59
Aditiwati, P., & Kusnadi. (2003). Kultur Campuran Dan Faktor Lingkungan Mikroorganisme Yang Berperan Dalam Fermentasi Tea Cider. Jurnal ITB Sains dan Teknologi Vol. 35(A): 147- 162.
Diakses http://journals.itb.ac.id/index.php/jmfs/article/view/264/247
Afriani (2010). Pengaruh Penggunaan Starter Bakteri Asam Laktat Lactobacillus plantarum dan Lactobacillus fermentum Terhadap Total Bakteri Asam Laktat, Kadar Asam dan Nilai pH Dadih Susu Sapi. Jurnal Ilmiah Ilmu-Ilmu Peternakan 8(6):279-285.
Diakseshttps://online-journal.unja.ac.id/index.php/jiip/article/view/114/102
Alrawaiq, N. S & A. Abdullah. (2014). A Review Of Flavonoid Quercetin: Metabolism, Bioactivity And Antioxidant Properties. International Journal Of Pharmtech Research Coden (Usa): Ijprif Issn : 0974-4304 Vol.6(3) : 933-941.
Diakses http://sphinxsai.com/2014/phvolpt3/1/(933-941)Jul-Aug14.pdf
Ardheniati, M. (2008). Kinetika Fermentasi Pada Teh Kombucha Dengan Variasi Jenis Teh Berdasarkan Pengolahannya. FP USM Surakarta.Skripsi.
Diakses http://agris.fao.org/agris-search/search.do?recordID=GB2015403392
Avenue, N.H. (2013). A where Healthy Food Starts Guide: Kombucha.Cultures for Health.
Balai Penelitian Tanaman Industri dan Penyegar (Balittri). (2013). Teh Putih Yang Langka dan Mahal. http://balittri.litbang.pertanian.go.id/index.php/berita/info-teknologi/177-teh-putih-yang-langka-dan-mahal. Diakses pada tanggal 31 April 2017.
Blanc P.J. (1996). Characterization Of The Tea Fungus Metabolites. Biotchenol Lett 18:139–42.
https://www.researchgate.net/publication/227033901_Characterization_of_the_ tea_fungus_metabolites.
Brand-Williams, V., M. E. Cuvelier, & C. Berset. (1995). Use Of A Free Radical Method To Evaluate Antioxidant Activity. Lebensm-Wissund Technologie / Food Science And Technology Vol 28: 25 -30
Cabrera, C., R Gimenez., & C. Lopez. (2003). Determination Of Tea Components With Antioxidant Activity. Journal Of Agricultural And Food Chemistry 51(15) : 4427-35. Diakses http://hera.ugr.es/doi/1507920x.pdf.
Cahyono, E. (2013). Pemodelan Matematika. Graha Ilmu: Yogyakarta.
Caturryanti. D, S. Luwihana & S. Tamaroh. (2008). Pengaruh Varietas Apel Dan Campuran Bakteri Asam Asetat Terhadap Proses Fermentasi Cider. Jurnal
Agritech Vol 28(2) Diakses
https://jurnal.ugm.ac.id/agritech/article/viewFile/9865/7428
Chakravorty, S., S. Bhattacharya, A. Chatzinotas, W. Chakraborty, D. Bhattacharya, & R. Gachhui. (2016). Kombucha Tea Fermentation Microbial And Biochemical Dynamics. International Journal Of Food Microbiology 220: 63-72 Diakses https://www.researchgate.net/publication/289600313_Kombucha_tea_fermenta tion_Microbial_and_biochemical_dynamics
Chen, C., & B. Y. Liu. (2000). Changes In Major Component Of Tea Fungus Metabolites During Prolonged Fermentation. Journal Applied Microbiology 89: 834 – 9 Diakses https://eurekamag.com/pdf.php?pdf=003378195
Chu, S.C & C. Chen. (2006). Effects Of Origins And Fermentation Time On The Antioxidant Activities Of Kombucha. Food Chemistry 98: 502–507 Diakses http://www.sciencedirect.com/science/article/pii/S0308814605005364
Dalynn Biological. (2002). McFarland Standard. Catalogue No. TM50 – TM60. Diakses www.dalynn.com/dyn/ck_assets/files/tech/TM53.pdf
Damiani, E., T. Bacchetti., L. Padella., L. Tiano & P. Carloni. (2014). Antioxidant Activity Of Different White Teas: Comparison Of Hot And Cold Tea Infusions. Journal of Food composition and analysis Vol 33: 59 – 66. Diakses http://www.d3a.univpm.it/node/255
De Angelis, M., A. Corsetti, N. Tosti., J. Rossi, M. R. Corbo, & M, Gobbetti. (2001). Characterization Of Non-Stater Lactic Acid Bacteria From Italian Ewe Cheeses Based On Phenotype, Genotype, And Cell Wall Protein Analyses. Appl. Environ. Microbiol Vol 67: 2011-2020. Diakses https://www.ncbi.nlm.nih.gov/pmc/articles/PMC92830/pdf/am002011.pdf
Diba, F, F.Alam & A.T. Ali. (2015). Screening Of Acetic Acid Producing Microorganisme From Decomposed Fruits For Vinegar Production. Advences in Microbiology Vol 5: 291 -297. Diakses https://www.researchgate.net/publication/276157161_Screening_of_Acetic_Ac id_Producing_Microorganisms_from_Decomposed_Fruits_for_Vinegar_Produ ction
Dmitrienko, S. G., V. A. Kudrinskaya, & V. V. Apyari. (2012). Methods Of Extraction, Preconcentration, And Determination Of Quercetin. Journal Of Analytical Chemistry, Vol. 67(4): 299–311. Diakses https://www.researchgate.net/publication/233483471_Methods_of_Extraction_ Preconcentrationand_Determination_of_Quercetin
Dufresne, C., & E. Farnworth. (2000). Tea, Kombucha, And Health: A Review. Food Research International 33: 409 -421 Diakses http://www.yoikombucha.se/wp-content/uploads/2016/08/Tea-Kombucha-and-health-a-review.pdf
Eberl. (1997). Use Of Green Flurescent Protein As Masker For Ecology Studies Of Activated Sludge Communities. Fems Microbiology Latters. Diakses https://academic.oup.com/femsle/articlelookup/doi/10.1111/j.15746968.1997.t b10311.x
Ettayebi, K., F. Errachidi, L. Jamai, M.A. Tahri-Jouti, K. Sendide, & M. Ettayebi. (2003). Biodegradation Of Polyphenols With Immobilized Candida Tropicalis Under Metabolic Induction. Fems Microbiology Letter, 223: 215–219.diakses http://onlinelibrary.wiley.com/doi/10.1016/S0378-1097(03)00380-X/epdf
Fardiaz, S. (1992). Mikrobiologi Pangan 1. Gramedia Pustakan Utama: Jakarta.
Fuller, R. (1992). Probiotics: The Scientific Basic. Chapman And Hall. London.
Gunther & K. Rusilas. (2010). Fermentation of Sucrose in S. Cerevisiae. Massachuetts Institute of Technology departement of Biology. Diakses https://biology.mit.edu/sites/default/files/Fermentation%20Lesson.pdf
Hadioetomo, R.S. (1993). Mikrobiologi Dasar Dalam Praktek : Teknik Dan Prosedur Dasar Laboratorium. PT Gramedia. Jakarta.
Halim, C. N & E. Zubaidah. (2013). Studi Potensi probiotik Isolat Bakteri Asam Laktat Penghasil Eksopolisakarida Tinggi Asal Sawi Asin (Brassica Juncea). Jurnal Pangan dan Agroindustri 1(1): 129-137. Diakses http://jpa.ub.ac.id/index.php/jpa/article/view/12/16
Hilal, Y & U. Engelhardt.(2007). Characterisation Of White Tea–Comparison To Green And Black Tea. Journal Fur Verbraucherschutz Und Lebensmittelsicherheit 2(4): 414-421.Diakseshttps://www.tu-braunschweig.de/Medien-DB/ilc/w_t.pdf
Hill, M. J. (1995). Role Of Gut Bacteria In Human Toxicology And Pharmacology.
Taylor And Francis. New York. Diakses
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC1383093/pdf/gut00504-0194d.pdf
Jacobsen, C. N. (1999). Screening Of Probiotics Activities Of Forty-Seven Strains Of Lactobacillus Spp By In Vitro Techniques And Evaluation The Colonization Of Five Selected Strains In Humans. J. Appl And Environ Microbial 65(11): 4949-4959. Diakses http://aem.asm.org/content/65/11/4949.full.pdf+html
Jarrell, J., T. Cal, & J.W. Bennet. (2000). The Kombucha consortia of yeast and
bacteria. Mycologist 14: 166 – 170. Diakses
https://www.researchgate.net/publication/248729639_The_Kombucha_consorti a_of_yeasts_and_bacteria
Jayabalan, R., P. Subathradevi, S. Marimuthu, M. Sathiskamar & K. Swamintha. (2008). Changes in the free radical scavenging ability of kombucha tea during fermentation. Journal Food Chemistry 109:227 – 234. Diakses https://www.researchgate.net/profile/Sathishkumar_M/publication/222657719_ Changes_in_freeradical_scavenging_ability_of_kombucha_tea_during_fermen tation/links/0912f50ac9bb8a5533000000/Changes-in-free-radical-scavenging-ability-of-kombucha-tea-during-fermentation.pdf
Karori, S.M., F.N. Wachira, J.K. Wanyoko, & R.M. Ngure. (2007). Antioxidant capacity of different types of tea products. African Journal of Biotechnology
6(19): 2287 – 2296. Diakses
http://www.academicjournals.org/journal/AJB/article-full-text-pdf/43B34F36448
Katina. K., A. Laitila, R. Juvonen, K.-H. Liukkonen, S. Kariluoto, V. Piironen, R. Landberg, P. Aman, & K. Poutanen. (2007). Bran fermentation as a means to enhance technological properties and bioactivity of rye. Journal Food Microbiology Vol 24 : 175 – 186
Diakseshttps://www.researchgate.net/publication/6786874_Bran_fermentation _as_a_means_to_enhance_technological_properties_and_bioactivity_of_rye
Khuangga, D.L. (2016). Optimization Of Bacteriocin Production By Lactic Acid Bacteria Isolated From Ampel Bamboo Shoots (Bambusa Vulgaris) Pickle Under Different Fermentation Conditions Using Supplemented Whey Medium. Faculty of Agricultural Technology. Bachelor Thesis
Kimoto,H., S. Ohmomo, & T. Okamoto. (2002). Enhancement Of Bile Tolerance In Lactococci By Tween 80. J. Of Applied Microbiology. 92: 41-46. Diakses http://onlinelibrary.wiley.com/doi/10.1046/j.1365-2672.2002.01505.x/epdf
Koesoemawardani, D., S. Rizal & M. Tauhid. (2013). Perubahan Sifat Mikrobiologi dan Kimia Rusip Selama Fementasi. Jurnal Argitech Vol 33 (3). Diakses https://jurnal.ugm.ac.id/agritech/article/view/9547/7122
Liongs, M.T. & N.P. Shah. (2005). Acid and Bile tolerance and cholesterol removal ability of Lactobacili strainss. Journal of Dairy Science 88: 55- 66. Diakses https://www.jstage.jst.go.jp/article/bifidus/24/1/24_1_1/_pdf
Lovri, T. & I.B. Leto. (2002). Identification Of Phenolic Acids And Changes In Their Content During Fermentation And Ageing Of White Wines. The Journal Of Food Biotechnology 40: 221 – 225.Diakses https://bib.irb.hr/datoteka/83442.40-221.pdf
Malbas A, R., E. Loncar, & M. Djuric. (2008). Comparison Of The Products Of Kombucha Fermentation On Sucrose And Molasses. Food Chemistry, 106:
1039–1045. Diakses
Maunatin, A., & Khanifa. (2012). Uji Probiotik Lactobacillus plantarum Secara In-Vitro. Jurnal ALCHEMY Vol 2(1) : 26 – 34. Diakses https://www.academia.edu/14805904/UJI_POTENSI_PROBIOTIK_Lactobacil lus_plantarium_SECARA_IN-VITRO
Musdalifah & E. Zubaidah. (2016). Studi Aktivitas Antiokasidan Kefir Teh Daun Sirsak dari Berbagai Merk Dipasaran. Jurnal pangan dan agroindustri 4(1): 29 -39. Diakses jpa.ub.ac.id/index.php/jpa/article/download/302/313
Nainggolan, J. (2009). Kajian Pertumbuhan Bakteri Accetobacter Sp. Dalam Kombucha Rosela Merah (Hibiscus Sabdariffa) Pada Kadar Gula dan Lama Fermentasi Yang Berbeda. (Tesis). Medan : Universitas Sumatera Utara Diakses http://repository.usu.ac.id/bitstream/handle/123456789/5801/09E01977.pdf?se quence=1&isAllowed=y
Naland, H. (2008). Kombucha Teh dengan Seribu Khasiat. Jakarta: Agromedia Pustaka.
Natania, A., H. Cahyana, & M.T.D. Ambarita. (2006). Uji Potensi Kubis – Kubisan (Brassica Sp) Dan Hasil Fermentasinya Sebagai Sumber Antioksidan Alami. Jurnal Ilmu Pangan Dan Teknologi Pangan 4(2).Diakses https://www.researchgate.net/publication/225091116_Uji_potensi_kubis-kubisan_Brassica_sp_dan_hasil_fermentasinya_sebagai_sumber_antioksidan_a lami
Nuryady, M, Tifani. M, Faizah. I, Ubaidillah. R, Mahmudi.S, & Sutoyo. Z. (2013). Isolasi dan Identifikasi Bakteri Asal Katat (BAL) Asal Yoghurt. UNEJ
JURNAL I(5):1-11. Diakses
https://www.researchgate.net/publication/260596816_Isolation_and_Identificat ion_of_Lactid_Acid_Bacteria_From_Yoghurt_Nuryady_et_al_2012
Primurdia, E.G., & J. Kusnadi. (2014). Aktivita Antioksidan Minuman Probiotik Sari Kurma (Phoenix Dactilyfera L.) Dengan Isolat L. Plantarum Dan L. Casei. Jurnal Pangan Dan Agroindustri 2(3): 98-109.
Diakses http://jpa.ub.ac.id/index.php/jpa/article/viewFile/57/66
Puspawati, N.N & N.M.I. Hapsari Arihantana. (2016). Viability Of Lactic Acid Bacteria Isolated From Kombucha Tea Against Low pH and Bile Salt. Media Ilmiah Teknologi Pangan 3(1): 18–25
Diakses https://ojs.unud.ac.id/index.php/pangan/article/view/23166
Rai, N, A. Jigisha, K. Navin, & G. Pankaj. (2012). Green Tea: A Magical Herb With Miraculous Outcomes. International Research Journal Of Pharmacy 3(5): 139
– 148.
Raja, B.R. & K.D. Arunachalam. (2011). Market Potential For Probiotic Nutritional Supplement In India. African Journal Of Busness Management 5(14): 5418 – 5423.
Diakseshttps://www.researchgate.net/publication/228751565_Market_potential _for_probiotic_nutritional_supplements_in_India
Rohdiana, D. (2015). Teh: Proses, Karakteristik & Komponen Fungsionalnya. Foodreview Indonesia Vol 10(8)
Diakseshttps://www.researchgate.net/publication/286460235_Teh_Proses_Kar akteristik_Komponen_Fungsionalnya
Rupadani, N.L.D, N.M.P. Susanti & N.P.E. Leliqia. (2013). Uji Aktivitas Antioksidan Minuman Kombucha Lokal di Bali Dengan Subtrat Gambir. Jurnal Farmasi Udayana Vol 2(3)
Diakses https://ojs.unud.ac.id/index.php/jfu/article/view/7384/5638
Salminen, S., Av. Wright, & A. Ouwehand. (2004). Lactic Acid Bacteria. Marckel Dekker. New York.
Sanders, C.L. (2003). Prevention And Therapy Of Cancer And Other Common Diases. (Dalam Natania, A., H. Cahyana, & M.T.D. Ambarita.(2006). Uji Potensi Kubis – Kubisan (Brassica Sp) Dan Hasil Fermentasinya Sebagai Sumber Antioksidan Alami. Jurnal Ilmu Pangan Dan Teknologi Pangan. 4(2.)
Simanjuntak, R & N. Siahaan.(2011). Pengaruh Konsentrasi Gula Dan Lama Fermentasi Terhadap Mutu Teh Kombucha. Jurnal Ilmiah Pendidikan Tinggi .4(2).Diakses
http://akademik.uhn.ac.id/portal/public_html/JURNAL/Jurnal_Rosnawyta_Sim anjuntak/Juridikti%20Edit.pdf
Sreeamulu, G., Y. Zhu, & W. Knol. (2000). Kombucha Fermentation And Its Antimicrobial Activity. Journal Agricultural Food Chemistry 48: 2589-94 Diakses
https://www.researchgate.net/publication/12429731_Kombucha_Fermentation _and_Its_Antimicrobial_Activity
Sujaya, I.N., N. M. U. Dwioayanti., N. L. P. Suariani, N. P. Widarini., K. A. Nocianitri., & N. W. Nursini. (2008). Potensi Lactobacillus Spp. Isolat Susu Kuda Sumbawa Sebagai Probiotik. Jurnal Vet 9(1) : 33-40.
Diakses https://ojs.unud.ac.id/index.php/jvet/article/view/3314/2360
Sukmawati, P. P. A., Y. Ramona, & N. P. E. Leliqia. (2013). Penetapan Aktivitas Antiokasidan Yang Optimal Pada Teh Hitam Kombucha Lokal Di Bali Dengan Variasi Waktu Fermentasi. Jurnal Farmasi Udayana, Vol.2 No. 1
Diakses http://download.portalgaruda.org/article.php?article=82800&val=961
Suter, I.K. (2013). Pangan Fungsional dan Prospek Pengembangannya. Jurusan Gizi Politeknik Kesehatan Denpasar.
Diakseshttp://erepo.unud.ac.id/6336/1/ID3_19501231197602100323091304927 makalah-gizi.pdf
Tapas, A.R., D.M. Sakarkar, & R.B. Kakde. (2008). Flavonoids As Nutraceuticals: A Review. Tropical Journal Of Pharmaceutical Research, 7 (3): 1089-1099. Diakses http://www.bioline.org.br/pdf?pr08030
Teoh, A.L., G. Heard, & J. Cox. (2004). Yeast Ecology Of Kombucha Fermentation. International Journalof Food Microbiology 95: 119 -126 Diakses https://www.academia.edu/5845605/Yeast_ecology_of_Kombucha_fermentati on
Venditti, E., T. Bacchetti, L. Tiano, P. Carloni, L. Greci, & E. Damiani. (2010). Hot Vs cold water steeping of different teas: Do they affect antioxidant activity?. Food
Chem 119: 1597 – 1604. Diakses
https://www.researchgate.net/publication/223383177_Hot_vs_cold_water_stee ping_of_different_teas_Do_they_affect_antioxidant_activity
Widyasanti, A., S. Hajar & D. Rohdiana. (2015). Aktivitas Antibakteri Ekstrak Teh Putih Terhadap Bakteri Gram Positif Dan Negatif. Jurnal Penelitian Teh Dan Kina, 18(1) : 55 – 60
Diakses https://tcrjournal.com/index.php/tcrj/article/download/66/pdf
Winarno, F.G. & L. Kristiono. (2016). Green Tea & White Tea. Gramedia Pustaka Utama: Jakarta.
Wistiana, D & E. Zubaidah. (2015). Karakteristik Kimiawi Dan Mikrobiologis Kombucha Dari Berbagai Daun Tinggi Fenol Selama Fermentasi. Jurnal Pangan Dan Agroindustri Vol . 3 No 4 : 1446 – 1457
Diakses jpa.ub.ac.id/index.php/jpa/article/download/268/277
Yang, Z., F. Zhou., Baoping Ji., Bo Li., Y. Luo., L. Yang & Tao L. (2010). Symbiosis Between Microorganisms From Kombucha And Kefir: Potential Significance To The Enhancement Of Kombucha Function. Appl Biochem Biotechnol 160:446–455. Diakses https://link.springer.com/article/10.1007/s12010-008-8361-6
Yashin, Y.I., Ryzhnev, V.Yu., Yashin, A.Ya., & Chernousova, N.I. (2009). Prirodnye Antioksidanty. Soderzhanie V Pishchevykh Produktakh I Ikh Vliyanie Na Zdorov’e I Starenie Cheloveka (Natural Antioxidants: The Content In Foods And Their Effect On Human Health And Aging), Moscow: Translit. (Dalam Dmitrienko, S. G., V. A. Kudrinskaya, & V. V. Apyari. (2012). Methods Of Extraction, Preconcentration, And Determination Of Quercetin. Journal Of Analytical Chemistry, Vol. 67(4): 299–311.)
Yuliana. (2008). Kinetika Pertumbuhan Baktei Asam Laktat Isolay T5 Yang Berasal Dari Tempoyak. Jurnal Teknologi Industri Dan Hasil Pertanian. 73:2. Diakses http://jurnal.fp.unila.ac.id/index.php/JTHP/article/viewFile/72/80