Optimization Cassamore (Cassava – Moringa Mix) Extrusion Process as A Feed Substitute for Corn:

Sazli Tutur Risyahadi; Heri Ahmad Sukria; Hanifah Afrilia

doi:10.29244/jintp.22.1.34-42

S T Risyahadi Institut Pertanian Bogor
H A Sukria
H Afrilia

DOI: https://doi.org/10.29244/jintp.22.1.34-42

Keywords: Singkong, Ekstrusi, Jagung, Kelor

Abstract

As a corn substitute, cassamore (Cassava – Moringa Mix) is an innovative local feed ingredient based on cassava with a mixture of palm kernel meal, cassava leaf flour and moringa extract processed by extrusion that can destroy antinutrients, improve nutrient content and digestibility. This study aimed to optimize the temperature and water content of the hydrothermal extrusion process, as well as to analyze the effect of extrusion on the physical and chemical characteristics of Cassamore as a corn substitution. The method used is response surface methodology in the statistical application of design expert 13 with extrusion temperature factors of 100, 110, 120 (^oC) and moisture content of 16, 18, 20 (%). Further research was carried out for the physical and chemical properties of Cassamore using a complete randomized design (CRD). The results showed that the water absorption index value is significant (p<0.05) with the optimal value located at 100 °C and 20% moisture content, while the water solubility index value is not significant. The values of bulk density, tapped density, and angle of repose on Cassamore after being extruded were smaller than those before being extruded. The bulk density and tapped density values for Cassamore were below corn, while Cassamore's angle of respose was above the corn. Cassamore's specific gravity value after extruding under corn. Chemical properties (Ash, crude protein, crude fat, crude fiber) decreased after extrusion, but NFE increased after extrusion. It is concluded that Cassamore has a potency to replace corn.

Key words: cassava, corn, extrusion, moringa oleifera, palm kernel meal

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References

Abu OA, Olaleru LF, Oke TD, Adepegba VA & Usman B. 2014. Performance of broiler chicken fed diets containing cassava peel and leaf meals as replacements for maize and soya bean meal. International Journal Science and Technology. 4(4): 169-173.

Aditama RS, Heri AS & Mutia R. 2021. Evaluation of nutrient and antioxidant activity on steam blanching of Moringa oleifera leaves. In E3S Web of Conferences (Vol. 306). EDP Sciences. 306:1-7. doi: https://doi.org/10.1051/e3sconf/202130604016

Augustine C, Midau A, Yakubu B, Yahaya SM, Kibon A & Udoyong AO. 2011. Effect of enzyme supplemented cassava peel meal (CPM) on carcass characteristics of broiler chickens. International Journal Agriculture Sustain. 3(1): 21-24.

Bjorck I & NG Asp. 1983. The effects of extrusion cooking on nutritional value-A literature review. Di dalam: Jowitt, R (ed). Extrusion cooking technology. Elsevier applied science publishers, London. 2(1983): 281-308. doi: https://doi.org/10.1016/0260-8774(83)90016-X

Chang’a EP, Abdallh ME, Ahiwe EU, Mbaga S, Zhu ZY, Fru-Nji F & de Iji PA, 2020. Replacement value of cassava for maize in broiler chicken diets supplemented with enzymes. Asian-Australasian Journal of Animal Sciences. 33(7): 1126 – 1137.

Dewayanti RE, Natsir MH & Sjofjan O. 2015. Pengaruh penggunaan onggok dan ampas tahu terfermentasi mix culture (Aspergillus niger dan Rhizopus oligosporus) sebagai pengganti jagung dalam pakan terhadap kualitas fisik daging ayam pedaging. Jurnal Ilmu dan Teknologi Hasil Ternak. 10(1): 9-17. doi: https://doi.org/10.21776/ub.jitek.2015.010.01.2

Erianti F, Marisa D & Suhartono E. 2015. Potensi antiinflamasi jus buah belimbing (Averrhoa carambola L.) terhadap denaturasi protein In Vitro. Berkala Kedokteran. 11(1):33-39. doi: http://dx.doi.org/10.20527/jbk.v11i1.183

Fagbohun ED & Lawal OU. 2014. Mycoflora and nutrient analysis of sundried cassava chips (Mannihot esculenta) during storage. Journal of Applied Bioscience. (82): 8389-7402. doi: 10.4314/jab.v82i1.10.

Fasina OD, Sokhansanj S. 1993. Effect of moisture on bulk handling properties of alfalfa pellets. Journal Canada Agriculture Engeener. 35(4): 269-272.

Fiorda, FA, Soares Jr MS, da Silva FA, de Moura CMA & Grossmann MVE. 2015. Physical quality of snacks and technological properties of pre-gelatinized flours formulated with cassava starch and dehydrated cassava bagasse as a function of extrusion variables. LWT-Food science and technology. 62(2): 1112-1119.

Ganjyal M, Hanna MA, Supprung P, Noomhorm & Jones D. 2006. Modeling Selected Properties of Extruded Rice Flour and Rice Starch by Neutral Networks and Statistics. Cereal Chemistry. 83(3): 223-227. doi: https://doi.org/10.1094/CC-83-0223

Gultom RJ, Sutrisno S & Budijanto S. 2014. Optimasi proses gelatinisasi berdasarkan respon surface methodology pada pencetakan beras analog dengan mesin twin roll. Jurnal Penelitian Pertanian. 11(2): 67-79.

Jaelani A, Dharmawati S & Wacahyono. 2016. Pengaruh tumpukan dan lama masa simpan pakan pelet terhadap kualitas fisik. Ziraa'ah Majalah Ilmiah Pertanian. 41(2): 261-268. doi: http://dx.doi.org/10.31602/zmip.v41i2.429

Jan S, Rafiq SI & Saxena DC. 2015. Effect of physical properties on flow ability of commercial rice flour/powder for effective bulk handling. International Journal of Computer Applications. 975(8887): 1-5.

Kementan. 2013. Data Statistik Ketahanan Pangan tahun 2012. Jakarta (ID): Badan Ketahanan Pangan Kementerian Pertanian 2013.

Khalil. 1999. Pengaruh kandungan air dan ukuran partikel terhadap perubahan perilaku fisik bahan pakan lokal: kerapatan tumpukan, kerapatan pemadatan tumpukan, dan berat jenis. Media Peternakan 22 (1) : 1–11

Latif S & Joachim M. 2015. Potential of cassava leaves in human nutrition: A review. Trends in Food Science & Technology. (44) 2: 147-158. doi:https://doi.org/10.1016/j.tifs.2015.04.006.

Leonel M, Freitas TSD & Mischan MM. 2009. Physical characteristics of extruded cassava starch. Scientia Agricola. 66(4): 486-493. doi: https://doi.org/10.1590/S0103-90162009000400009

Mampioper A, Rumetor SD & Pattiselanno F. 2008. Kualitas telur ayam petelur yang mendapat ransum perlakuan substitusi jagung dengan tepung singkong. Ternak Tropika Journal of Tropical Animal Production. 9(2): 42-51.

Mesquita CDB, Leonel M & Mischan MM. 2013. Effects of processing on physical properties of extruded snacks with blends of sour cassava starch and flaxseed flour. Food Science and Technology. 33(3): 404-410. doi: https://doi.org/10.1590/S0101-20612013005000073

Mgbemena NM & Obodo GA. 2016. Comparative analysis of the proximate and mineral moposition of moringa oleifera roots, leaves and seeds obtained in okigwe imo state Nigeria. Journal Science Technology and Environmental Informatics. 3(2): 207-212. doi: 10.18801/jstei.030216.23

Murningsih T, Yulita KS, Bora CY & Arsa IGBA. 2019. Kandungan proksimat dan mineral jagung varietas lokal (tunu’ana’) dari Nusa Tenggara Timur. Prosiding Seminar Nasional Masyarakat Biodiversitas Indonesia. 5(1): 107-111. doi: https://doi.org/10.13057/psnmbi/m050120. Surakarta (ID) : Universitas Sebelas Maret.

Novikasari NAM & Muflihati I. 2022. Sifat fisik dan sensoris beras analog dari tepung cassava termodifikasi fisik yang disubstitusi dengan tepung kacang hijau. Warta Industri Hasil Pertanian. 39(2): 85-94.

Oikonomou NA & Krokida MK. 2012. Water absorption index and water solubility index prediction for extruded food products. International Journal of Food Properties. 15(1): 157-168. doi: http:// dx.doi.org/10.1080/10942911003754718

Oikonomou NA & Krokida MK. 2011. Literature Data Compilation of WAI and WSI of Extrudate Food Products. International Journal of Food Properties, 14:1, 199-240, DOI: 10.1080/10942910903160422

Oyeyinka AT, Oyeyinka SA. 2016. Moringa oleiferaas a food fortificant: Recent trends and prospects. Journal of Saudi Society of Agricultural Sciences. 17(2):127-136. doi: https://doi.org/10.1016/j.jssas.2016.02.002

Pasaribu T. 2018. Upaya meningkatkan kualitas bungkil inti sawit melalui teknologi fermentasi dan penambahan enzim. Wartazoa. 28 (3): 119-128. doi: http://dx.doi.org/10.14334/wartazoa.v28i3.1820

Pérez‐Santos DM, Velazquez G, Canonico‐Franco M, Morales‐Sanchez E, Gaytan‐Martínez, M, Yañez‐Limon JM & Herrera‐Gomez A. 2016. Modeling the limited degree of starch gelatinization. Starch‐Stärke. 68(7-8): 727-733. doi: https://doi.org /10.1002/star.201500220

Rahmadani M, Hermana W & Nahrowi N. 2021. Pemberian tepung singkong yang ditambahkan isoamilase dalam pakan terhadap performa ayam broiler. Jurnal Ilmu Nutrisi dan Teknologi Pakan. 19 (1): 1-5. doi: https://doi.org/10.29244/jintp.19.1.1-5

Retnani Y, Herawati L & Khusniati S. 2011. Physical characteristics on crumble ration of broiler starter using tapioca, bentonite and onggok binders. Jurnal Ilmu dan Teknologi Peternakan. 1(2): 88-97. doi: https://doi.org/10.20956/jitp.v1i2.668

Risyahadi ST, Sukria HA, Retnani Y, Wijayanti I, Jayanegara A & Qomariyah N. 2023. Effects of dietary extrusion on the performance and apparent ileal digestion of broilers: a meta-analysis. Italian Journal of Animal Science. 22(1): 291-300. doi: https://doi.org/10.1080/1828051X.2023.2184277

Riwayati I, Anam AC & Maharani F. 2020. Pengaruh suhu dan waktu proses modifikasi heat moisture treatment (hmt) pada tepung kulit singkong terhadap sifat kelarutan dan swelling power. Jurnal Inovasi Teknik Kimia. 5(1): 50-55. doi: http://dx.doi.org/10.31942/inteka.v5i1.3402

Ryu GH & Walker CE. 1995. The effects of extrusion conditions on the physical properties of wheat flour extrudates. Starch‐Stärke. 47(1): 33-36. doi: https://doi.org/10.1002/star.19950470109

Salata CDC, Leonel M, Trombini FRM & Mischan MM. 2014. Extrusion of blends of cassava leaves and cassava flour: physical characteristics of extrudates. Food Science and Technology. 34(3): 501-506. doi: https://doi.org/10.1590/1678-457x.6337

Sharif S, DiMemmo LM, Thommes M, Hubert M & Sarsfield BA. 2015. A simplified approach to determine effective surface area and porosity of low bulk density active pharmaceutical ingredients in early development. Advanced Powder Technology. 26(2): 337-348. doi: https://doi.org/10.1016/j.apt.2014.11.002

Sipayung M, Suparmi & Dahlia. 2015. Pengaruh suhu pengukusan terhadap sifat fisika kimia tepung ikan rucah. Jurnal Online Mahasiswa. 2(1):1-13.

Sukria HA, Nugraha IES & Suci DM. 2018. Pengaruh proses steam pada daun kelor (Moringa oleifera) dan asam fulvat terhadap performa ayam broiler. Jurnal Ilmu Nutrisi dan Teknologi Pakan. 16 (2): 1-9. doi: https://doi.org/10.29244/jintp.16.2.1-9

Syamsu JA. 2007. Karakteristik fisik pakan itik bentuk pellet yang diberi bahan perekat berbeda dan lama penyimpanan yang berbeda. Jurnal Ilmu Ternak Universitas Padjadjaran. 7(2): 128-134. doi: https://doi.org/10.24198/jit.v7i2.2246

Tumuluru JS, Sokhansanj S, Bandyopadhyay S & Bawa AS. 2013. Changes in moisture, protein, and fat content of fish and rice flour coextrudates during single-screw extrusion cooking. Food and Bioprocess Technology. 6. 403-415. doi: https://doi.org/10.1007/s11947-011-0764-7

Wiadnyani AAIS, Permana IDGM & Widarta IWR. 2017. Modifikasi pati keladi dengan metode autoclaving-cooling sebagai sumber pangan fungsional. Scientific Journal of Food Technology. 4(2): 94–102.

Yadav KC, Pashupati M, Pramesh KD, Ranjit R, Ghanendra G & Sushil D. 2015. Effects of incorporation of cassava flour on characteristics of corn grit-rice grit-chickpea flour blend expanded extrudates. African Journal of Food Science. 9(8): 448-455. doi: https://doi.org/10.5897/AJFS2014.1243