Main Article Content
Abstract
The Payakumbuh region is an important tourist destination in West Sumatra. They produce various snack food made from cassava tubers, producing a large cassava peel as a by-product. The research aimed to study the meal yield rate, crude nutrient, fiber fraction, and mineral composition of cassava peels as by-products of cassava farm and snack food industries. Twenty cassava farms and ten snack food industries were visited, and the owners were interviewed for data on the type of cassava used, products, and handling of cassava peel. The quantity of cassava peel produced and potentially used as feed was recorded. Samples of fresh peels from three different varieties and tuber sizes were collected, weighed, dried, and ground in meal form to determine the meal yield rates and analyze for dry matter (DM) content, crude nutrient, fiber fraction, and mineral composition. Results found three cassava cultivars used to produce snack foods, i.e., black, bread, and sticky cassava. The percentage of fresh peel and meal yield rates ranged from 16.4-16.7% and 21.9-26.9%, respectively. DM and crude protein content varied between 23.8 to 27.0% and 9.3 to 11.2%, respectively. Bread cassava peels showed the highest DM, ash, and ADF content. Cassava peel contained considerably high Fe and was a good source of K, Mg, P, Na, Mn, and Zn.
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References
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- AOAC 2005 Official Methods of Analysis, Association of Official Analytical Chemists. Washington DC, USA.
- Afolabi, T. A., R.S. Onadeji, O.A. Ogunkunle and F.O. Bamiro. 2012. Comparative analysis of the nutritional quality of browse leaves (Spondias mombin and (Albizia saman) and tuber peels (yam and cassava) used as ruminant feeds. Ife Journal of Science vol. 14, no. 2 (2012): 337-344.
- Ajagbe, A. D., B.O. Oyewole, A.A. Abdulmumin and O.P. Aduku. 2020. Nutrient digestibility and nitrogen balance of growing West African Dwarf (WAD) goat fed nitrogen supplemented cassava peel meals. IOSR J. Agric. and Vet. Sci. 13(1):42-47 DOI: 10.9790/2380-1305014247.
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- Daud, Z., A. S. M. Kassim, A. M. Aripin, H. Awang, M. Z.M. Hatta. 2013. Chemical composition and morphological of cocoa pod husks and cassava peels for pulp and paper production. Australian Journal of Basic and Applied Sciences, 7(9): 406-411, 2013.
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- Fukuda, W.M.G., C.L. Guevara and R. Kawuki. 2010. Selected morphological and agronomic descriptors for the characterization of cassava. International Institute of Tropical Agriculture. Nigeria.
- Goering, H. K and P.J. Van Soest. 1970. Forage Fiber Analysis: Apparatus, Reagents, Procedures and some Applications. Washington, DC: USDA-ARS Agricultural Handbook 379.
- Hidiroglou, M., 1979. Trace element deficiencies and fertility in ruminants: a review. J. Dairy Sci. 62:1195-1206.
- Idris, S, S. Rosnah, M.Z.M. Nor, M.N. Mokhtar and A.S.S. Gani. 2020. Physicochemical composition of different parts of cassava (Manihot esculenta Crantz) plant. Food Res, 4 (Suppl. 1): 78 – 84.
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- N.R.C. 1984. National Research Council, Nutrient requirement of domestic animals, the Nutrients requirements of beef cattle, 6 rev ed., National Academic of Science, Washington D.C.
- Otache, M. A., S.T. Ubwa and A.K. Godwin. 2017. Proximate analysis and mineral composition of peels of three sweet cassava cultivars. Asian J. Phys and Chem. Sci. (AJOPACS), 3(4): 1-10.
- Pertiwi H., N.Y. Maharsedyo, L. Amaro L and T.B. Dadi. 2019. Nutritional evaluation of cassava (Manihot esculenta) peels as a dietary supplement in tropical Friesian Holstein cross breed dairy cattle. Vet. Medicine Int. Volume 2019, Article ID 6517839, 4 pages https://doi.org/10.1155/2019/6517839.
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References
Atomic-Absorption Spectrometry (AAS) (1996). Analytical methods for atomic absorption Spectroscopy. Perkin-Elmer Corporation, Norwalk, Connecticut, U.S.A. Available at: http://www1.lasalle.edu/~prushan/Intrumental%20Analysisfiles/AAPerkin%20Elmer%20guide%20to%20all!.pdf
AOAC 2005 Official Methods of Analysis, Association of Official Analytical Chemists. Washington DC, USA.
Afolabi, T. A., R.S. Onadeji, O.A. Ogunkunle and F.O. Bamiro. 2012. Comparative analysis of the nutritional quality of browse leaves (Spondias mombin and (Albizia saman) and tuber peels (yam and cassava) used as ruminant feeds. Ife Journal of Science vol. 14, no. 2 (2012): 337-344.
Ajagbe, A. D., B.O. Oyewole, A.A. Abdulmumin and O.P. Aduku. 2020. Nutrient digestibility and nitrogen balance of growing West African Dwarf (WAD) goat fed nitrogen supplemented cassava peel meals. IOSR J. Agric. and Vet. Sci. 13(1):42-47 DOI: 10.9790/2380-1305014247.
Asharuddin, S.M.N., N.S. Othman, M. Zin and A.H.Tajarudin. 2017. A chemical and morphological study of cassava peel: a potential waste as coagulant aid. MATEC Web of Conferences 103, 06012 (2017). DOI: 10.1051/matecconf/20171030 ISCEE 2016 6012.
Coon, C., K. Leske, and S. Seo, 2002. The availability of calcium and phosphorus in feedstuffs. Page 151-179 in Poultry Feedstuffs: Supply, composition and nutritive value. J.M. McNab and K.N. Boorman (Eds). CAB. International.
Daud, Z., A. S. M. Kassim, A. M. Aripin, H. Awang, M. Z.M. Hatta. 2013. Chemical composition and morphological of cocoa pod husks and cassava peels for pulp and paper production. Australian Journal of Basic and Applied Sciences, 7(9): 406-411, 2013.
Eleazu, C and K. Eleazu. 2012. Determination of the proximate composition, total carotenoid, reducing sugars and residual cyanide levels of flours of 6 new yellow and white cassava (Manihot esculenta Crantz) varieties. American J. Food Tech, 7(10), 642-649. https://doi.org/10.3923/ ajft.2012.642.649.
Ezekiel, O.O., O.C. Aworh, H.P. Blaschek and T.C. Ezeji, 2010. Protein Enrichment of Cassava Peel by Submerged Fermentation Withtrichoderma Viride (ATCC 36316). African Journal of Biotechnology, 9(12): 187-194.
FAO, 2011. Rearing young ruminants on milk replacers and starter feeds. F.A.O. Animal Production and Health. Manual No. 13. Rome.
Firdaus, N.R., P.K.D. Hayati and Yusniwati. 2016. Phenotypic characterization of cassava (Manihot esculenta Crantz) Landrace in West Sumatera. J. Agroteknologi, 10 (01):104-116 (in Indonesian).
Fukuda, W.M.G., C.L. Guevara and R. Kawuki. 2010. Selected morphological and agronomic descriptors for the characterization of cassava. International Institute of Tropical Agriculture. Nigeria.
Goering, H. K and P.J. Van Soest. 1970. Forage Fiber Analysis: Apparatus, Reagents, Procedures and some Applications. Washington, DC: USDA-ARS Agricultural Handbook 379.
Hidiroglou, M., 1979. Trace element deficiencies and fertility in ruminants: a review. J. Dairy Sci. 62:1195-1206.
Idris, S, S. Rosnah, M.Z.M. Nor, M.N. Mokhtar and A.S.S. Gani. 2020. Physicochemical composition of different parts of cassava (Manihot esculenta Crantz) plant. Food Res, 4 (Suppl. 1): 78 – 84.
Idugboe, O. D., S.O. Nwokoro and J.A. Imasuen, 2017. Chemical composition of cassava peels collected from four locations (Koko, Warri, Okada and Benin City), brewers` spent yeast and three grades of "caspeyeast". International Journal of Science and Research (IJSR). Volume 6 Issue 4, April 2017: 1439-1442. DOI: 10.21275/ART20172389
Khalil, Reswati, Y.K. Fitri, Indahwati and Yuherman, 2016. Seasonal forage availability, nutrient composition and mineral concentrations of imported breed cattle at the Padang Mangatas Breeding Center for Beef Cattle in West Sumatra, Indonesia. Pak. J. Nutr. 15: 1034-1041.
Khalil, Bachtiar A and Udin Z, 2019. Effects of mineral supplementation on reproductive efficiency of Simmental heifers. Asian J. Agric. Biol. 7(3):396-403.
Kurnia, Y.F., Ferawati, Reswati and Khalil, 2015. Prospect of dairy goat production for small-scale enterprise in Payakumbuh West Sumatra. Pak. J. Nutr., 14 (3): 141-145.
Luthfi, N., V. Restitrisnani and M. Umar. 2018. The optimation of crude fiber content of diet for fattening Madura beef cattle to achieve good A:P ratio and low methane production. I.O.P. Conference Series: Earth and Environmental Science, 119, 012056. https://doi.org/10.1088/1755-1315/119/1/012056
McDowell, L.R. 1997. Minerals for Grazing Ruminants in Tropical Regions. 3rd ed. Bulletin. 81 p. Department of Animal Sciences, University of Florida, Gainesville.
N.R.C. 1984. National Research Council, Nutrient requirement of domestic animals, the Nutrients requirements of beef cattle, 6 rev ed., National Academic of Science, Washington D.C.
Otache, M. A., S.T. Ubwa and A.K. Godwin. 2017. Proximate analysis and mineral composition of peels of three sweet cassava cultivars. Asian J. Phys and Chem. Sci. (AJOPACS), 3(4): 1-10.
Pertiwi H., N.Y. Maharsedyo, L. Amaro L and T.B. Dadi. 2019. Nutritional evaluation of cassava (Manihot esculenta) peels as a dietary supplement in tropical Friesian Holstein cross breed dairy cattle. Vet. Medicine Int. Volume 2019, Article ID 6517839, 4 pages https://doi.org/10.1155/2019/6517839.
Ratnadewi, A. A. I., A.B. Santoso, E. Sulistyaningsih and W. Handayani. 2016. Application of cassava peel and waste as raw materials for xylooligosaccharide production using endoxylanase from Bacillus subtilis of soil termite abdomen. Procedia Chemistry 18:31 – 38.
Souto, L.R.F , M. Caliari, M.S. SOARES JÚNIOR , F.A. Fiorda, and M.C. Garcia, 2017. Utilization of residue from cassava starch processing for production of fermentable sugar by enzymatic hydrolysis. Food Sci. Technol, Campinas, 37(1): 19-24, Jan.-Mar. 2017. DOI: http://dx.doi.org/10.1590/1678-457X.0023.
Tewe, O. O and O.B.N. Kasali. 1986. Effect of cassava peel processing on the nutrient utilization and physiopathology of the African Giant rat (Cricetomus gambianus. Water house). Trop. Agric (Trinidad) 63 (2): 125–128.
Tewe, O. O. and E.A. Lyayi. 1989. Cyanogenic glycosides. In P. R. Cheeke (Ed.), Toxicants of Plant Origin, Glycosides Vol. 2 (pp. 43-60). Boca Raton, FL: CRC Press.
Theil, E. C., 2004. Iron, ferritin and nutrition. Annu. Rev. Nutr. 24: 327-343
Yasothai, Y., 2014. Importance of minerals on reproduction in dairy cattle. Int. J. of Sci., Environment and Technology, 3 (6): 2051 – 2057.
Weaver, C.M. and R.P. Heaney, 1999: Calcium. In: Modern Nutrition and Disease, M. E. Shils, J. A. Olson, M. Shike and A. C. Ross (Ed.), Williams and Wilkins, Baltimore MD, U.S.A., pp. 141-155.