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Abstract

This study evaluated the impact of fermentation with Chrysonilia crassa on nutritional composition and antioxidative activity of the mixture of cassava pulp and selected leaves meal. Cassava pulp (60 g) was mixed thoroughly with 35 g leaves meal of either cassava, M. Oleifera, or L. leucocephala, and inoculated with Chrysonilia crassa starter (5 g). The mixture was aerobically incubated for 3 days at room temperature and analyzed for the proximate composition, gross energy, true protein, antioxidant activity, and amino acid content. The fermented products showed higher crude protein, ether extract, ash, and gross energy but lower fibre content than unfermented cassava pulp. Both leaves meal supplementation and fermentation increased the true protein content of cassava pulp. Superior antioxidant activities and higher amino acids were observed in the fermented products than raw cassava pulp. In conclusion, supplementation of leaves meal in conjunction with Chrysonilia crassa-fermentation improved the nutritional values and antioxidant potential of cassava pulp.

Keywords

cassava pulp feed fungal fermentation leaf meal nutritional value

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How to Cite
Sugiharto, S., Widiastuti, E., Yudiarti, T., Wahyuni, H. I., & Sartono, T. A. (2021). Improving the Nutritional Values of Cassava Pulp Through Supplementation of Selected Leaves Meal and Fermentation with Chrysonilia Crassa. ANIMAL PRODUCTION, 23(2), 104-110. https://doi.org/10.20884/1.jap.2021.23.2.49
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References

  1. Adeyemi, O.A., J.A. Adekoya and R.A. Sobayo. 2012. Performance of broiler chickens fed diets containing cassava leaf: blood meal mix as replacement for soybean meal. Revista Científica UDO Agrícola. 12(1):212-219.
  2. AOAC. 1995. Official methods of analysis of the association of analytical chemists. Washington DC, USA.
  3. Ayssiwede, S.B., A. Dieng, C. Chrysostome, W. Ossebi, J.L. Hornick and A. Missohou. 2010. Digestibility and metabolic utilization and nutritional value of Leucaena leucocephala (Lam.) leaves meal incorporated in the diet of indigenous Senegal chickens. International Journal of Poultry Science. 9(8):767-776.
  4. Bayitse, R., X. Hou, G. Laryea and A.B. Bjerre. 2015. Protein enrichment of cassava residue using Trichoderma pseudokoningii (ATCC 26801). AMB Express. 5(1):80.
  5. Bier, M.C., A.B.P. Medeiros, N. De Kimpe and C.R. Soccol. 2019. Evaluation of antioxidant activity of the fermented product from the biotransformation of R-(+)-limonene in solid-state fermentation of orange waste by Diaporthe sp. Biotechnology Research and Innovation. 3(1):168-176.
  6. Bujang, A. and N.A. Taib. 2014. Changes on amino acids content in soybean, garbanzo bean and groundnut during pre-treatments and tempe making. Sains Malaysiana. 43(4):551-557.
  7. Drabik, D., P. Ciaian and J. Pokrivčák. 2016. The effect of ethanol policies on the vertical price transmission in corn and food markets. Energy Economics. 55(2016):189-199.
  8. Ezekiel, O.O., O.C. Aworh, H.P. Blaschek and T.C. Ezeji. 2010. Protein enrichment of cassava peel by submerged fermentation with Trichoderma viride (ATCC 36316). African Journal of Biotechnology. 9(2):187-194.
  9. Fathy, S.A., A.E. Mahmoud, M.M. Rashad, M.K. Ezz and A.T. Mohammed. 2018. Improving the nutritive value of olive pomace by solid state fermentation of Kluyveromyces marxianus with simultaneous production of gallic acid. International Journal of Recycling of Organic Waste in Agriculture. 7:135-141.
  10. Hussain, J., P.V.V.S. Reddy and V.R. Reddy. 1991. Utilisation of leucaena leaf meal by broilers. British Poultry Science. 32(1):131-137.
  11. Kanghae, A., P.D. Eungwanichayapant, P. Chueamchaitrakun, S. Nitsawang and E. Chukeatirote. 2014. Proximate analysis of the fermented soybean prepared by Bacillus subtilis and Rhizopus oligosporus. The 26th Annual meeting of the Thai Society for Biotechnology and International Conference, Mae Fah Lunag University, Chiang Rai, 26–29 Nov, 2014.
  12. Karimi, S., N.M. Soofiani, A. Mahboubi and M.J. Taherzadeh. 2018. Use of organic wastes and industrial by-products to produce filamentous fungi with potential as aqua-feed ingredients. Sustainability. 10(9):3296.
  13. Khempaka, S., W. Molee and M. Guillaume. 2009. Dried cassava pulp as an alternative feedstuff for broilers: Effect on growth performance, carcass traits, digestive organs, and nutrient digestibility. The Journal of Applied Poultry Research. 18(3):487-493.
  14. Khempaka, S., R. Thongkratok, S. Okrathok and W. Molee. 2014. An evaluation of cassava pulp feedstuff fermented with A. oryzae, on growth performance, nutrient digestibility and carcass quality of broilers. Journal of Poultry Science, 51(1):71-79.
  15. Liang, Y., L. Pan and Y. Lin. 2009. Analysis of extracellular proteins of Aspergillus oryzae grown on soy sauce koji. Bioscience, Biotechnology, and Biochemistry. 73(1):192-195.
  16. Meulen, U., S. Struck, E. Schulke and E.A. El Harith. 1979. A review on the nutritive value and toxic aspects of Leucaena leucocephala. Tropical Animal Production. 4:113-126.
  17. Oluwafemi, R.A. and G. Omaku. 2017. Nutritional evaluation of cassava leaf meal based diets on broiler starter chicks performance. International Journal of Food Science and Nutrition. 2:42-45.
  18. Rakhmani, S.I.W. and T. Purwadaria. 2017. Improvement of nutritional value of cocoa pod husk fermented with Aspergillus spp. and two levels of urea and ammonium sulphate. Jurnal Ilmu Ternak dan Veteriner. 22(3):101-113.
  19. Shahzad, M.N., M.T. Javed, S. Shabir, M. Irfan and R. Hussain. 2012. Effects of feeding urea and copper sulphate in different combinations on live body weight, carcass weight, percent weight to body weight of different organs and histopathological tissue changes in broilers. Experimental and Toxicologic Pathology. 64(3):141-147.
  20. Sugiharto, S., T. Yudiarti and I. Isroli. 2016. Haematological and biochemical parameters of broilers fed cassava pulp fermented with filamentous fungi isolated from the Indonesian fermented dried cassava. Livestock Research for Rural Development. 28(4).
  21. Sugiharto, S., I. Isroli, T. Yudiarti, E. Widiastuti, H.I. Wahyuni and T.A. Sartono. 2018. Effect of two-step fermentation by Chrysonilia crassa and Bacillus subtilis on nutritional values and antioxidative properties of agro-industrial by-products as poultry feed ingredients. Journal of Advanced Veterinary and Animal Research. 5(4):472-480.
  22. Sugiharto, S., T. Yudiarti, I. Isroli and E. Widiastuti. 2018. The potential of tropical agro‐industrial by‐products as a functional feed for poultry. Iranian Journal of Applied Animal Science. 8(3):375-385.
  23. Sugiharto, S. 2019. A review on fungal fermented cassava pulp as a cheap alternative feedstuff in poultry ration. Journal of World’s Poultry Research. 9(1):1-6.
  24. Sugiharto, S. and S. Ranjitkar. 2019. Recent advances in fermented feeds towards improved broiler chicken performance, gastrointestinal tract microecology and immune responses: A review. Animal Nutrition. 5(1):1-10.
  25. Sukma, A., B. Jos and S. Sumardiono. 2018. Kinetic of biomass growth and pro¬tein formation on rice bran fermentation using Rhizopus oryzae. MATEC Web of Conferences, 156(01023).
  26. Syamsi, A.N., F.M. Suhartati and W. Suryapratama. 2017. Pengaruh Daun Turi (Sesbania grandiflora) dan Lamtoro (Leucaena leucocephala) dalam Ransum Sapi Berbasis Indeks Sinkronisasi Protein - Energi Terhadap Sintesis Protein Mikroba Rumen. Pastura. 6(2):47–52.
  27. Szkudzińska, K., I. Smutniak, J. Rubaj, W. Korol and G. Bielecka. 2017. Method validation for determination of amino acids in feed by UPLC. Accreditation and Quality Assurance. 22:247-252.
  28. Teixeira, E.M.B., M.R.B. Carvalho, V.A. Neves, M.A. Silva and L. Arantes-Pereira. 2014. Chemical characteristics and fractionation of proteins from Moringa oleifera Lam. Leaves. Food Chemistry. 147:51-54.
  29. Tesfaye, E., G. Animut, M. Urge and T. Dessie. 2013. Moringa olifera Leaf meal as an alternative protein feed ingredient in broiler ration. International Journal of Poultry Science. 12(5):289-297.
  30. Wu, N., K. Fu, Y.J. Fu, Y.G. Zu, F.R. Chang, Y.H. Chen, X.L. Liu, Y. Kong, W. Liu and C.B. Gu. 2009. Antioxidant activities of extracts and main components of pigeonpea [Cajanus cajan (L.) Millsp.] leaves. Molecules. 14(3):1032-1043.
  31. Wyllie D. and P.J. Chamanga. 1979. Cassava leaf meals in broiler diets. Tropical Animal Production. 4:232-240.