Sopelana P, Arizabaleta I, Ibargoitia ML, Guillen MD (2013). Characterisation of the lipidic components of margarines by 1H Nuclear Magnetic Resonance. Food Chem 141, 3357-64.
  • Zaeroomali M, Maghsoudlou Y, Aryaey P (2014). The Change of Table Margarine Characterization during Storage Time. European Journal of Experimental Biology 4, 185-187.
  • Zhang H, Jacobsen C, Pedersen LS, Christensen MW, Adler-Nissen J (2006). Storage stability of margarines produced from enzymatically interesterified fats compared to those prepared by conventional methods – Chemical properties. European Journal of Lipid Science and Technology 108, 227-238.

Farklı Depolama Sıcaklıklarının Kahvaltılık ve Mutfak Margarinlerinin Oksidatif Stabiliteleri Üzerine Etkileri

Yıl 2018, Cilt: 28 Sayı: 1, 103 - 111, 30.03.2018
https://doi.org/10.29133/yyutbd.385607

Öz

Bu çalışmada farklı
markalardan oluşan kahvaltılık margarinler (K1, K2, K3,
K4 ve K5) ve mutfak margarinleri (M1, M2,
M3, M4 ve M5), 4 ve 25°C sıcaklıklarda 12
hafta süreyle depolanmıştır. Depolama süresince her 2 haftada bir numune
alınarak, tokoferol içeriği, peroksit sayısı (PS), tiyobarbütirik asit sayısı
(TBA), konjuge-dien (K232) ve yağ asidi bileşimlerinde meydana gelen
değişimler tespit edilerek, margarinlerin oksidatif stabiliteleri
değerlendirilmiştir. Çalışmada kullanılan margarin örneklerinde başlangıçta
belirlenen değerlerin etiket değerleri ile uyumlu olduğu, ancak depolama
sıcaklığı ve süresine bağlı olarak değiştiği tespit edilmiştir. En yüksek
PS’ları kahvaltılık margarinlerde 4°C’de depolanan K3 örneğinde
(11.08 meqO2/kg) ve 25°C’de depolananlardan K4 örneğinde
(70.97 meqO2/kg) belirlenirken, mutfak margarinlerinde ise 4°C’de
depolanan M2 margarininde (9.22 meqO2/kg) ve 25°C’de
depolanan M1 margarininde (27.63 meqO2/kg) tespit
edilmiştir. 4 °C’de depolanan K3 margarini dışındaki margarinlerde
PS’ları yasal limit içinde kalmıştır. 25°C’de depolananlarda ise genel olarak kahvaltılık
margarinler 2. haftadan sonra, mutfak margarinleri ise 4. haftadan sonra yasal
limiti aşmıştır. K232 ve TBA değerleri depolama sıcaklığına bağlı
olarak artış göstermiştir. Bu artış 25°C’de ve kahvaltılık margarinlerde daha
yüksek düzeyde gerçekleşmiştir. Tokoferol içerikleri margarinlerde farklılık
gösterirken sıcaklık ve süre artışına bağlı olarak azalmıştır. Margarinlerde
depolama sıcaklığı ve süresi arttıkça, toplam doymuş yağ asidi içeriği
artarken, toplam doymamış yağ asidi içerikleri düşmüştür. Mutfak margarinleri
yüksek doymuş yağ asidi içeriklerinden dolayı kahvaltılık margarinlere göre
daha yüksek oksidatif stabilite göstermiştir. Margarinler için 4°C’de
depolamanın uygun olduğu, 25°C’de depolamada ise ilk haftadan itibaren
bozulmaların başladığı görülmüştür.

Kaynakça

  • AOCS (1989a). "Official Method Ce 8-89. Determination of tocopherols and tocotrienols in vegetable oils and fats by HPLC. In Official methods and recommended practices of the American Oil Chemists’ Society (4th ed.)," AOCS, Champaign, IL, USA.
  • AOCS (1989b). "Official Method Cd 8b-90. (1989b). Peroxide value, acetic acidisooctane method. In Official methods and recommended practices of the American Oil Chemists’ Society (4th ed.)," AOCS Champaign, IL, USA.
  • AOCS (1994). "Official methods and recommended practices of the American Oil Chemists' Society," AOCS press.
  • Azizkhani M, Kamkar A, Nejad ASM (2011). Effects of Tocopherols on Oxidative Stability of Margarine. Journal of the Chemical Society of Pakistan 33, 134-137.
  • Bahmaei M, Eshratabadi P (2016). Comparison of Physicochemical Characteristics of Margarine and Butter in Iranian Market During Storage. Journal of Pharmaceutical & Health Sciences 4, 181-191.
  • Basturk A, Javidipour I, Boyaci IH (2007). Oxidative stability of natural and chemically interesterified cottonseed, palm and soybean oils. Journal of Food Lipids 14, 170-188.
  • Botsoglou NA, Fletouris DJ, Papageorgiou GE, Vassilopoulos VN, Mantis AJ, Trakatellis AG (1994). Rapid, sensitive, and specific thiobarbituric acid method for measuring lipid peroxidation in animal tissue, food, and feedstuff samples. Journal of Agricultural and Food Chemistry 42, 1931-1937.
  • De Martini Soares FAS, Osorio NM, da Silva RC, Gioielli LA, Ferreira‐Dias S (2013). Batch and continuous lipase‐catalyzed interesterification of blends containing olive oil for trans‐free margarines. European journal of lipid science and technology 115, 413-428.
  • Engler Ribeiro PC, de Britto Policarpi P, Dal Bo A, Barbetta PA, Block JM (2017). Impact of pecan nut shell aqueous extract on the oxidative properties of margarines during storage. J Sci Food Agric 97, 3005-3012.
  • Filip V, Hrádková I, Šmidrkal J (2009). Antioxidants in margarine emulsions. Czech J Food Sci 27, S9-S11.
  • Gümüşkesen A (1999). "Bitkisel Yağ Teknolojisi. Asya Tıp Yayıncılık Ltd. Şti." ISBN 975-941208-0-5.
  • Hodate Y, Ueno S, Yano J, Katsuragi T, Tezuka Y, Tagawa T, Yoshimoto N, Sato K (1997). Ultrasonic velocity measurement of crystallization rates of palm oil in oil-water emulsions. Colloids and Surfaces A: Physicochemical and Engineering Aspects 128, 217-224.
  • Hornero-Méndez D, Pérez-Gálvez A, Mínguez-Mosquera MI (2001). A rapid spectrophotometric method for the determination of peroxide value in food lipids with high carotenoid content. Journal of the American Oil Chemists' Society 78, 1151-1155.
  • IUPAC (1992). "Standard Methods for the Analysis of Oils, Fats and Derivatives.," 7th/Ed. Blackwell, International Union of Pure and Applied Chemistry, Oxford, England.
  • Keskin H, Erkmen G (1987). Besin Kimyası c. 1, Güray Matbaacılık Tic. Ltd. Şti., İstanbul.
  • Liu YF, Meng Z, Zhang FQ, Shan L, Wang XG (2010). Influence of lipid composition, crystallization behavior and microstructure on hardness of palm oil-based margarines. European Food Research and Technology 230, 759-767.
  • Mahdi Y, Bassiri R (2015). Evaluation of the antioxidant potential of fennel seed extract as compared to the synthetic antioxidants in margarine under accelerated storage condition. Journal of Food Biosciences and Technology, 5(1), 63-68.
  • Marangoni F, Poli A (2010). Phytosterols and cardiovascular health. Pharmacol Res 61, 193-9.
  • Maskan M, Öner M, Aya A (1993). Storage stability and accelerated shelf‐life testing of margarine samples. Journal of food quality 16, 175-186.
  • Nadeem M, Imran M, Taj I, Ajmal M, Junaid M (2017). Omega-3 fatty acids, phenolic compounds and antioxidant characteristics of chia oil supplemented margarine. Lipids in health and disease 16, 102.
  • Nair SS, Leitch JW, Falconer J, Garg ML (1997). Prevention of cardiac arrhythmia by dietary (n-3) polyunsaturated fatty acids and their mechanism of action. The Journal of nutrition 127, 383-393.
  • Rudzinska M, Przybylski R, Wasowicz E (2014). Degradation of phytosterols during storage of enriched margarines. Food Chem 142, 294-8.
  • Sopelana P, Arizabaleta I, Ibargoitia ML, Guillen MD (2013). Characterisation of the lipidic components of margarines by 1H Nuclear Magnetic Resonance. Food Chem 141, 3357-64.
  • Zaeroomali M, Maghsoudlou Y, Aryaey P (2014). The Change of Table Margarine Characterization during Storage Time. European Journal of Experimental Biology 4, 185-187.
  • Zhang H, Jacobsen C, Pedersen LS, Christensen MW, Adler-Nissen J (2006). Storage stability of margarines produced from enzymatically interesterified fats compared to those prepared by conventional methods – Chemical properties. European Journal of Lipid Science and Technology 108, 227-238.
Toplam 25 adet kaynakça vardır.

Ayrıntılar

Birincil Dil Türkçe
Bölüm Makaleler
Yazarlar

Fatih Bozkurt Bu kişi benim

Ayhan Baştürk 0000-0001-7701-9306

Yayımlanma Tarihi 30 Mart 2018
Kabul Tarihi 27 Mart 2018
Yayımlandığı Sayı Yıl 2018 Cilt: 28 Sayı: 1

Kaynak Göster

APA Bozkurt, F., & Baştürk, A. (2018). Farklı Depolama Sıcaklıklarının Kahvaltılık ve Mutfak Margarinlerinin Oksidatif Stabiliteleri Üzerine Etkileri. Yuzuncu Yıl University Journal of Agricultural Sciences, 28(1), 103-111. https://doi.org/10.29133/yyutbd.385607

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