Aplikasi response surface methodology pada optimalisasi proses direct acidification terhadap karakteristik produk keju lunak dari penggunaan air lemon [Application of response surface methodology to optimize direct acidification using lemon juice process for soft cheese properties]

Winda Septiana; Sukarno Sukarno; Slamet Budijanto

doi:10.23960/jtihp.v28i1.30-42

Authors

Winda Septiana IPB University
Sukarno Sukarno
Slamet Budijanto

DOI:

https://doi.org/10.23960/jtihp.v28i1.30-42

Abstract View: 944

Abstract

Lemon juice can be used as an acidifier to separate curd and whey from milk by decreasing the pH until it reaches the isoelectric point. This study observed the effect of lemon juice as a coagulant for soft cheese-making characteristics using direct acidification that variates the temperature point and the level of lemons maturity classify by the fruit-peel color ratio between yellow and green. Response surface methodology was used in this experimental design with 29 total runs by Design Expert 13 software to search for the optimum formula for the soft cheese-making process. The result shows that the optimum formula reached 70% yellow and 30% green lemon-peel color of fruit maturity, several lemon juice concentrations at 5%, 10%, and 15, and the coagulation temperature point at 30 °C. This research showed that there was an effect of using lemon juice as an acid coagulant in the soft cheese-making process based on the concentration added as an acidifying agent on the characteristic results.

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References

Alhelli, A. M., Mohammed, N. K., Khalil, E. S., & Hussin, A. S. M. (2021). Optimizing the acceleration of cheddar cheese ripening using response surface methodology by microbial protease without altering its quality features. AMB Express, 11(1). https://doi.org/10.1186/s13568-021-01205-9

Asmaq, N., & Lubis, N. (2019). Kualitas gizi keju mozarella dengan penambahan koagulan yang berbeda. Journal of Animal Science and Agronomy Panca Budi, 4(2), 4–7.

Badan Pengawas Obat dan Makanan Republik Indonesia, Peraturan Kepala Badan Pengawas Obat dan Makanan Republik Indonesia Nomor 21 Tahun 2016 Tentang Kategori Pangan (2016).

Badan Standardisasi Nasional Republik Indonesia, SNI 01-3951-1995 Tentang Susu Pasteurisasi (1995).

Behera, S. K., Meena, H., Chakraborty, S., & Meikap, B. C. (2018). Application of response surface methodology (RSM) for optimization of leaching parameters for ash reduction from low-grade coal. International Journal of Mining Science and Technology, 28(4), 621–629. https://doi.org/10.1016/j.ijmst.2018.04.014

Breig, S. J. M., & Luti, K. J. K. (2021). Response surface methodology: A review on its applications and challenges in microbial cultures. 3rd International Conference on Materials Engineering & Science, 42, 2277–2284. https://doi.org/10.1016/j.matpr.2020.12.316

Brighenti, M., Govindasamy-Lucey, S., Jaeggi, J. J., Johnson, M. E., & Lucey, J. A. (2018). Effects of processing conditions on the texture and rheological properties of model acid gels and cream cheese. Journal of Dairy Science, 101(8), 6762–6775. https://doi.org/10.3168/jds.2018-14391

Chairunnisa, T., Irbah, N., Zanjabila Irsan, A., Indah Tri Dewi, S., Nahdly Purba, P., Octavia Sitinjak, L., Ramadhani, F., Efendi, B., Arazilla, A. T., & Rahayu, A. (2021). Klaim gizi rendah lemak pada berbagai jenis keju : literature review nutrition claim of low fat in different types of cheese: literature review. Jurnal Andaliman: Jurnal Gizi Pangan, Klinik Dan Masyarakat, 1(1), 1–12.

Chakraborty, P., Shivhare, U. S., & Basu, S. (2021). Effect of milk composition on sensory attributes and instrumental properties of indian cottage cheese (Chhana). NFS Journal, 23, 8–16. https://doi.org/10.1016/j.nfs.2021.02.002

Dai, S., Jiang, F., Shah, N. P., & Corke, H. (2019). Functional and pizza bake properties of mozzarella cheese made with konjac glucomannan as a fat replacer. Food Hydrocolloids, 92, 125–134. https://doi.org/10.1016/j.foodhyd.2019.01.045

D’Incecco, P., Limbo, S., Hogenboom, J., Rosi, V., Gobbi, S., & Pellegrino, L. (2020). Impact of extending hard-cheese ripening: a multiparameter characterization of parmigiano reggiano cheese ripened up to 50 months. Foods, 9(3). https://doi.org/10.3390/foods9030268

Fachraniah, Rihayat, T., Zaini, H., Nita, D., & Fazil, M. (2019). Papain enzyme and lemon as coagulants in cottage cheese. IOP Conference Series: Materials Science and Engineering, 536(1). https://doi.org/10.1088/1757-899X/536/1/012103

Farkye, N. Y. (2017). Acid-heat coagulated cheeses. In Cheese: Chemistry, Physics and Microbiology: Fourth Edition (Vol. 1, pp. 1111–1115). Elsevier Inc. https://doi.org/10.1016/B978-0-12-417012-4.00044-2

Feng, R., Lillevang, S. K., & Ahrné, L. (2021). Effect of water temperature and time during heating on mass loss and rheology of cheese curds. Foods, 10(11). https://doi.org/10.3390/foods10112881

Fox, P. F., Guineee, T. P., Cogann, T. M., & Mcsweeney, P. L. H. (2017). Fundamentals of cheese science second edition. https://doi.org/10.1007/978-1-4899-7681-9

Gerber, Y., Oshchepkova, E., Gavrilov, A., & Ermolin, D. (2021). Improvement of curd mass production technology. E3S Web of Conferences, 284. https://doi.org/10.1051/e3sconf/202128402014

Horwitz, William. (2006). Official methods of analysis of AOAC International. AOAC International.

Ismail, S. N., Latip, M. S. A., & Mohamad, M. A. (2021). Production and characterisation of cheddar cheese-like from Cocos Nucifera L. IOP Conference Series: Materials Science and Engineering, 1176(1), 012044. https://doi.org/10.1088/1757-899x/1176/1/012044

Jiang, B., Ni, L., & Buckle, K. (2010). Food for health and wellbeing: 14th world congress of food science and technology. In Journal of the Science of Food and Agriculture, 90(8),1283–1284. https://doi.org/10.1002/jsfa.3996

Jumare, A. I., Abou-El-Hossein, K., Abdulkadir, L. N., & Liman, M. M. (2019). Predictive modeling and multiobjective optimization of diamond turning process of single-crystal silicon using RSM and desirability function approach. International Journal of Advanced Manufacturing Technology, 103(9–12), 4205–4220. https://doi.org/10.1007/s00170-019-03816-w

Kern, C., Stefan, T., & Hinrichs, J. (2019). Multiple linear regression modeling: prediction of cheese curd dry matter during curd treatment. Food Research International, 121, 471–478. https://doi.org/10.1016/j.foodres.2018.11.061

Lestari, D., Yurliasni, & Dzarnisa. (2020). Kualitas whey keju yang dihasilkan berbeda dengan teknik yang berbeda. Jurnal Ilmiah Mahasiswa Pertanian Unsyiah, 5(1), 265–271. www.jim.unsyiah.ac.id/JFP

McMahon, D. J., Paulson, B., & Oberg, C. J. (2005). Influence of calcium, pH, and moisture on protein matrix structure and functionality in direct-acidified nonfat Mozzarella cheese. Journal of Dairy Science, 88(11), 3754–3763. https://doi.org/10.3168/jds.S0022-0302(05)73061-7

Nugroho, P., Dwiloka, & Rizqianti, H. (2018). Rendemen, nilai pH, tekstur, dan aktivitas antioksidan keju segar dengan bahan pengasam ekstrak bunga rosella ungu (Hibiscus sabdariffa L.). Jurnal Teknologi Pangan, 2(1), 33–39.

Ong, L., Pax, A. P., Ong, A., Vongsvivut, J., Tobin, M. J., Kentish, S. E., & Gras, S. L. (2020). The effect of pH on the fat and protein within cream cheese and their influence on textural and rheological properties. Food Chemistry, 332. https://doi.org/10.1016/j.foodchem.2020.127327

Patahanny, T., Hendrawati, A. L., & Nurlaili. (2019). Pembuatan keju mozzarella dengan enzim papain dan ekstrak jeruk nipis mozzarella cheese making with enzyme papain and lime juice. Jurnal Agriekstensia, 18(2).

Priadi, G., Setiyoningrum, F., Afiati, F., & Syarief, R. (2018). Pemanfaatan modified cassava flourdan tepung tapioka sebagai bahan pengisi keju cedar olahan. Jurnal Litbang Industri, 8(2), 67–76. https://doi.org/http://dx.doi.org/10.24960/jli.v8i2.4050.67-76

Rehman, F. U., Kalsoom, M., Iqbal, R., Zulfiqar, A., Zubair, I., Ashiq, A., Fizza, F., Shahzadi, L., & Arooj, P. (2020). Biological activities of lemon. Open Access Journal of Biogeneric Science and Research, 4(4). https://doi.org/10.46718/jbgsr.2020.04.000104

Ridgway, K., Smith, R. M., & Lalljie, S. P. D. (2012). Sample preparation for food contaminant analysis. In Comprehensive Sampling and Sample Preparation (Vol. 3). Elsevier.

Sulistyo, B., Chairunnisa, H., & Wulandari, E. (2018). Pengaruh penggunaan kombinasi enzim papain dan jus lemon sebagai koagulan terhadap kadar air, berat rendemen, dan nilai kesukaan fresh cheese. Jurnal Ilmu Ternak Universitas Padjadjaran, 18(1), 8–15. https://doi.org/10.24198/jit.v18i1.15299

Sumarmono, J., & Suhartati, F. M. (2012). Yield dan komposisi keju lunak (soft cheese) dari susu sapi yang dibuat dengan teknik direct acidification menggunakan ekstrak buah lokal. Jurnal Aplikasi Teknologi Pangan, 1(3), 65–68.

Thybo, C. D., Lillevang, S. K., Skibsted, L. H., & Ahrné, L. (2020). Calcium balance during direct acidification of milk for mozzarella cheese production. LWT - Food Science and Technology, 131. https://doi.org/10.1016/j.lwt.2020.109677

Torres-Frenzel, P., DeMarsh, T. A., & Alcaine, S. D. (2021). Investigation of the surface-application of lactose oxidase to fresh mozzarella cheese as a potential means of inhibiting blue discoloration. Food Control, 130. https://doi.org/10.1016/j.foodcont.2021.108289

Untoro, N. S., Kusrahayu, & Setiani, B. E. (2012). Kadar air, kekenyalan, kadar lemak dan citarasa bakso daging sapi dengan penambahan ikan bandeng presto (channos channos forsk). Animal Agriculture Journal, 1(1), 567–583. https://ejournal3.undip.ac.id/index.php/aaj/article/view/758

Walstra, P. (1999). Dairy technology. CRC Press. https://doi.org/10.1201/9780824746414

Wardhani, D. H., Jos, B., Abdullah, A., Suherman, S., & Cahyono, H. (2018). Effect of coagulants in curd forming in cheese making. Jurnal Rekayasa Kimia & Lingkungan, 13(2), 209–216. https://doi.org/10.23955/rkl.v13i2.12157

Yuliana, N., Indrawan, I., Wirawati, C. U., & Sumardi. (2021). Evaluasi mutu susu segar dari peternak berbeda di provinsi Lampung sebagai bahan baku keju. Jurnal Teknologi & Industri Hasil Pertanian, 26(2), 109–114.