Biopropal Industri

Non wheat noodles like flat noodle require composite starch with high amylase content such as canna and arrowroot starch as raw material. Pumpkin flour addition is expected to increase nutrition value of the composite flour. This research aimed to characterized composite flour from canna starch or arrowroot starch and pumpkin flour as ingredient for flat noodles. Six composite flour formulations were made from a mixture of canna starch or arrowroot starch with pumpkin flour at 5%, 10%, 15% concentrations. The physicochemical properties (proximate, beta-carotene, colour analysis), functional properties (swelling power, solubility, water absorption capacity, oil absorption capacity) and pasting properties (peak, breakdown, final, setback viscosity and pasting temperature) were analyzed. The results revealed that higher concentration of pumpkin flour was significantly increasing ash, protein, fat, carbohydrate and beta carotene content. The swelling power, solubility, water and oil absorption capacity increased with high concentrations of pumpkin flour, while the lightness of composite flour decreased. The addition of pumpkin flour increased peak and breakdown viscosity but decreased setback viscosity. Canna-pumpkin composite flours at 5% of pumpkin flour was recommended as ingredient for flat noodle because it has a low swelling power, low peak viscosity, low breakdown viscosity, low final viscosity and high setback viscosity.

Keywords:  canna/arrowroot-pumpkin composite flour, functional properties, gelatinization profile, physicochemical properties

ABSTRAK

Mi non gandum seperti flat noodle membutuhkan tepung komposit pati berkadar amilosa tinggi seperti pati ganyong dan pati garut sebagai bahan baku. Penambahan tepung labu kuning diharapkan dapat meningkatkan nilai gizi pada tepung komposit sebagai bahan baku flat noodle. Tujuan penelitian ini adalah untuk mengetahui karakterisasi tepung komposit dari pati ganyong/garut dan tepung labu kuning sebagai bahan baku flat noodle. Enam formulasi tepung komposit flat noodle dibuat dari campuran pati ganyong atau pati garut dengan penambahan tepung labu kuning 5%, 10% dan 15%. Karakterisasi tepung komposit meliputi sifat fisikokimia (proksimat, beta-karoten, warna), sifat fungsional (swelling, kelarutan, kapasitas penyerapan air, kapasitas penyerapan minyak) dan profil gelatinisasi (viskositas puncak, breakdown, akhir, setback dan suhu gelatinisasi). Hasil penelitian menunjukkan kenaikan konsentrasi tepung labu kuning berpengaruh signifikan terhadap kenaikan kadar abu, protein, lemak, karbohidrat, beta karoten, swelling power, kelarutan, serta kapasitas penyerapan air dan minyak tepung komposit. Kecerahan tepung komposit menurun seiring dengan peningkatan konsentrasi tepung labu kuning. Penambahan tepung labu kuning meningkatkan viskositas puncak dan breakdown, tetapi menurunkan viskositas setback tepung komposit. Tepung komposit (ganyong-labu kuning) dengan penambahan tepung labu kuning 5% direkomendasikan sebagai bahan baku flat noodle karena memiliki swelling power rendah, viskositas puncak rendah, breakdown rendah, viskositas akhir rendah dan setback tinggi.

Kata kunci: profil gelatinisasi, sifat fisikokimia, sifat fungsional, tepung komposit ganyong/garut-labu kuning

Ahmed, I., Qazi, I. M., Li, Z., & Ullah, J. (2016). Rice Noodles : Materials , Processing and Quality Evaluation. In Proceedings of the Pakistan Academy of Sciences: B. Life and Environmental Sciences (Vol. 53, pp. 215–238).

Ahmed, J., Al-foudari, M., Al-salman, F., & Almusallam, A. S. (2014). Effect of particle size and temperature on rheological, thermal, and structural properties of pumpkin flour dispersion. Journal of Food Engineering, 124, 43–53. https://doi.org/10.1016/j.jfoodeng.2013.09.030

Aini, N., Wijonarko, G., & Sustriawan, B. (2016). Sifat Fisik, Kimia dan Fungsional Tepung Jagung Yang Diproses Melalui Fermentasi. Acta Universitatis Cibiniensis Series E: Food Technology, 36(2), 160–169. https://doi.org/10.22146/agritech.12860

Ajani, A., Fasoyiro, S., Arowora, K., Popoola, C., & Zaka, K. (2016). Functional Properties of Composite Flour made from Wheat and Breadfruit. Applied Tropical Agriculture, 21(2), 89–93.

Akajiaku, L., Nwosu, J., Kabuo, N., Odimegwu, E., Umelo, M., & Unegbu, V. (2017). Using sorghum flour as part substitute of wheat flour in noodles making. MOJ Food Process Technology, 5(2), 250–257. https://doi.org/10.15406/mojfpt.2017.05.00120

Akonor, P. T., Tortoe, C., Buckman, E. S., & Hagan, L. (2017). Proximate composition and sensory evaluation of root and tuber composite flour noodles. Cogent Food & Agriculture, 45, 1–7. https://doi.org/10.1080/23311932.2017.1292586

AOAC, 2005. Official Methods of Analysis. Association of Official Analytical Chemists. Benjamin Franklin Station, Washington.

Aprianita, A., Vasiljevic, T., Bannikova, A., & Kasapis, S. (2014). Physicochemical properties of flours and starches derived from traditional Indonesian tubers and roots. Journal Food Science Technology, 51(December), 3669–3679. https://doi.org/10.1007/s13197-012-0915-5

Arise, A. K., Dauda, A. O., Awolola, G. V., & Akinlolu-ojo, T. V. (2017). Physico-chemical, functional and pasting properties of composite flour made from wheat, plantain and bambara for biscuit production. Annals. Food Science and Technology, 18(4), 616–624.

Asaam, E. S., Adubofuor, J., Amoah, I., & Apeku, O. D. (2018). Functional and pasting properties of yellow maize-soya bean-pumpkin composite flours and acceptability study on their breakfast cereals. Cogent Food & Agriculture, 4(1), 1–15. https://doi.org/10.1080/23311932.2018.1501932

Badan Pusat Statistik (BPS). (2018). Produksi Jagung dan Ubi Kayu di Indonesia. www.bps.go.id

Badan Standarisasi Nasional (BSN). (1999). SNI 01-6057-1999 tentang Syarat Mutu Tepung Garut

Badan Standarisasi Nasional (BSN). (2006). SNI 01-2975-2006 tentang Syarat Mutu Produk Bihun

Černiauskienė, J., Kulaitienė, J. danilčenko, H., Jarienė, E., & Juknevičienė, E. (2014). Pumpkin Fruit Flour as a Source for Food Enrichment in Dietary Fiber Pumpkin Fruit Flour as a Source for Food Enrichment in Dietary Fiber. Notulae Botanicae Horti Agrobotanici Cluj-Napoca, 42(November 2015), 19–23. https://doi.org/10.15835/nbha4219352

Chandra, S., Singh, S., & Kumari, D. (2015). Evaluation of functional properties of composite flours and sensorial attributes of composite flour biscuits. Jornal of Food Science Technology, 52(6), 3681–3688. https://doi.org/10.1007/s13197-014-1427-2

Dabash, V., Buresova, I., Tokar, M., Zacharova, M., & Gal, R. (2017). The effect of added pumpkin flour on sensory and textural quality of rice bread. Journal of Microbiology, Biotechnology and Food Sciences, 6(June), 1269–1272. https://doi.org/10.15414/jmbfs.2017.6.6.1269-1271

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

Dhull, S. B., & Sandhu, K. S. (2018). Wheat-Fenugreek Composite Flour Noodles : Effect on Functional, Pasting, Cooking and Sensory Properties. Current Research in Nutrition and Food Science, 6(1), 174–182. https://doi.org/10.12944/CRNFSJ.6.1.20

Du, S., Jiang, H., Yu, X., & Jane, J. (2013). Physicochemical and functional properties of whole legume flour. LWT - Food Science and Technology, 1–6. https://doi.org/10.1016/j.lwt.2013.06.001

Erezka, V. C., Muflihati, I., Nurlaili, E. P., & Ferdiansyah, M. K. (2018). Karakteristik Pati Ganyong Termodifikasi Melalui Iradiasi UV-C (Ultraviolet C) dan Hidrolisis Asam Laktat. Jurnal Teknologi Pertanian Andalas, 22(9), 139–149.

Eriksson, E., Koch, K., Tortoe, C., Akonor, P. T., & Baidoo, E. (2014). Physicochemical , Functional and Pasting Characteristics of Three Varieties of Cassava in Wheat Composite Flours. British Journal of Applied Science & Technology, 4(11), 1609–1621.

Hamid, S., Muzzafar, S., Wani, I. A., & Masoodi, F. A. (2015). Physicochemical and functional properties of two cowpea cultivars grown in temperate Indian climate. Cogent Food & Agriculture, 4(1), 1–11. https://doi.org/10.1080/23311932.2015.1099418

Hasanah, F., & Hasrini, R. F. (2018). Pemanfaatan Ganyong ( Canna edulis KERR ) sebagai Bahan Baku Sohun dan Analisis Kualitasnya. Warta IHP/Journal of Agro-Based Industry, 35(2), 99–105.

Indrianti, N., Kumalasari, R., Ekafitri, R., & Darmajana, D. A. (2013). Pengaruh penggunaan pati ganyong, tapioka dan mocaf sebagai bahan substitusi terhadap sifat fisik mie jagung instan. Agritech, 33(4), 391–398.

Jabeen, A., Hassan, S., Masoodi, L., Ajaz, N., & Rafiq, A. (2018). Physico-Chemical Composition and Functional Properties of Blended Flour Obtained from Lentil, Pumpkin and Barley for Development of Extrudates. Journal of Food Processing & Technology, 9(1), 1–9. https://doi.org/10.4172/2157-7110.1000713

Jagannadham, K., Parimalavalli, R., Babu, A. S., & Rao, J. S. (2014). A study on comparison between cereal ( wheat ) and non cereal (chickpea) flour characteristics. International Journal Current Trend Research, 3(2), 70–76.

Julianti, E., Rusmarilin, H., & Yusraini, E. (2017). Functional and rheological properties of composite flour from sweet potato , maize , soybean and xanthan gum. Journal of the Saudi Society of Agricultural Sciences, 16(2), 171–177. https://doi.org/10.1016/j.jssas.2015.05.005

Kiin-Kabari, D., Eke-Ejiofor, J., & Giami, S. (2015). Functional and Pasting Properties of Wheat / Plantain Flours Enriched with Bambara Groundnut Protein Concentrate. International Journal of Food Science and Nutrition Engineering, 5(2), 75–81. https://doi.org/10.5923/j.food.20150502.01

Koh, S. ., & Loh, S. . (2018). In vitro bioaccessibility of β-carotene in pumpkin and butternut squash subjected to different cooking methods. International Food Research Journal, 25(February), 188–195.

Kuchtová, V., Karovičová, J., Kohajdová, Z., & Minarovičová, L. (2016). Chemical composition and functional properties of pumpkin pomace-incorporated crackers. Acta Chimica Slovaca, 9(1), 54–57. https://doi.org/10.1515/acs-2016-0009

Kusumawati, D. H., Dwi, W., Putri, R., & Koresponsdensi, P. (2013). Karakteristik Fisik Dan Kimia Edible Film Pati Jagung Yang Diinkorporasi Dengan Perasan Temu Hitam. Jurnal Pangan Dan Agroindustri, 1(1), 90–100.

Kuswandari, M. Y., Anastria, O., & Wardhani, D. H. (2013). Karakterisasi Fisik Pati Ganyong (Canna Edulis Kerr) Termodifikasi Secara Hidrotermal. Jurnal Teknologi Kimia Dan Industri, 2(4), 132–136.

Menon, L., Majumdar, S. D., & Ravi, U. (2015). Development and analysis of composite flour bread. Journal Food Science Technology, 52(7), 4156–4165. https://doi.org/10.1007/s13197-014-1466-8

Minarovičová, L., Lauková, M., Kohajdová, Z., Karovičová, J., & Kuchtová, V. (2017). Effect of Pumpkin Powder Incorporation on Cooking and Sensory Parameters of Pasta. Potravinarstvo Slovak Journal of Food Sciences, 11, 373–379. https://doi.org/https://dx.doi.org/10.5219/743

Mirhosseini, H., Farhana, N., Rashid, A., Tabatabaee, B., Whye, K., & Kazemi, M. (2015). Effect of partial replacement of corn flour with durian seed flour and pumpkin flour on cooking yield, texture properties , and sensory attributes of gluten free pasta. LWT - Food Science and Technology, 63, 184–190. https://doi.org/10.1016/j.lwt.2015.03.078

Murdiati, A., Anggrahini, S., & Alim, A. (2015). Peningkatan Kandungan Protein Mie Basah dari Tapioka Dengan Substitusi Tepung Koro Pedang Putih (Canavalia ensiformis L.). Agritech, 35(3), 251–260.

Nogueira, G. F., Fakhouri, F. M., & Augustus de Oliveira, R. (2018). Extraction and characterization of arrowroot (Maranta arundinaceae L.) starch and its application in edible fi lms. Carbohydrate Polymers, 186(January), 64–72. https://doi.org/10.1016/j.carbpol.2018.01.024

Noorfarahzilah, M., Lee, J., Sharifudin, M., Mohd Fadzelly, A., & Hasmadi, M. (2014). Applications of composite flour in development of food products. International Food Research Journal, 21(6), 2061–2074.

Ocheme, O. B., Adedeji, O. E., Chinma, E. C., Yakubu, C. M., & Ajibo, U. H. (2018). Proximate composition, functional, and pasting properties of wheat and groundnut protein concentrate flour blends. Food Science & Nutrition, 6, 1173–1178. https://doi.org/10.1002/fsn3.670

Ojo, M. O., Ariahu, C. C., & Chinma, E. C. (2017). Proximate , Functional and Pasting Properties of Cassava Starch and Mushroom (Pleurotus Pulmonarius) Flour Blends. American Journal of Food Science and Technology, 5(1), 11–18. https://doi.org/10.12691/ajfst-5-1-3

Oke, M. O., Awonorin, S. O., & Workneh, T. S. (2013). Effect of varieties on physicochemical and pasting characteristics of water yam flours and starches. African Journal of Biotechnology, 12(11), 1250–1256. https://doi.org/10.5897/AJB12.1666

Parwiyanti, P., Pratama, F., Wijaya, A., Malahayati, N., & Lidiasari, E. (2016). Sifat Fisik Pati Ganyong (Canna edulis Kerr.) Termodifikasi dan Penambahan Gum Xanthan untuk Rerotian. Agritech, 36(3), 335–343.

Pranoto, Y., Rahmayuni, Haryadi, & Rakshit, S. K. (2014). Physicochemical properties of heat moisture treated sweet potato starches of selected Indonesian varieties. International Food Research Journal, 21(January), 2031–2038.

Praseptiangga, D., Tryas, A. A., & Affandi, D. R. (2018). Physical and chemical characterization of composite flour from canna flour (Canna edulis) and Lima Bean Flour (Phaseolus lunatus). In The 1st International Conference and Exhibition on Powder Technology Indonesia (ICePTi) (Vol. 1927, pp. 030020-1–030020-6). https://doi.org/10.1063/1.5021213

Rosa, M., Lestario, L. N., & Hartini, S. (2016). Analisis Kandungan Gizi Tepung Tersulaku Sebagai Bahan Dasar Roti Tawar. In Seminar Nasional MIPA 2016 (Vol. 2011, pp. 38–47).

Rukmana, R. 2000. Garut, Budidaya dan Pasca Panen. Kanisius. Yogyakarta.

Sozer, N., Dalgıc, A. ., & Kaya, A. (2007). Thermal, textural and cooking properties of spaghetti enriched with resistant starch. Jornal of Food Engineering, 81, 476–484. https://doi.org/10.1016/j.jfoodeng.2006.11.026

Sung, W., & Stone, M. (2003). Characterization of Various Wheat Starch in Pasta Development. Journal of Marine Science and Technology, 11(2), 61–69.

Toan, N. Van, & Thuy, N. T. T. (2018). Production of high-quality flour and the made biscuits from Pumpkin. International Journal of Food Science and Nutrition, 3(5), 157–166.