This research aimed to optimize the growth of commercial yogurt starter cultures (Streptococcus thermophilus and Lactobacillus bulgaricus) on coconut milk before they were applied in the production of coconut yogurt, which is known as niyogurt or cocogurt. The research consists of three steps. Firstly, both microbes were grown on 100% cow’s milk and were analyzed for pH and total lactic acid bacteria (LAB) to examine the length of fermentation time. Secondly, both microbes were gradually grown on cow’s milk and coconut milk media, with samples ranging in combinations of the two kinds of milk from 100% milk to 100% coconut milk. Finally, the optimized starter cultures were then applied to niyogurt production. The results showed that the pH of the starter cultures obtained in 100% milk after 48 hours of fermentation was 4.41±0.04 for Streptococcus thermophilus and 4.44±0.03 for Lactobacillus bulgaricus. Meanwhile, the total lactic acid bacteria counts were 8.62±3.03 log cfu/ml for Streptococcus thermophilus and 9.55±2.22 log cfu/ml for Lactobacillus bulgaricus. These results showed that both commercial starter cultures need long periods to reach the targeted pH and total lactic acid bacteria (LAB) suggesting that enrichment was needed before commercial starter cultures were used. Furthermore, after analyzing six samples of growth on different ratios of milk and coconut milk, it was seen that both starters could grow optimally on 100% coconut milk. The total LAB after 24 hours of fermentation was 11.07 log cfu/ml with pH 4.05. Based on chemical and microbiological analyses, the characteristics of niyogurt have met Indonesia’s Standard for food consumption (SNI 2981:2009). The niyogurt consisted of 3.15% protein content, 8.3% fat content, 0.83% total acid, 0.76% mineral content, and 11.48 log cfu/ml total LAB.

Nurminabari, I.S.; Sumartini; Arifin, D. P. P. 2018. Kajian penambahan skim dan santan terhadap karakteristik yoghurt dari whey. J. Pasundan. Food. Techno. 5(1): 54–62.

Badan Pusat Statistik. Produksi Susu Segar menurut Provinsi, 2009-2019. Retrieved on March 19, 2021 from: https://www.bps.go.id/dynamictable/2015/12/22%2000:00:00/1083/produksi-susu-segar-menurut-provinsi-2009-2017.html.

Riana, E.; Hendrawan, Y.; Hawa, L. C. 2018. Analisis kualitas yoghurt santan dengan penambahan ekstrak buah tropis pada variasi suhu inkubasi. J. Keteknikan Pertanian Tropis dan Biosistem 6(3): 251-260.

Destiana, I. D.; Aprilia, D.; Hermalia, S. 2021. Karakteristik mutu kimia dan biologi cocogurt dengan perbedaan konsentrasi pektin dan pisang sebagai prebiotik alami. J. Edufortech. 6(2): 135-138.

Turner. D, R.; Sinclair, W. H.; Knez, W. L. 2014. Nutritional adequacy of vegetarian and omnivore dietary intakes. J. Nutr. Health. Sci. 1(2): 201.

Indonesia Vegetarian Society. 2020. Definisi vegan. Retrieved on December 12, 2021, from: https://www.ivsvsi.org/organisasi.

Yunita, D.; Rohaya, S.; Husna, N.; Maulina, I. 2011. Pembuatan niyoghurt dengan perbedaan perbandingan Streptococcus thermophilus dan Lactobacillus bulgaricus serta perubahan mutunya selama penyimpanan. J. Tekno. Pertanian 12(2): 83–90.

Sarah; Indarti, E.; Yunita, D. 2021. Pengujian starter yoghurt (Streptococcus thermophilus dan Lactobacillus bulgaricus) serta ekstrak jamblang (Syzygium cumini L.) pada kasus niyoghurt jamblang yang telah rusak. J. Ilmiah Mahasiswa Pertanian 6(1): 37-43.

Yunita. D.; Dary, R.; Rohaya, S. 2017a. Penambahan rempah-rempah (Cengkeh dan kayu manis) dalam pembuatan yoghurt berbahan baku santan kelapa (Niyoghurt). Seminar Nasional Perhimpunan Ahli Teknologi Pangan Indonesia (PATPI); Bandar lampung; p. 221-226.

Mariska, D. 2018. Pembuatan Keju Oles (Spread Cheese) Berbahan Baku Santan Kelapa. Skripsi. Jurusan Teknologi Hasil Pertanian Fakultas Pertanian Universitas Syiah Kuala, Banda Aceh.

AOAC. 2005. Official Methods of Analysis of The Associaton of Analytical Chemists (Washington D.C.)

Nurgrahadi, N. N.; Puspawati; Sugitha, I. M. 2020. Pengaruh perlakuan 3 jenis bakteri asam laktat dan kombinasinya terhadap karakteristik keju kedelai. J. Ilmu dan Tekno. Pangan 9(4): 412–425.

Stachelska, M. A.; Foligni, R. 2018. Development of a time-effective and highly specific quantitative real-time polymerase chain reaction assay for the identification of Lactobacillus delbrueckii subsp. bulgaricus and Streptococcus thermophilus in artisanal raw cow’s milk cheese. Acta Veterinaria Brno. J. 87(3): 301–308.

Wibawanti, J. M. W.; Rinawidiastuti. 2018. Sifat fisik dan organoleptik yogurt drink susu kambing dengan penambahan ekstrak kulit manggis (Garcinia mangostana L.). J. Ilmu dan Tekno. Hasil Ternak 13(1): 27- 37.

Hendarto, D. R.; Handayani, A. P.; Esterelita, E.; Handoko, Y. G. 2019. Mekanisme biokimiawi dan optimalisasi Lactobacillus bulgaricus dan Streptococcus thermophilus dalam pengolahan yoghurt yang berkualitas. J Sains Dasar 8(1): 13-19.

Cahya, F.; Susanto, W. H. 2014. Pengaruh pohon pasca sadap dan kematangan buah kelapa terhadap sifat fisik, kimia organoleptik pasta santan. J Pangan dan Agroindustri 2(4): 249-258.

Mauro, C. S. I.; Garcia, S. 2019. Coconut milk beverage fermented by Lactobacillus reuteri: optimization process and stability during refrigerated storage. J. Food. Sci. Technol. 56(2): 854-864.

Machmud, N. A.; Retnowati, Y.; Uno, W. D. 2013. Aktivitas lactobacillus bulgaricus pada fermentasi susu jagung (Zea mays) dengan penambahan sukrosa dan laktosa. J. Sainstek 7(2): 1-10.

Erdiandini, I.; Sunarti, T. C.; Meryandini, A. 2015. Seleksi bakteri asam laktat dan pemanfaatannya sebagai starter kering menggunakan matriks tapioka asam. J. Sumberdaya Hayati 1(1): 26-33.

Szparaga, A.; Tabor, S.; Kocira, S.; Czerwinska, E.; Kubon, M.; Plociennik, B.; Findura, P. 2019. Survivability of probiotic bacteria in model systems of non-fermented and fermented coconut and hemp milks. J. Sustainability 11(21): 6093.

Mandei, J. H. 2015. Utilization of blondo as a starter in processing of yoghurt. B Palma 16(1): 66–76.

Oktaviana, A. Y.; Suherman, D.; Sulistyowati, E. 2015. Pengaruh ragi tape terhadap pH, bakteri asam laktat dan laktosa yogurt. J. Sain. Pet. Indo. 10(1): 22–31.

Bayu, M. K.; Rizqiati, H.; Nurwantoro, N. 2017. Analisis total padatan terlarut, keasaman, kadar lemak, dan tingkat viskositas pada kefir optima dengan lama fermentasi yang berbeda. J. Teknologi Pangan 1(2): 33-38.

Thohari, I.; Amertaningtyas, D.; Purwadi, P.; Jaya, F. 2014. Pengaruh pati ganyong (Cannaedulis, ker) modifikasi terhadap kualitas kefir. J. Ilmu-Ilmu Peternakan (Indonesian Journal of Animal Science) 24(1): 77–81.

Septiani, S. 2019. Karakterisasi lipase termostabil (isolat AI96) berdasarkan parameter temperatur dan pH pada industri makanan. J. Lantanida 7(1): 49-63.

Putri, E. 2016. Kualitas protein susu sapi segar berdasarkan waktu penyimpanan. J. Chempublish 1(2): 14–20.

Edem, V. E.; Elijah, A. I. 2016. Optimization of coconut (Cocos nucifera) milk extraction using response surface methodology. Int. J. Nutr. Food Sci. 5(6): 384–394.

Khoiriyah, L. K.; Fatchiyah, F. 2013. Karakter biokimia dan profil protein yogurt kambing PE difermentasi bakteri asam laktat (BAL). J. Exp. Life Sci. 3(1): 1–6.

Evadewi, F. D.; Tjahjani, C. M. P. 2021. Viskositas, keasaman, warna dan sifat organoleptik yoghurt susu kambing yang diperkaya dengan ekstrak beras hitam. J. ilmiah Univ Batanghari Jambi 21(2): 837-841.

Rohman, E.; Maharani, S. 2020. Peranan warna, viskositas, dan sineresis terhadap produk yoghurt. J. Edufortech. 5(2): 1-11.

Yunita, D.; Melia, W.; Dary, R.; Rohaya, S. 2017. Penggunaan karagenan dan gum xanthan sebagai bahan penstabil dalam pembuatan niyoghurt. Prosiding Semhas Teknologi Hasil Pertanian; Banda Aceh; p. 18-22.