Kualitas nonflaky krekers dengan kombinasi tepung tempe kacang gude (Cajanus cajan) dan bawang hitam (Allium sativum)

Febpi Lina Santoso, Yuliana Reni Swasti, Ekawati Purwijantiningsih

Abstract

Non-flaky crackers are a snack made from wheat flour, which are not layered, dense, massive, and crunchy. The crackers in this study were made by combining flour, pigeon pea tempeh flour (Cajanus cajan) and black garlic (Allium sativum). The purpose of this study was to determine the quality of the crackers and the best combination of flour, pigeon pea tempeh flour and black garlics. This study used a completely randomized design with three repetitions. The ratio of flour, pigeon pea tempeh flour, and black garlic in the control was 100:0:0; in product A that is 85:10:15; in product B that is 70:20:10; and in product C that is 55:30:5. Crackers of all treatments were analyzed chemically, physically, microorganism, and organoleptic. Crackers with the best combination were product A with a ratio of 85% flour: 10% pigeon pea tempeh flour: and 5% black garlics with a moisture content of 3.36%, ash content of 1.46%, fat content of 20.56%, protein content of 9.35%, carbohydrate content 65.26%, antioxidant activity of 51.25%, total plate number of 1.7 x 102, total yeast and mould of 7.6 x 101, texture of 10.64 N and organoleptic score of 3.13.

Keywords

Black garlic; Non-flaky crackers; Pigeon pea tempeh flour

References

Agustina, E., Andiarna, F., Hidayati, I. 2020. Uji aktivitas antioksidan ekstrak bawang hitam (black garlic) dengan variasi lama pemanasan. Al-Kauniyah: Jurnal Biologi, 13(1), 39-50. doi: 10.15408/kauniyah. v13i1.12114

Astawan, M., Wresdiyati, T., Maknun, L. 2017. Tempe Sumber Zat Gizi dan Komponen Bioaktif untuk Kesehatan. IPB Press, Bogor.

Badan Standarisasi Nasional. 2011. SNI 2973:2011 Tentang Biskuit. Badan Standarisasi Nasional, Jakarta.

Bhatia, S., Sharma, D.K. 2012. Thermophilic desulfurization of dibenzothiophene and different petroleum oils by Klebsiella sp. 13T. Environmental Science and Pollution Research, 19(8), 3491–3497. https://doi.org/10.1007/s11356-012-0884-2

Media SA.

Chen, W., Lu, X., Tran, V.T., Maruyama, J.I., Han, K.H., Yu, J.H. 2022. From Traditional to Modern: Progress of Mold and Yeasts in Fermented Food Production. Frontiers Media SA.

Damar, D., Ta’in, A., Saati, E.A., Sudibyo, R.P., Wijaya, R., Putri, D.N. 2018. Teknik Pembuatan Roti Manis Fungsional.Universitas Muhammadiyah Malang, Malang.

David, O., Arthur, E., Kwadwo, S.O., Badu, E., Sakyi, P., Student, P.G. 2015. Proximate Composition and Some Functional Properties of Soft Wheat Flour. International Journal of Innovative Research in Science, Engineering and Technology, 4(2), 753-758. doi: 10.15680/IJIRSET.2015.0402097

Dewi, I.W.R., Anam, C., Widiowati, E. 2014. Karakteristik sensoris, nilai gizi dan aktivitas antioksidan tempe kacang gude (Cajanus cajan) dan tempe kacang tunggak (Vigna unguiculata) dengan berbagai variasi waktu fermentasi. Biofarmasi, 12(2), 73–82.

Estiasih, T., Harijono, Waziiroh, E., Fibrianto. 2022. Kimia dan Fisik Pangan. Bumi Aksara, Jakarta.

Feng, X.M. 2006. Microbial dynamics during barley tempeh fermentation. Tesis. Swedish University of Agricultural.

Fitriana, D.I.N., Setiadi, Y. 2017. Analisis kadar serat pada snack bar dengan berbagai komposisi tepung beras hitam (Oryza sativa L) dan tepung kacang merah (Phaseolus vulgaris L). Jurnal Riset Gizi, 5(1), 1-7. doi: 10.31983/JRG.V5l1.4316

Fox, P.F. Condon, J.J. 1982. Food Proteins. Springer, Cork.

Gisslen, W. 2009. Professional Baking. Wiley, Hoboken.

Harzau, H., Estiasih, T. 2013. Karakteristik cookies umbi inferior uwi putih (kajian proporsi tepung uwi: pati jagung dan penambahan margarin). Jurnal Pangan dan Agroindustri, 1(1), 138–147.

Hayes, P.R. 1995. Food Microbiology and Hygiene. Chapman and Hall, London.

Lim, T.K. 2015. Edible Medicinal and Non Medicinal Plants. Springer, Dordrecht.

Nacimento, W.C.A.D., Martins, M.L.L. 2004. Production and properties of an extracellular protease from thermophilic Bacillus sp. Brazilian Journal of Microbiology, 35(1), 91–96.

Nelwida, N., Berliana, B., Nurhayati, N. 2019. Kandungan nutrisi black garlic hasil pemanasan dengan waktu berbeda. Jurnal Ilmiah Ilmu-Ilmu Peternakan, 22(1), 53-64.

Okada, N. 1989. Role of microorganisms in tempeh manufacture. Jarq, 22(4), 310–316.

Olakanmi, S.J., Jayas, D.S., Paliwal, J. 2022. Implications of blending pulse and wheat flours on rheology and quality characteristics of baked goods. Foods, 11(1), 3287–3309.

Omah, E.C., Okafor, G.I. 2015. Selected functional properties, proximate compositionof flours and sensory characteristics of cookies from wheat and millet-pigeon pea flour blends. Paksitan Journal of Nutrition, 14(9), 581–585.

Qiu, Z., Lu, X., Li, N., Zhang, M., Qiao, X. 2017. Characterization of garlic endophytes isolated from the black garlic processing. Mircobiology Open, 7(1), 1–11.

Rahmi, Y., Kusuma, T.S. 2020. Ilmu Bahan Makanan. UB Press, Malang.

Ryu, J.H., Kang, D. 2017. Physicochemical properties, biological activity, health benefits, and general limitations of aged black garlic: A review. In Molecules, 22(919), 1-14. doi: 10.3390/molecules22060919

Setiyoningrum, F., Priadi, G., Afiati, F. 2022. Chemical properties of solo black garlic fermented by Saccharomyces cerevisiae. IOP Conf. Series: Earth and Environmental Science, 976(1), 1–7.

Siddiq, M., Uebersax, M.A. 2018. Handbook Vegetables and Vegetables Processing. Wiley, Hoboken.

Sine, Y., Soetarto, E.S. 2020. Kualitas morfologi dan lama waktu fermentas. Jurnal Pendidikan Dan Sains Biologi, 3(3), 96–102.

Spence, C., Levitan, C.A. 2021. Explaining crossmodal correspondences between colours and tastes. I-Perception, 12(3), 1-28. Doi: 10.1177/20416695211018223.

Suwarsih, S., Wulandari, Y.W., Widanti, Y.A. 2020. Aktivitas antioksidan black garlic dengan variasi jenis bawang (Allium sp) dan lama pemeraman. Jurnal Ilimiah Teknologi dan Industri Pangan Unisri, 5(1), 67-78.

They, M.K., Refli, Ruma, M.T.L. 2018. The effect of long term immersion and long term fermentation on the nutrional values of pigeon pea tempe (Cajanus cajan). Jurnal Biotropikal Sains, 15(1), 82–91.

Tiwari, B.K., Singh, N. 2012. Pulse Chemistry and Technology. Chemistry, Cambridge.

Wang, K., Ma, X., Yin, X., Wu, C., Wang, Z., Wu, Y., Tian, Y. 2021. Difference and interplay of microbial communities, metabolic functions, trophic modes and influence factors between sludge and bulking agent in a composting matrix. Bioresource Technology, 336(1), 1–31.doi:10.1016/j.biortech.2021.125085.

Widoyo, S., Handajani, S., Nandariyah. 2015. Pengaruh lama fermentasi terhadap kadar serat kasar dan aktivitas antioksidan tempe beberapa varietas kedelai. Biofarmasi, 13(2), 59–65.

Zhafira, R. 2018. Pengaruh lama aging terhadap sifat fisik, kimai, dan aktivitas antioksidan produk bawang hitam lanang. Jurnal Pangan dan Agroindustri, 6(1), 34-42.

DOI

https://doi.org/10.21107/agrointek.v18i1.18951

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