Analisis Proksimat dan Total Serat Pangan pada Crackers Fortifikasi Tepung Tempe dan Koleseom (Talinumtiangulare)

https://doi.org/10.22146/agritech.29726

Hermawan Seftiono(1*), Evelyn Djiuardi(2), Sherly Pricila(3)

(1) Program Studi Ilmu dan Teknologi Pangan, Fakultas Bioindustri, Universitas Trilogi, Kampus Trilogi, Jalan TMP Kalibata No 1, Kalibata-Jakarta Selatan
(2) Program Studi Ilmu dan Teknologi Pangan, Fakultas Bioindustri, Universitas Trilogi, Kampus Trilogi, Jalan TMP Kalibata No 1, Kalibata-Jakarta Selatan
(3) Program Studi Ilmu dan Teknologi Pangan, Fakultas Bioindustri, Universitas Trilogi, Kampus Trilogi, Jalan TMP Kalibata No 1, Kalibata-Jakarta Selatan
(*) Corresponding Author

Abstract


Kolesom is a vegetable which contains a high dietary fiber content. Tempe is an Indonesian food that contains high protein and can be an alternative protein source. However, both tempe and kolesom haven’t been widely utilized. One way to improve the utilization is by adding kolesom and tempe flour to increase the nutrient content of crackers. Crackers are one type of crunchy-textured biscuits and are often consumed as a snack. The addition of tempe flour and kolesom flour are also expected to increase protein and dietary fiber content of crackers. This research was aimed to determine the best formulation and proximate level of crackers fortified with tempe and kolesom flour. Cracker production began with the manufacture of tempe flour which has a protein content of 49.08% and kolesom flour which has a total dietary fiber content of 19.22%. Determination of the best crackers based on panelists’ preferences was based on organoleptic test. The highest overall percentage of preference was found in F5 crackers (T10% + K2.5g), containing 4.81% moisture content, 2.53% ash content, 18.43% total fat, 11.90% protein, 62.33% total carbohydrate, and total dietary fiber 8.29 %.


Keywords


Crackers; dietary fiber; kolesom leaf; proximate; tempe flour

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References

AOAC. (2005). Official Method of Analysis. Arlington: AOAC International.

Astawan, M., Wresdiyati, T., Widowati, S., Bintari, S. H., & Ichsani, N. 2013. Karakteristik fisikokimia dan sifat fungsional tempe yang dihasilkan dari berbagai varietas kedelai. Pangan 22, (3): 241-252.

Asyafullah, K. (2015). Bioavailabilitas Mineral Kalsium dari Tepung Tempe dan Tepung Kedelai Rebus pada Tikus Percobaan. Institut Pertanian Bogor.

Bastian, F., Ishak, E., Tawali, B., & Bilang, M. (2013). Daya terima dan kandungan zat gizi formula tepung tempe dengan penambahan semi refined carrageenan (SRC) dan bubuk kakao. Jurnal Aplikasi Teknologi Pangan, 2(1): 5-8.

BSN. (1992). Standar Nasional Indonesia. SNI 2973-1992. Biskuit. Jakarta: Badan Standarisasi Nasional.

BSN. (2011). Standar Nasional Indonesia. SNI 2973-2011. Biskuit. Jakarta: Badan Standarisasi Nasional.

Cui, S. W. (2005). Food carbohydrates: chemistry, physical properties, and application. USA: CRC Press.

Fadhilatunnur, H. (2013). Analisis Perbandingan Kandungan Serat Pangan Kolesom (Talinum triangulare (Jacq.) Willd) dengan Pemupukkan Organik dan Anorganik pada Perbedaan Musim. Institut Pertanian Bogor.

Ichsani, N. (2013). Karakteristik Fisikokimia dan Sifat Fungsional Tempe yang Dihasilkan dari Berbagai Varietas Kedelai. Institut Pertanian Bogor.

Inayati, I. (1991). Biskuit Berprotein Tinggi dari Campuran Tepung Terigu, Singkong, dan Tempe Kedelai.Institut Pertanian Bogor.

Lastriyanto, A., Komar, N., & Pratiwi, H. S. 2016. Pendugaan umur simpan pada penyimpanan dingin tempe kedelai (Glycine max (L.) Merill) dengan pengemasan vakum menggunakan model Arrhenius, Jurnal Keteknikan Pertanian Tropis dan Biosistem 4 (1): 75-86.

Mensah, J. K., R. I. Okoli, J. O. Ohaju-Obodo, & K. Elfediyi. (2009). Phytochemical, nutritional and medicalproperties of some leafy vegetables consumed by Edo people in Nigeria. African Journal of Biotechnology .7(14): 2304-2309.

Mukhoyaroh, H. 2015. Pengaruh jenis kedelai, waktu dan suhu pemeraman terhadap kandungan protein tempe kedelai. Florea 2 (2): 47-51.

Novasari, V. (2017 Mei 27). Sepertiga Penduduk Indonesia Masih Kurang Asupan Protein.

Tribunnews. Diakses dari http://www.tribunnews.com/tribunners/2016/05/27/sepertiga-penduduk-indonesia-masih-kurang-asupan-protein

Rosyidah, A. (2014). Substitusi Tepung Tempe Untuk Pembuatan Kue Lumpur Coklat Dengan Penambahan Variasi Gula Pasir. Universitas Muhammadiyah Surakarta.

Salim, R., Zebua, E.T., & Taslim, T. 2017, Analisis jenis kemasan terhadap kadar protein dan kadar air pada tempe. 2 (2): 106-111. DOI: 10.22216/jk.v2i2.2531

Santoso, A. (2011). Serat pangan (Dietary Fiber) dan manfaatnya bagi kesehatan. Magistra.75:35-40.

Sirpatrawan, U. (2009). Shelf-life simulation of packaged rice crackers. Journal of Food Quality. 32: 224–239. DOI: 10.1111/j.1745-4557.2009.00247.x

Setyaningsih, D., Apriyantono, A., & Sari, M.P. 2010. Analisis Sensori untuk Industri Pangan dan Agro. Bogor: IPB Press.

Winarno, F. G. (2004). Kimia Pangan dan Gizi. Jakarta: Gramedia.



DOI: https://doi.org/10.22146/agritech.29726

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