Investigation of non-soybean legumes as raw material for making tempeh is very important to be carried out continuously considering soybean production tends to decline from year to year. This study aims to analyse the potential of red bean seeds as raw material for tempeh and changes in their nutritional profile when fermented at different fermentation times. The red beans were soaked in water overnight at room temperature and then boiled for 20 minutes. After boiling, the red beans were drained and then fermented for 36, 48, and 60 hours using a suspension of Rhizopus oligosporus with a weight of 2 g for each 1000 g of red beans. Red bean tempeh was analysed for quality using test parameters including physical appearance (color, texture, and aroma) and nutritional profile (calorie value, ash, water, crude fiber, fat, protein, and carbohydrate content). The physical appearance and nutritional profile of red bean tempeh were compared with those of soybean tempeh, while the quality of tempeh was compared with Indonesian national standards for tempeh. The results showed that the length of fermentation time significantly affected the nutritional profile of tempeh. Red bean tempeh fermented for 48 hours had a nutritional profile including energy, water, ash, protein, fat, carbohydrate, and crude fiber content of 201.59 kcal/100 g tempeh, 61.97%, 1.18%, 16.19%, 10.98%, 8.29%, and 1.13%, respectively. The physical appearance and nutritional profile of red bean tempeh have met the tempeh quality requirements issued by the Indonesian national standard for tempeh. Therefore, red bean seed appears to be as good as raw materials for tempeh production.
Published in | International Journal of Nutrition and Food Sciences (Volume 13, Issue 5) |
DOI | 10.11648/j.ijnfs.20241305.15 |
Page(s) | 199-208 |
Creative Commons |
This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited. |
Copyright |
Copyright © The Author(s), 2024. Published by Science Publishing Group |
Fermentation Time, Indonesian National Standard, Nutritional Profile, Red Bean Tempeh, Rhizopus Oligosporus
[1] | Dwiatmaka, Y., Yuniarti, N., Lukitaningsih, E., Wahyuono, S. Fermentation of soybean seeds using Rhizopus oligosporus for tempeh production and standardization based on flavones content, International Journal of Applied Pharmaceutics. 2022, 14(6), 131-136. |
[2] | Yarlina, V. P., Nabilah, F., Djali, M., Andoyo, R., Lani, M. N. Mold characterization in "RAPRIMA" tempeh yeast from LIPI and over fermented Koro Pedang (Jack Beans) tempeh. Food Research. 2023, 7(1), 125-132. |
[3] | Tahir, A., Anwar, M., Mubeen, A., Raza, S. Evaluation of physicochemical and nutritional contents in soybean fermented food tempeh by Rhizopus oligosporus. Journal of Advances in Biology and Biotechnology. 2018, 17(1): 1-9. |
[4] | Boniglia, C., Carratu, `B., Gargiulo, R., Giammarioli, S., Mosca, M., Sanzini, E. Content of phytoestrogens in soy-based dietary supplements. Food Chemistry. 2019, 115(4), 1389–1392. |
[5] | Kameda, T., Aoki, H., Yanaka, N., Kumrungsee, T., Kato, N. Production of isoflavone aglycone-enriched tempeh with Rhizopus stolonifera. Food Science and Technology Research. 2018, 24(3), 493‒499. |
[6] | Afifah, D. N., Rahma, A., Nuryandari, S. S., Alviche, L., Hartono, P. I., Kurniawati, D. M., Wijayanti, H. S., Fitranti, D. Y., Purwanti, R. J. Nutrition content, protein quality, and antioxidant activity of various tempeh gembus preparations Journal of Food and Nutrition Research. 2018, 7(8), 605-612. |
[7] | Lo, D., Romulo, A., Lin, J. Y., Wang, Y. T., Wijaya T. H., Wu, M. C. Effect of different fermentation conditions on antioxidant capacity and isoflavones content of soy tempeh. AIMS Agriculture and Food. 2022, 7(3), 567–579. |
[8] | U. S. Department of Agriculture, Agricultural Research Service. Food Data Central, 2019. Available at: |
[9] | Li, Z., Li, J., Mo, B., Hu, C., Liu, H., Qi, H., Wang, X., Xu, J. Genistein induces cell apoptosis in MDA-MB-231 breast cancer cells via the mitogen-activated protein kinase pathway. Toxicology in Vitro. 2008, 22(7), 1749-53. |
[10] | Bolarinwa, I. F., Al-Ezzi, M. F. A., Carew, E., Muhammad, K. Nutritional value of legumes in relation to human health: A review. Advance Journal of Food Science and Technology. 2019, 17(5), 72-85. |
[11] | Mullins, A. P., Arjmandi, B. H. Health benefits of plant-based nutrition: Focus on beans in cardiometabolic diseases. Nutrients. 2021, 13(2), 519. |
[12] | Etiosa, O. R., Chika, N. B., Benedicta, A. Mineral and proximate composition of soya bean. Asian Journal of Physical and Chemical Sciences. 2017, 4(3), 1-6. |
[13] | Afifah, D. N., Sari, I. R., Prastifani, N. T., Fulyani, F., Anjani, G., Widyastuti, N., Hastuti, V. N. Effect of fermentation time on nutrition content, physical properties, pH, amino acids, fatty acids composition and organoleptic on fermented mackerel sausage (Rastrelliger kanagurta Cuvier) characteristics. International Journal of Food Studies. 2023, 12, 57-70. |
[14] | Baroh, I., Windiana, L., Shodiq, W. M., Khan, W. A. Analysis of soybean production trends in Indonesia. BIO Web of Conferences. 2024, 104, 00020. |
[15] | Sibuea, F. A., Sibuea, M. B., Safitri, S. A. Indonesian soybean import in international trade. Journal of Management and Agriculture. 2024, 21(1), 122-131 |
[16] | Abu-Salem, F. M., Mohamed, R. K., Gibriel, A. Y., Rasmy, N. M. H. Levels of some antinutritional factors in tempeh produced from some legumes and jojobas seeds. International Journal of Nutrition and Food Engineering. 2014, 8(3), 296-301. |
[17] | Erkan, S. B., Gurler, H. N., Bilgin, D. G., Germec, M., Turhan, I. Production and characterization of tempeh from different sources of legume by Rhizopus oligosporus. Journal of Food Science and Technology. 2020, 119, 11-25. |
[18] | Polanowska, K., Grygier, A., Kuligowski, M., Rudzińska, M., Nowak, J. Effect of tempeh fermentation by three different strains of Rhizopus oligosporus on nutritional characteristics of faba beans. LWT- Food Science and Technology. 2020, 122, 1-9. |
[19] | Wahyudi, M., Tjahyadi, A. L., Erawati, C. M., Sukweenadhi, J. Flour made from cacao-soybean tempeh fermented using soybean tempeh inoculum. Food Science and Technology. 2023, 43, e18423. |
[20] | Adhianata, H., Pramana, A., Rochmawati, N., Ditya, Y. The 4th International Conference on Sustainability Agriculture and Biosystem. IOP Conf. Series: Earth and Environmental Science. 2022, 1059, 012062. |
[21] | Qayyum, M. M. N., Butt, M. S., Anjum, F. M. Composition analysis of some selected legumes for protein isolates recovery. Journal of Animal and Plant Sciences. 2012, 22(4), 1156-1162. |
[22] | Mananga, M. J., Didier, K. B., Charles, K. T., Fadimatou, B., Ruth, D. N., Gilbert, M. M., Blaise, K., Michelle, D., Elie, F., Marie, K. S. Nutritional and antinutritional characteristics of ten red bean cultivars (Phaseolus vulgaris L.) from Cameroon. International Journal of Biochemistry Research and Review. 2021, 30(4), 1-14. |
[23] | Khatun, S., Kim, T. Phenolic compound, antioxidant activity and nutritional components of five legume seed. American Journal of Biomedical Science and Research. 2021, 12(4), 32-334. |
[24] | SNI 3144: 2015. Indonesia National Standard: Requirements for the standard quality of soybean tempeh |
[25] | AOAC Official Method 978.10, Fiber crude) in animal feed and pet food. Official Methods of Analysis of AOAC International, 18th edition. 2005, Chapter 4, pp. 46-47, AOAC International, Gaithersburg. |
[26] | Dewi, I. W. R., Anam, C., Widowati, E. Sensory characteristic, nutrient value and antioxidant activities of pigeon pea tempeh (Cajanus cajan) and cow pea tempeh (Vigna unguiculata) with variations of fermentation time. Biofarmasi. 2014, 12(2), 73-82. |
[27] | Kustyawati, M. E., Subeki, Murhadi, Rizal, S., Astuti, P. Vitamin B12 production in soybean fermentation for tempeh. AIMS Agriculture and Food. 2020, 5(2), 262–271. |
[28] | Suhartanti, P. D., Handajani, S., Nandariyah. Physical characteristics of the seeds of soybean (Glycine max) varieties and the effect of fermentation time on the chemical characteristics of tempeh. Cell Biology and Development. 2019, 3(1), 13-18. |
[29] | Vital, R. J., Bassinello, P. Z., Cruz, Q. A., Carvalho, R. N., De Paiva, J. M., Colombo, A. O. Production, quality, and acceptance of tempeh and white bean tempeh burgers. Foods 2019, 7(9), 1-9. |
[30] | Ishartani, D., Sistiani, D., Sari, A. M., Nursiwi, A., Zaman, M. Z. Changes to the chemical and microbiological characteristics of Leucaena leucocephala seeds during tempeh fermentation in Pacitan, East Java. Food Research. 2021, 5(2), 78-83. |
[31] | Faradilla, F., Yunianta., Fibrianto, K. Characteristics of tempeh edamame fermented Rhizopus oligosporus: Effect of fermentation time and inoculum concentration. International Research Journal of Advanced Engineering and Science, 2022, 7(4), 90-93. |
[32] | Hartman, T. J., Christie, J., Wilson, A., Ziegler, T. R., Methe, B., Flanders, W. D., Rolls, B. J., Eberhart, B. L., Li, J. V., Huneault, H., Cousineau, B., Perez, M. R., Keefe, S. J. D. O. Fibre-rich foods to treat obesity and prevent colon cancer trial study protocol: a randomised clinical trial of fibre-rich legumes targeting the gut microbiome, metabolome and gut transit time of overweight and obese patients with a history of noncancerous adenomatous polyps. BMJ Open. 2024, 14, e081379. |
[33] | Teoh, S. Q., Chin, N. L., Chong, C. W., Ripen, A. M., How, S., Lim, J. J. L. A review on health benefits and processing of tempeh with outlines on its functional microbes. Future Foods. 2024, 9, 1-12. |
[34] | Fahey, G. C., Novotny, L., Layton, B., Mertens, D. R. Critical factors in determining fiber content of feeds and foods and their Ingredients. Journal of AOAC International. 2019, 102(1), 52-62. |
[35] | Gutema, T., Tolesa, G. N. Effects of traditional processing techniques on nutritional quality and sensory acceptability of value-added products made from cowpea (Vigna unguiculata L. walp.) produced in Ethiopia. Journal of Food and Nutrition Research. 2024, 8(17), 32-43. |
[36] | Murwan, K., Elkhier, S., Abd-ALRaheem, A. A. Effect of fermentation period on the chemical composition, in-vitro protein digestibility and tannin content in two sorghum cultivars (Dabar and Tabat) in Sudan. Journal of Applied Biosciences. 2011, 39, 2602-2606. |
[37] | Candra, P., Enespa, Singh, R., Arora, P. K. Microbial lipases and their industrial applications: a comprehensive review. Microbial Cell Factories. 2020, 19, 1-42. |
[38] | Tan, ZJ., Abu Bakar, M. F., Lim, S. Y., Sutimin, H. Nutritional composition and sensory evaluation of tempeh from different combinations of beans. Food Research. 2024, 8(2), 138-146. |
[39] | Jan, S., Kumar, K., Yadav, A.N., Ahmed, N., Thakur, P., Chauhan, D., Rizvi, Q.U.E.H., Dhaliwal, H.S. Effect of diverse fermentation treatments on nutritional composition, bioactive components, and anti-nutritional factors of finger millet (Eleusine coracana L.). Journal of Applied Biology and Biotechnology. 2022, 10(1), 46-52. |
[40] | Tojang, D., Saparuddin, Alimuddin, Arham, Z. Effects of pretreatment and solid-state fermentation on tempeh protein content. Oriental Journal of Chemistry. 2021, 37(1), 53-57. |
[41] | Obadina, A. O., Akinola, O. J., Shittu, T. A., Bakare, H. A. Effect of natural fermentation on the chemical and nutritional composition of fermented soymilk Nono. Nigerian Food Journal, 2013, 31(2), 91-97. |
APA Style
Maryam, S., Sastrawidana, I. D. K., Sudiana, I. K., Sukarta, I. N. (2024). Nutritional Profile Analysis of Red Bean Tempeh Fermented Using Rhizopus Oligosporus at Different Time. International Journal of Nutrition and Food Sciences, 13(5), 199-208. https://doi.org/10.11648/j.ijnfs.20241305.15
ACS Style
Maryam, S.; Sastrawidana, I. D. K.; Sudiana, I. K.; Sukarta, I. N. Nutritional Profile Analysis of Red Bean Tempeh Fermented Using Rhizopus Oligosporus at Different Time. Int. J. Nutr. Food Sci. 2024, 13(5), 199-208. doi: 10.11648/j.ijnfs.20241305.15
AMA Style
Maryam S, Sastrawidana IDK, Sudiana IK, Sukarta IN. Nutritional Profile Analysis of Red Bean Tempeh Fermented Using Rhizopus Oligosporus at Different Time. Int J Nutr Food Sci. 2024;13(5):199-208. doi: 10.11648/j.ijnfs.20241305.15
@article{10.11648/j.ijnfs.20241305.15, author = {Siti Maryam and I Dewa Ketut Sastrawidana and I Ketut Sudiana and I Nyoman Sukarta}, title = {Nutritional Profile Analysis of Red Bean Tempeh Fermented Using Rhizopus Oligosporus at Different Time }, journal = {International Journal of Nutrition and Food Sciences}, volume = {13}, number = {5}, pages = {199-208}, doi = {10.11648/j.ijnfs.20241305.15}, url = {https://doi.org/10.11648/j.ijnfs.20241305.15}, eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.ijnfs.20241305.15}, abstract = {Investigation of non-soybean legumes as raw material for making tempeh is very important to be carried out continuously considering soybean production tends to decline from year to year. This study aims to analyse the potential of red bean seeds as raw material for tempeh and changes in their nutritional profile when fermented at different fermentation times. The red beans were soaked in water overnight at room temperature and then boiled for 20 minutes. After boiling, the red beans were drained and then fermented for 36, 48, and 60 hours using a suspension of Rhizopus oligosporus with a weight of 2 g for each 1000 g of red beans. Red bean tempeh was analysed for quality using test parameters including physical appearance (color, texture, and aroma) and nutritional profile (calorie value, ash, water, crude fiber, fat, protein, and carbohydrate content). The physical appearance and nutritional profile of red bean tempeh were compared with those of soybean tempeh, while the quality of tempeh was compared with Indonesian national standards for tempeh. The results showed that the length of fermentation time significantly affected the nutritional profile of tempeh. Red bean tempeh fermented for 48 hours had a nutritional profile including energy, water, ash, protein, fat, carbohydrate, and crude fiber content of 201.59 kcal/100 g tempeh, 61.97%, 1.18%, 16.19%, 10.98%, 8.29%, and 1.13%, respectively. The physical appearance and nutritional profile of red bean tempeh have met the tempeh quality requirements issued by the Indonesian national standard for tempeh. Therefore, red bean seed appears to be as good as raw materials for tempeh production. }, year = {2024} }
TY - JOUR T1 - Nutritional Profile Analysis of Red Bean Tempeh Fermented Using Rhizopus Oligosporus at Different Time AU - Siti Maryam AU - I Dewa Ketut Sastrawidana AU - I Ketut Sudiana AU - I Nyoman Sukarta Y1 - 2024/09/29 PY - 2024 N1 - https://doi.org/10.11648/j.ijnfs.20241305.15 DO - 10.11648/j.ijnfs.20241305.15 T2 - International Journal of Nutrition and Food Sciences JF - International Journal of Nutrition and Food Sciences JO - International Journal of Nutrition and Food Sciences SP - 199 EP - 208 PB - Science Publishing Group SN - 2327-2716 UR - https://doi.org/10.11648/j.ijnfs.20241305.15 AB - Investigation of non-soybean legumes as raw material for making tempeh is very important to be carried out continuously considering soybean production tends to decline from year to year. This study aims to analyse the potential of red bean seeds as raw material for tempeh and changes in their nutritional profile when fermented at different fermentation times. The red beans were soaked in water overnight at room temperature and then boiled for 20 minutes. After boiling, the red beans were drained and then fermented for 36, 48, and 60 hours using a suspension of Rhizopus oligosporus with a weight of 2 g for each 1000 g of red beans. Red bean tempeh was analysed for quality using test parameters including physical appearance (color, texture, and aroma) and nutritional profile (calorie value, ash, water, crude fiber, fat, protein, and carbohydrate content). The physical appearance and nutritional profile of red bean tempeh were compared with those of soybean tempeh, while the quality of tempeh was compared with Indonesian national standards for tempeh. The results showed that the length of fermentation time significantly affected the nutritional profile of tempeh. Red bean tempeh fermented for 48 hours had a nutritional profile including energy, water, ash, protein, fat, carbohydrate, and crude fiber content of 201.59 kcal/100 g tempeh, 61.97%, 1.18%, 16.19%, 10.98%, 8.29%, and 1.13%, respectively. The physical appearance and nutritional profile of red bean tempeh have met the tempeh quality requirements issued by the Indonesian national standard for tempeh. Therefore, red bean seed appears to be as good as raw materials for tempeh production. VL - 13 IS - 5 ER -