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2019 | 127 | 3 | 139-152
Article title

The effect of Osteochilus hasselti (Valenciennes, 1842) bone gelatin addition toward jelly candy’s preferences level

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The purpose of this research is to determine the concentration of gelatin of nilem fish bone from the panelists. The method used in the research was an experimental method with four treatments of gelatin addition, which are 9%, 10%, and 11% gelatin of nilem fish bone, and addition of 10% of commercial gelatin from the total weight of the material (sucrose, glucose syrup, flavor, citric acid and water). The parameters observed as panelists' preferences are the appearance, flavor, taste and texture which were performed by semi-trained panelists. The data obtained were analyzed using Friedman Test, Multiple Comparison and Bayes Method. The most preferred jelly candy by the panelists is the treatment of adding 10% gelatin of nilem fish bone with a median value of apperance was 7, flavor was 7, taste and texture was 9.
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  • Fisheries and Marine Sciences Faculty, Padjadjaran University, Jatinangor 45363, West Java, Indonesia
  • Fisheries and Marine Sciences Faculty, Padjadjaran University, Jatinangor 45363, West Java, Indonesia
  • Fisheries and Marine Sciences Faculty, Padjadjaran University, Jatinangor 45363, West Java, Indonesia
  • Fisheries and Marine Sciences Faculty, Padjadjaran University, Jatinangor 45363, West Java, Indonesia
  • [1] Abdalbasit Adam Mariod and Hadia Fadol Adam. Review: Gelatin, Source, Extraction and Industrial Applications. Acta Sci. Pol. Technol. Aliment. (2013) 12(2) 135-147
  • [2] Alexandre De Trindade Alfaro, Ivane B Tonial, and Alessandra Machado. Fish Gelatin: Characteristics, Functional Properties, Application and Future Potentials. Food Engeneering Reviews (2014) 7(1): 33-44
  • [3] Ardiansyah, Junianto, Nia Kurniawati, Emma Rochima. The Effect of Red Tilapia Bone Gelatin Powder Addition on Preference Level of Panna Cotta. World Scientific News 115 (2019) 68-90
  • [4] A. Talib and T. Marlena. Characteristic of Organoleptic and Chemistry Tuna Empek - Empek Product. Journal of Agribusiness Scientific and Fisheries 8 (1) (2015) 50-59
  • [5] Azka Iqbal, Emma Rochima, and Iis Rostini. The Addition of Sharkminow's Eggs on Preference of Stick Product. Journal Fisheries Marine (2016) 150-155
  • [6] Habilla, C., Sim, S.Y., Nor Aziah and Cheng, L.H. The properties of Jelly Candy of Acid-thinned Starch Supplemented with Konjac Glucomannan or Psyllium Husk Powder. International Food Research Journal (2011) 213-220
  • [7] Hashim P, Ridzwan M, Bakar J, Hashim M. Collagen in Food and Beverage Industries. Int Food Res (2015) 22: 1-8
  • [8] Hasnelly, A. Asgar and V. Yoesepa. The Effect of Lime Water Solution Concentration and Soaking Time On Sweet Potato French Fries Characteristics (Ipomoea batatas L.). Journal of Food Technology 1(2) (2014) 141-151.
  • [9] Indonesia National Standard. Quality and Ways to Test Gelatin. National Standardization Agency (1995).
  • [10] Indonesia National Standard. Sugar Candy. National Agency Standardization 3(2) (2008).
  • [11] Achmad Rizal, Isni Nurruhwati, New Methodological Approaches for Change in Traditional Sectors: The Case of the West Java Fisheries Socio Economic System. World News of Natural Sciences 22 (2019) 41-51
  • [12] Junianto Anto, Iskandar and Achmad Rizal. Physico-Chemical Characteristic and Levels of Preference for Drinking Collagen Drinks the Result of Extracts from Nilem Fish Skins. Journal of Aquaculture Research Development (2018) 9: 555
  • [13] Maryani, T. Surti and R. Ibrahim. Application of Red Tilapia Bone Gelatin (Oreochromis niloticus) On Quality of Jelly Candy. Journal of Fisheries Science 6(1) (2010) 62-70
  • [14] Nur Hanani. Gelatin. The Encyclopedia of Food and Helath (2016) vol. 3: 191-195
  • [15] Rafi, M. 2012. Use of Gelatin from Several Types of Fish Bones Againts the Level of Preference Jelly Candy. Essay. Faculty of Fisheries and Marine Science. Padjadjaran University.
  • [16] S. N. Azizah and E. Rochima. The Effect of Tilapia Gelatin Addition On Organoleptic and Physical Characteristics Marshmallow Product. Journal of Fisheries and Marine Science 8(1) (2013) 2-11
  • [17] Sartika, D. 2009. Marshmallow Product Development from Red Snapper Fish Gelatin (Lutjanus sp.) Essay. Faculty of Fisheries and Marine Science. Bogor Agricultural Technology.
  • [18] Ardekani, V. Sanaei, Mahmoodani F., See S.F., Yusop S.M., Babji A.S. (2013) Processing optimization and characterization of gelatin from catfish (Clarias gariepinus) skin. Sains Malaysiana, 42 (12). pp. 1697-1705
  • [19] Walim Lili, Nurmuklis Rubiansyah, Zuzy Anna, Kiki Haetami, Effect of Using Low Temperature in the Beginning of Transportation with Closed System of Goldfish juvenile (Carassius auratus L.). Scientific News of Pacific Region 1 (2019) 20-30
  • [20] Junianto, Iskandar, Achmad Rizal, Windi Damayanti. The Influence of Concentration of Acetic Acid and Pepsin Enzyme in Nilem Fish Skin Collagen Extractionto the Amount of Rendement Produced. World News of Natural Sciences 21 (2018) 164-170
  • [21] Nurul Hidayati, Eddy Afrianto, Zahidah Hasan, Evi Liviawaty, The utilization of lactic acid bacteria from rusip to inhibit the formation of histamine on salted-boiled mackerel tuna – Euthynnus affinis (Cantor, 1849). Scientific News of Pacific Region 2 (2019) 15-27
  • [22] Cheow, C.S., Norizah, M.S., Kyaw, Z.Y. & Howell, N.K. 2007. Preparation and characterisation of gelatins from the skins of sin croaker (Johnius dussumieri) and shortfin scad (Decapterus macrosoma). Food Chemistry 101: 386-391
  • [23] Cho, S.M., Kwak, K.S., Park, D.C., Gu, Y.S., Ji, C.I., Jang, D.H., Lee, Y.B. & Kim, S.B. 2004. Processing optimization and functional properties of gelatin from shark (Isurus oxyrinchus) cartilage. Food Hydrocolloids 18: 573-579
  • [24] Cho, S.M., Gu, Y.S. & Kim, S.B. 2005. Extracting optimization and physical properties of yellowfin tuna (Thunnus albacares) skin gelatin compared to mammalian gelatins. Food Hydrocolloids 19: 221-229
  • [25] DeMars, L.L. & Ziegler, G.R. 2001. Texture and structure of gelatin/pectin-based gummy confections. Food Hydrocolloids 15: 643-653
  • [26] Gilsenan, P.M. & Ross-Murphy, S.B. 2000. Rheological characterisation of gelatins from mammalian and marine sources. Food Hydrocolloids 14: 191-196
  • [27] Gómez-Guillén, M.C., Turnay, J., Fernández-Diaz, M.D., Ulmo, N., Lizarbe, M.A. & Montero, P. 2002. Structural and physical properties of gelatin extracted from different marine species: A comparative study. Food Hydrocolloids 16: 25-34
  • [28] Gudmundsson, M. & Hafsteinsson, H. 1997. Gelatin from cod skins as affected by chemical treatments. Journal of Food Science 62: 37-39
  • [29] Haug, I.J., Draget, K.I. & Smidsrød, O. 2004. Physical and rheological properties of fish gelatin compared to mammalian gelatin. Food Hydrocolloids 18(2): 203-213
  • [30] Hinterwaldner, R. 1977. Raw materials. In The Science and Technology of Gelatins, edited by Ward, A.G. & Courts, A. New York: Academic Press. pp. 295-314
  • [31] Jamilah, B. & Harvinder, K.G. 2002. Properties of gelatins from skins of fish-black tilapia (Oreochromis mossambicus) and red tilapia (Oreochromis nilotica). Food Chemistry 77: 81-84
  • [32] Jellouli, K., Balti, R., Bougatef, A., Hmidet, N., Barkia, A. & Nasri, M. 2011. Chemical composition and characteristics of skin gelatin from grey triggerfish (Balistes capriscus). LWT-Food Science and Technology 44: 1965-1970
  • [33] Johnston-Banks, F.A. 1990. Gelatin. In Food Gel., edited by Harris, P. London: Elsevier Applied Science. pp. 233-289
  • [34] Achmad Rizal, F. X. Hermawan Kusumartono, Zaida, Analysis of Fisheries Sector Contribution in Nabire District of West Papua Province. Scientific News of Pacific Region 2 (2019) 1-14
  • [35] Jones, N.R. 1977. Uses of gelatin in edible products. In The Science and Technology of Gelatins, edited by Ward, A.G. & Courts, A. New York: Academic Press. pp. 365-394
  • [36] Jongjareonrak, A., Benjakul, S., Visessanguan, W., Prodpran, T. & Tanaka, M. 2006. Characterization of edible films from skin gelatin of brownstripe red snapper and bigeye snapper. Food Hydrocolloids 20: 492-501
  • [37] Kasankala, L.M., Xue, Y., Weilong, Y., Hong, S.D. & He, Q. 2007. Optimization of gelatine extraction from grass carp (Catenopharyngodon idella) fish skin by response surface methodology. Bioresource Technology 98: 3338-3343
  • [38] Liu, H.Y., Li, D. & Guo, S.D. 2008. Extraction and properties of gelatin from channel catfish (Ietalurus punetaus) skin. LWT-Food Science and Technology 41: 414-419
  • [39] Mohtar, N.F., Perera, C. & Quek, S.Y. 2010. Optimisation of gelatine extraction from hoki (Macruronus novaezelandiae) skins and measurement of gel strength and SDS–PAGE. Food Chemistry 122: 307-313
  • [40] Montero, P. & Gomez-Guillen, M.C. 2000. Extracting conditions for megrim (Lepidorhmbus boscii) skin collagen affect functional properties of the resulting gelatine. Journal of Food Science 65: 434-438
  • [41] Muyonga, J.H., Colec, C.G.B. & Duodub, K.G. 2004. Extraction and physicochemical characterisation of Nile perch (Lates niloticus) skin and bone gelatine. Food Hydrocolloids 8: 581-592
  • [42] Sakaguchi, M., Toda, M., Ebihara, T., Irie, S., Hori, H., Imai, A., Yanagida, M., Miyazawa, H., Ohsuna, H., Ikezawa, Z. & Inouye, S. 2000. IgE antibody to fish gelatin (type I collagen) in patients with fish allergy. Journal of Allergy and Clinical Immunology 106(3): 579-584
  • [43] See, S.F., Hong, P.K., Ng, K.L., Wan Aida, W.M. & Babji, A.S. 2010. Physicochemical properties of gelatins extracted from skins of different freshwater fish species. International Food Research Journal 17: 809-816
  • [44] Songchotikunpan, P., Tattiyakul, J. & Supaphol, P. 2008. Extraction and electrospinning of gelatin from fish skin. International Journal of Biological Macromolecules 42: 247-255
  • [45] Tabarestani, S.H., Maghsoudlou, Y., Motamedzadegan, A. & Mahoonak, S.A.R. 2010. Optimization of physic-chemical properties of gelatin extracted from fish skin of rainbow trout (Onchorhynchus mykiss). Bioresource Technology 101: 6207-6214
  • [46] Taheri, A., Abedian Kenari, A.M., Gildberg, A. & Behnam, S. 2009. Extraction and physicochemical characterization of greater lizardfish (Saurida tumbil) skin and bone gelatin. Journal of Food Science 74(3): E160-E165
  • [47] Wangtueai, S. & Noomhorm, A. 2009. Processing optimization and characterization of gelatin from lizardfish (Saurida spp.) scales. LWT - Food Science and Technology 42: 825-834
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