Effect of Storage and Some Hydrocolloid Blends on Physicochemical, Textural and Sensory Characteristics of Keşkül, a Dairy Dessert
Yıl 2021,
, 398 - 403, 30.12.2021
Selen Kadağan
Seher Arslan
Öz
In this study, the effect of different hydrocolloid combination and storage period on physicochemical, textural and sensory characteristics of keşkül, a dairy dessert, was determined. Guar gum-xanthan gum, carrageenan-guar gum and carrageenan-xanthan gum combinations were assessed as hydrocolloid combinations in keşkül production. Some physicochemical, textural, and sensory properties were determined on the days of 1, 5 and 10 of storage. Keşkül samples containing carrageenan had higher hardness and springiness values than the other samples at the end of storage. The highest water holding capacity was detected in keşkül samples with carrageenan and guar gum at the beginning of storage. Syneresis values of keşkül were determined between 18.65 and 28.49% during storage. The variation of storage period and different hydrocolloid combination on Hunter L, a and b values were insignificant (p>0.05). Keşkül including a guar and carrageenan combination received the highest general appreciation score at the beginning of storage. The results indicated that hydrocolloid combination utilization in keşkül production has commercial potential in overcoming the problems related to physicochemical, textural and sensory properties.
Destekleyen Kurum
Research Unit of Pamukkale University
Proje Numarası
2010FBE008 and 2017KRM002-383
Teşekkür
This study was supported by the Research Unit of Pamukkale University (2010FBE008 and 2017KRM002-383). A small section of the current study was presented at the “International Conference on Agriculture, Forest, Food Sciences and Technologies” on May 15–17 2017 as an oral presentation.
Kaynakça
- [1] Öksüztepe, G., Şahan-Güran, H., İncili, G.K. (2013). Microbiological quality of some milk-containing desserts sold in Elazığ (Elazığ’da satışa sunulan bazı sütlü tatlıların mikrobiyolojik kalitesi). Fırat Üniversitesi Sağlık Bilimleri Veteriner Dergisi, 27, 19-24.
- [2] Akpınar-Beyazıt, A., Özcan, T., Yılmaz- Ersan, L. (2009). Milk-based traditional Turkish desserts. Mljekarstvo, 59(4), 349-355.
- [3] Kadağan, S. (2015). Sütlaç, keşkül ve kazandibi üretiminde hidrokolloid kullanimi (tr). Utilization of various hydrocolloids in the production of sutlaç, keskul and kazandibi. Master thesis, Pamukkale University, Denizli.
- [4] Goff, H.D., Guo, Q. (2019). The Role of Hydrocolloids in the Development of Food Structure. In: Handbook of Food Structure Development. Edited by F. Spyropoulos, A. Lazidis, l. Norton. The Royal Society of Chemistry; Cambridge, p. 1-28.
- [5] Shrivastava, M., Yadav, R.B., Yadav, B.S., Dangi, N. (2018). Effect of incorporation of hydrocolloids on the physicochemical, pasting and rheological properties of colocasia starch. Journal of Food Measurement and Characterization, 12(2), 1177-1185.
- [6] Duran, N.M., Galante, M., Spelzini, D., Boeris, V. (2018). The effect of carrageenan on the acid-induced aggregation and gelation conditions of quinoa proteins. Food Research International, 107, 683-690.
- [7] Bak, J.H., Yoo, B. (2018). Effect of CMC addition on steady and dynamic shear rheological properties of binary systems of xanthan gum and guar gum. International Journal of Biological Macromolecules, 115, 124-128.
- [8] Pourmolaie, H., Khosrowshahi Asl, A., Ahmadi, M., Zomorodi, S., Naghizadeh Raeisi, S. (2018). The effect of guar and tragacanth gums as edible coatings in Cheddar cheese during ripening. Journal of Food Safety, 38(6), e12529.
- [9] Pu, C., Tang, W., Li, X., Li, M., Sun, Q. (2019). Stability enhancement efficiency of surface decoration on curcumin-loaded liposomes: Comparison of guar gum and its cationic counterpart. Food Hydrocolloids, 87, 29-37.
- [10] Tárrega, A., Rocafull, A., Costell, E. (2010). Effects of blends of short and long-chain inulin on the rheological and sensory properties of prebiotic low-fat custards. LWT-Food Science and Technology, 43, 556–562.
- [11] González-Tomás, L., Bayarri, S., Taylor, A.J., Costell, E. (2008). Rheology, flavour release and perception of low-fat dairy desserts. International Dairy Journal, 18(8), 858-866.
- [12] Verbeken, D., Thas, O., Dewettinck, K. (2004). Textural properties of gelled dairy dessert containing κ-carrageenan and starch. Food Hydrocolloids, 18, 817- 823.
- [13] Özen, B., Tokul, M., Keskin, T., Şimşek, B. (2017). Keşkül özellikleri üzerine farklı oranlarda Stevia (Stevia rebaudiana) tatlandırıcısı kullanımının etkileri. 1. Ulusal Sütçülük Kongresi, May 25-26, 2017, Ankara, Turkey, p.99
- [14] Verbeken, D., Bael, K., Thas, O., Dewettinck, K. (2006). Interactions between κ-carrageenan, milk proteins and modified starch in sterilized dairy desserts. International Dairy Journal, 16(5), 482-488.
- [15] Granato, D., Masson, M.L., Freitas, R.J.S.D. (2010). Stability studies and shelf-life estimation of a soy-based dessert. Ciência e Tecnologia de Alimentos, 30(3), 797-807.
- [16] Kadagan, S., Arslan, S. (2021). Effects of hydrocolloid combinations on physical, textural and sensory properties of kazandibi. Latin American Applied Research, 51(2), 113-118.
- [17] Altuğ, T., Elmacı, Y. (2005). Sensorial Evaluation of Food (in Turkish). Meta Publishing, İzmir, Turkey.
- [18] Ayar, A., Durmuş, S., Akbulut, M. (2009). Effect of salep as a hydrocolloid on storage stability of “incir uyutması” dessert. Food Hydrocolloids, 23, 62-71.
- [19] Moin, A., Ali, T.M., Hasnain, A. (2017). Characterization and utilization of hydroxypropylated rice starches for improving textural and storage properties of rice puddings. International Journal of Biological Macromolecules, 105, 843-851.
- [20] Nunes, M.C., Raymundo, A., Sousa, I. (2006). Gelled vegetable desserts containing pea protein, κ- carrageenan and starch. European Food Research and Technology, 222, 622–628.
- [21] Dogan, M., Ersoz, N.B., Toker, O.S., Kaya, Y., Canıyılmaz, E. (2014). Optimization of gum combination for instant pudding based on creep and recovery parameters by mixture design approach. European Food Research and Technology, 238, 47–58.
- [22] Tárrega, A., Costell, E. (2007). Colour and consistency of semi-solid dairy dessert: Instrumental and sensory measurements. Journal of Food Engineering, 78, 655-661.
- [23] Kurt, A., Kahyaoğlu, T. (2013). The rheological properties of salep-carrageenan–milk proteins. The 2nd International Symposium on Traditional Foods from Adriatic to Caucasus, October 24-26, 2013, Ohrid, Macedonia, p. 627.
- [24] Chandra, M. V., Shamasundar, B. A. (2015). Texture profile analysis and functional properties of gelatin from the skin of three species of freshwater fish. International Journal of Food Properties, 18(3), 572–584.
- [25] Park, Y. W., Oglesby, J., Hayek, S. A., Aljaloud, S. O., Gyawali, R., Ibrahim, S. A. (2019). Impact of different gums on textural and microbial properties of goat milk yogurts during refrigerated storage. Foods, 8(5), 169-176.
- [26] Zarzycki, P., Ciołkowska, A.E., Jabłońska-Ryś, E., Gustaw, W. (2019). Rheological properties of milk-based desserts with the addition of oat gum and κ-carrageenan. Journal of Food Science and Technology, 56(11), 5107-5115.
- [27] Szwajgier, D., Gustaw, W. (2015). The addition of malt to milk-based desserts: Influence on rheological properties and phenolic acid content. LWT-Food Science and Technology, 62, 400-407.
- [28] Wang, X., Zhou, D., Guo, Q., Liu, C. (2020). Textural and structural properties of a κ‐carrageenan–konjac gum mixed gel: effects of κ‐carrageenan concentration, mixing ratio, sucrose and Ca2+ concentrations and its application in milk pudding. Journal of the Science of Food and Agriculture, 101(7), 3021-3029.
- [29] Krasaekoopt, W., Cabraal, T.L. (2011). Effect of hydrocolloids on sensory properties of the fermented whey beverage from different types of milk. AU Journal of Technology, 14, 253-258.
- [30] Rezaei, R., Khomeiri, M., Kashaninejad M., Aalami, M. (2011). Effects of guar gum and Arabic gum on the physicochemical, sensory and flow behaviour characteristics of frozen yoghurt. International Journal of Dairy Technology, 64(4), 563-568.
Sütlü Bir Tatlı Keşkülün Fizikokimyasal, Tekstürel ve Duyusal Özellikleri Üzerine Depolamanın ve Bazı Hidrokolloid Karışımlarının Etkisi
Yıl 2021,
, 398 - 403, 30.12.2021
Selen Kadağan
Seher Arslan
Öz
Bu araştırmada farklı hidrokolloid kombinasyonları kullanımının keşkülün fizikokimyasal, tekstürel ve duyusal özellikler üzerinde etkisi araştırılmıştır. Keşkül üretiminde hidrokolloid kombinasyonları olarak guar-ksantan gamı, karragenan-guar gamı ve karragenan-ksantan gamı kombinasyonları değerlendirilmiştir. Bazı fizikokimyasal, tekstürel ve duyusal özellikler depolamanın 1., 5. ve 10. günlerinde belirlenmiştir. Karragenan içeren keşkül örneklerinin depolamanın sonunda diğer örneklere göre daha yüksek sertlik ve esneklik değerlerine sahip olduğu tespit edilmiştir. Depolamanın başında en yüksek su tutma kapasitesi karragenan ve guar gamı içeren keşkül örneğinde tespit edilmiştir. Keşkülün saklama süresi boyunca sinerez değerleri %18.65 ile 28.49 arasında belirlenmiştir. Hunter L, a ve b değerlerinde depolama süresi ve farklı hidrokolloid kombinasyonlarının değişimi önemli bulunmamıştır (p>0.05). Guar ve karragenan kombinasyonunu içeren keşkül, depolama başlangıcında en yüksek genel beğeni puanını aldığı tespit edilmiştir. Araştırma sonuçları, hidrokolloid kombinasyon kullanımının keşkül üretiminde fizikokimyasal, dokusal ve duyusal özelliklerle ilgili problemlerin önlenmesinde ticari potansiyele sahip olduğunu göstermektedir.
Proje Numarası
2010FBE008 and 2017KRM002-383
Kaynakça
- [1] Öksüztepe, G., Şahan-Güran, H., İncili, G.K. (2013). Microbiological quality of some milk-containing desserts sold in Elazığ (Elazığ’da satışa sunulan bazı sütlü tatlıların mikrobiyolojik kalitesi). Fırat Üniversitesi Sağlık Bilimleri Veteriner Dergisi, 27, 19-24.
- [2] Akpınar-Beyazıt, A., Özcan, T., Yılmaz- Ersan, L. (2009). Milk-based traditional Turkish desserts. Mljekarstvo, 59(4), 349-355.
- [3] Kadağan, S. (2015). Sütlaç, keşkül ve kazandibi üretiminde hidrokolloid kullanimi (tr). Utilization of various hydrocolloids in the production of sutlaç, keskul and kazandibi. Master thesis, Pamukkale University, Denizli.
- [4] Goff, H.D., Guo, Q. (2019). The Role of Hydrocolloids in the Development of Food Structure. In: Handbook of Food Structure Development. Edited by F. Spyropoulos, A. Lazidis, l. Norton. The Royal Society of Chemistry; Cambridge, p. 1-28.
- [5] Shrivastava, M., Yadav, R.B., Yadav, B.S., Dangi, N. (2018). Effect of incorporation of hydrocolloids on the physicochemical, pasting and rheological properties of colocasia starch. Journal of Food Measurement and Characterization, 12(2), 1177-1185.
- [6] Duran, N.M., Galante, M., Spelzini, D., Boeris, V. (2018). The effect of carrageenan on the acid-induced aggregation and gelation conditions of quinoa proteins. Food Research International, 107, 683-690.
- [7] Bak, J.H., Yoo, B. (2018). Effect of CMC addition on steady and dynamic shear rheological properties of binary systems of xanthan gum and guar gum. International Journal of Biological Macromolecules, 115, 124-128.
- [8] Pourmolaie, H., Khosrowshahi Asl, A., Ahmadi, M., Zomorodi, S., Naghizadeh Raeisi, S. (2018). The effect of guar and tragacanth gums as edible coatings in Cheddar cheese during ripening. Journal of Food Safety, 38(6), e12529.
- [9] Pu, C., Tang, W., Li, X., Li, M., Sun, Q. (2019). Stability enhancement efficiency of surface decoration on curcumin-loaded liposomes: Comparison of guar gum and its cationic counterpart. Food Hydrocolloids, 87, 29-37.
- [10] Tárrega, A., Rocafull, A., Costell, E. (2010). Effects of blends of short and long-chain inulin on the rheological and sensory properties of prebiotic low-fat custards. LWT-Food Science and Technology, 43, 556–562.
- [11] González-Tomás, L., Bayarri, S., Taylor, A.J., Costell, E. (2008). Rheology, flavour release and perception of low-fat dairy desserts. International Dairy Journal, 18(8), 858-866.
- [12] Verbeken, D., Thas, O., Dewettinck, K. (2004). Textural properties of gelled dairy dessert containing κ-carrageenan and starch. Food Hydrocolloids, 18, 817- 823.
- [13] Özen, B., Tokul, M., Keskin, T., Şimşek, B. (2017). Keşkül özellikleri üzerine farklı oranlarda Stevia (Stevia rebaudiana) tatlandırıcısı kullanımının etkileri. 1. Ulusal Sütçülük Kongresi, May 25-26, 2017, Ankara, Turkey, p.99
- [14] Verbeken, D., Bael, K., Thas, O., Dewettinck, K. (2006). Interactions between κ-carrageenan, milk proteins and modified starch in sterilized dairy desserts. International Dairy Journal, 16(5), 482-488.
- [15] Granato, D., Masson, M.L., Freitas, R.J.S.D. (2010). Stability studies and shelf-life estimation of a soy-based dessert. Ciência e Tecnologia de Alimentos, 30(3), 797-807.
- [16] Kadagan, S., Arslan, S. (2021). Effects of hydrocolloid combinations on physical, textural and sensory properties of kazandibi. Latin American Applied Research, 51(2), 113-118.
- [17] Altuğ, T., Elmacı, Y. (2005). Sensorial Evaluation of Food (in Turkish). Meta Publishing, İzmir, Turkey.
- [18] Ayar, A., Durmuş, S., Akbulut, M. (2009). Effect of salep as a hydrocolloid on storage stability of “incir uyutması” dessert. Food Hydrocolloids, 23, 62-71.
- [19] Moin, A., Ali, T.M., Hasnain, A. (2017). Characterization and utilization of hydroxypropylated rice starches for improving textural and storage properties of rice puddings. International Journal of Biological Macromolecules, 105, 843-851.
- [20] Nunes, M.C., Raymundo, A., Sousa, I. (2006). Gelled vegetable desserts containing pea protein, κ- carrageenan and starch. European Food Research and Technology, 222, 622–628.
- [21] Dogan, M., Ersoz, N.B., Toker, O.S., Kaya, Y., Canıyılmaz, E. (2014). Optimization of gum combination for instant pudding based on creep and recovery parameters by mixture design approach. European Food Research and Technology, 238, 47–58.
- [22] Tárrega, A., Costell, E. (2007). Colour and consistency of semi-solid dairy dessert: Instrumental and sensory measurements. Journal of Food Engineering, 78, 655-661.
- [23] Kurt, A., Kahyaoğlu, T. (2013). The rheological properties of salep-carrageenan–milk proteins. The 2nd International Symposium on Traditional Foods from Adriatic to Caucasus, October 24-26, 2013, Ohrid, Macedonia, p. 627.
- [24] Chandra, M. V., Shamasundar, B. A. (2015). Texture profile analysis and functional properties of gelatin from the skin of three species of freshwater fish. International Journal of Food Properties, 18(3), 572–584.
- [25] Park, Y. W., Oglesby, J., Hayek, S. A., Aljaloud, S. O., Gyawali, R., Ibrahim, S. A. (2019). Impact of different gums on textural and microbial properties of goat milk yogurts during refrigerated storage. Foods, 8(5), 169-176.
- [26] Zarzycki, P., Ciołkowska, A.E., Jabłońska-Ryś, E., Gustaw, W. (2019). Rheological properties of milk-based desserts with the addition of oat gum and κ-carrageenan. Journal of Food Science and Technology, 56(11), 5107-5115.
- [27] Szwajgier, D., Gustaw, W. (2015). The addition of malt to milk-based desserts: Influence on rheological properties and phenolic acid content. LWT-Food Science and Technology, 62, 400-407.
- [28] Wang, X., Zhou, D., Guo, Q., Liu, C. (2020). Textural and structural properties of a κ‐carrageenan–konjac gum mixed gel: effects of κ‐carrageenan concentration, mixing ratio, sucrose and Ca2+ concentrations and its application in milk pudding. Journal of the Science of Food and Agriculture, 101(7), 3021-3029.
- [29] Krasaekoopt, W., Cabraal, T.L. (2011). Effect of hydrocolloids on sensory properties of the fermented whey beverage from different types of milk. AU Journal of Technology, 14, 253-258.
- [30] Rezaei, R., Khomeiri, M., Kashaninejad M., Aalami, M. (2011). Effects of guar gum and Arabic gum on the physicochemical, sensory and flow behaviour characteristics of frozen yoghurt. International Journal of Dairy Technology, 64(4), 563-568.