Article Details: Received: 2019-01-06 | Accepted: 2019-04-15 | Available online: 2019-09-30

https://doi.org/10.15414/afz.2019.22.03.64-70

West African Dwarf (WAD) goat is an important livestock and its production is indispensable in the country’s food chain. The WAD goat is a trypanotolerant breed reared mainly for meat. This breed can be bred all year-round, attains sexual maturity early and prolific; thereby satisfying a part of the meat requirement. However, in Nigeria, scarcity, poor utilization of agro-waste and seasonality in feed availability undermines this goat breed in achieving better performance. Hence, the effect for feeding cassava root sievate – cassava leaf meal (CRSCLM) diets on the productive and physiological characteristics of WAD goats were investigated for 97 days. Thirty six (36) WAD goats of about 8–10 months of age and averaging 7.19kg in weight were selected from the College flock for this experiment. The goats were randomly divided into four groups of nine animals each with three goats constituting a replicate. Feed intake and body weight changes were recorded accordingly. Blood samples were drawn from each goat on the last day of the trial and evaluated for haematological, biochemical and electrolyte profiles. Daily feed intke, daily weight gain and feed conversion ratio were not (P >0.05) influenced by the treatment diets. The haematological parameters indicated no significant difference (P >0.05) among the treatment groups. There was significant (P <0.05) difference for globulin (23.80–31.40), Creatinine (0.085–1.025) Cholesterol (97.125–120.46) and alanine aminotransferase (ALT) (13.96–18.22) across the treatment groups. Cholesterol and ALT were significantly (P <0.05) increased with increasing levels of CRSCLM. Globulin and creatinine however did not follow any specific trend with increasing or decreasing levels of CRSCLM. Sodium, potassium and chloride were significantly (P <0.05) different across the treatment groups with sodium being significantly (P <0.05) higher among the treatment groups than the control. The study revealed that CRSCLM in the diet of WAD goats had no deleterious effect on the growth performance and blood indices of WAD goats and could therefore be included in goat diets up to 60%.

References

ADEWUSI S.R.A. and BRADBURY, J.H. (1993). Carotenoids in cassava: comparison of open- column and HPLC methods of analysis. In J Sci Food Agric, 62.

AHAMEFULE, F. O., IBEAWUCHI, J. A. and OKOYE, F. C. (2005). Blood biochemistry and haematology of West African dwarf (WAD) bucks fed pigeon pea-cassava peel based diets. In Journal Anim Vet Adv., 4 (12): 1016–1020.

AKINFALA, E.O., ADERIBIGBE, A.O. and MATANMI, O. (2002). Evaluation of the nutritive value of whole cassava plant as replacement for maize in the starter diets for broiler chicken. In LRRD, 2002;14:1–6.

ANAETO, M., SAWYERR A.F., ALLI, T.R., TAYO, G.O., ADEYEYE, J.A. and OLARINMOYE, A.O. (2013).Cassava leaf silage and cassava peel as dry season feed for West African dwarf sheep. In Global journal of science frontier research agriculture and veterinary sciences.13 (2).

AOAC (2000). Association of Official Analytical Chemists: Official Methods of Analysis. 6th Edition. Washington DC, USA.

ARC (1980).The nutrient requirement of ruminant livestock. CABI., Farnham Royal, U.K.

BAKER, F.J. and SILVERTON, R.F. (1995). Introduction to medical laboratory technology: 6th Ed. Butterworth, England.

BOONNOP, K., WANAPAT, M., NONTASO, N. and WANAPAT, S. (2009). Enriching nutritive value of cassava root by yeast fermentation. In Sci. Agric. (Piracicaba, Braz.), 66(5): 629–633.

DUNCAN. D.B. (1955). Multiple range test and multiple F-test Biometrics, I, 1–42.

FRASER, C.M. and MAYS, A. (1986). The Merck veterinary manual. A hand book of diagnosis. Theropy and diseases prevention and control for the veterinarian 6th Edition, Merck & Co., Inc. Rahway, New Jersey, USA.

GILLESPIE, J.R. (1998). Animal science. Delmar publishers, International Thompson Publishing Company, 1204 pp.

JIWUBA, P.C., F.O. AHAMEFULE, I.P. OGBUEWU, and IKWUNZE, K. (2017). Blood chemistry and haematology of West African Dwarf goats fed Moringa oleifera leaf meal (MOLM) in their diets. In Comparative Clinical Pathology, 26: 621–624.

JIWUBA, P.C., EZENWAKA, L.C., IKWUNZE, K. and NSIDINANYA, N.O. (2016a). Blood profile of West African Dwarf goats fed pro-vitamin A cassava peel-centrosema leaf meal based diets. Analele Stiintifice ale Universitatii, Alexandru Ioan Cuz”, Sectiunea Geneticasi Biologie Moleculara TOM XVII, Fascicula, 3: 27–134.

JIWUBA, P.C. and EZENWAKA, L.C. (2016). Growth performance and apparent nutrient digestibility of West African dwarf goats fed yellow root cassava peel-centrosema leaf meal based diets. In Case Stud. J., 5: 204–210.

JIWUBA, P.C., DAUDA, E., EZENWAKA, L.C. and ELUAGU, C.J. (2016c). Replacement value of maize with sweet potato (Ipomoea batata) root meal on growth performance and haematogical characteristics of broiler starter birds. In Archives of Current Research International, 53:1–7.

JIWUBA, P.C., IKWUNZE, K., UME, S.I and NSIDINANYA, N.O. (2016b). Performance, apparent nutrient digestibility and cost benefit of West African dwarf goats fed dietary levels of Moringa oleifera leaf meal. In Journal of Advances in Biology and Biotechnology, 8: 1–9.

JIWUBA, P.C., ONUNKA, B.N. and NWEKE, J.C. (2018). Influence of supplemental cassava root sievate – cassava leaf meal based diets on carcass and economics of production of West African dwarf goats. In Sustainability, Agri, Food and Environmental Research, 40–54.

KHAJARERN, S. and KHAJARERN, J. (2007) Use of cassava products in poultry feeding: roots, tubers, plantains and bananas in animal feeding. http://www.fao.org/DOCREP/003/T0554E/T0554E10.htm [accessed 17.7.18].

KHAMPA, S., CHAOWARAT, P. SINGHALERT, R. and WANAPAT, M. (2009). Supplementation of yeast fermented cassava chip as a replacement concentrate on rumen fermentation efficiency and digestibility on nutrients in cattle. In Asian Journal of Animal Science, 3: 18–24.

KHIEU, B., CHHAY, T., OGLE, R.B. and PRESTON, T.R. (2005). Research on the use of cassava leaves for livestock feeding in Cambodia. In Proceeding of the regional workshop on “The Use of Cassava Roots and Leaves for On- Farm Animal Feeding”, Hue, Vietnam; p. 17e9.

MITJAVILA, S., LACUMBE C., CARRERA, G. and DARECHE, R. (1977). Tannie acid and oxidized tanic acid on the functional state of the rat intestinal epithelium. In Journal Nutrition, 107, 2113–2121.

MORGAN, K.N. and CHOCT, M. (2016). Cassava: nutrient composition and nutritive value in poultry diets. In Animal Nutrition, 2: 253–261.

NEHRING, K. and HAELIEN, G.W.F. (1973). Feed evaluation and calculation based on net energy. In J. Anim. Sci., 36(5): 949–963.

NORTON, B.W.B., LOWRY, C. and SWEENEY, M.C. (1994).The nutritive value of Leucaena specie. Paper presented at Int’l. Workshop on Leucaena. R.D. Bogor, Indonesia. 20–29 January 1994.

NRC (1981). Nutrient Requirements for goats: Angora, dairy and meat goat in temperate and tropical countries. National Research Council; National Academy of Science Press, Washington DC.

NOWSHARI, M.A, BECKERS, J.F. and HOLTZ, W. (1995). Superovulation of goats with purifies FSH supplemented with Defined Amounts of PLH. In Theriogenology. 43; 802–808.

ODEDIRE, J.A. and BABAYEMI, O.J. (2008). Comparative studies on the yield and chemical composition of Panicum maximum and Panicum maximum as influenced by Tephrosia candida and Leucaena leucocephala. In Livestock Research for Rural Development, 20 (2).

ONYEONAGU, C.C. and EZE, S. M. (2013). Proximate compositions of some forage grasses and legumes as influenced  by season of harvest. In Afr. J. Agric. Res., 8: 4033–4037.

ONI, A. O., ARIGBEDE, O.M., SOWANDE, O.S., ANELE, U.Y., ONI, O.O. ONWUKA, C.F.I, ONIFADE, O.S., YUSUF,K.O., DELE, P.A. and ADERINBOYE, R.Y. (2012). Haematological and serum biochemical parameters of West African dwarf goats fed dried cassava leaves-based concentrate diets. In Trop Anim Health Prod., 44: 483–490.

PRATH, D.S. (2010). Liver chemistry and function test In Feldman, M., Friedman, L.S., Brandt, L.J. (edition) Sleiscenger anf fordran’s gastronintestinal and liver diseases philade/phia: Elseviers publishers, 118–124 pp.

PRIVULOVIC, D., KOSARCIC, S., POPOVIE, M., DIMITRIGERIC, D. and GRUBUR-LAJSIC, G. (2012). The influence of hydrated aluminosilicate on biochenmical and haematological blood parameters, growth performance and carcass traits of pigs. In Journal Animal and veterinary Advance, 11(1). 134–140.

RAVINDRAN, V. (1991). Preparation of cassava leaf products and their use as animal feeds. In Roots, Tubers, plantain and bananas in animal feeding, vol. 95. Rome, Italy: Food and Agriculture Organisation.

SALAMI, R.I. and ODUNSI, A.A. (2003). Evaluation of processed cassava peel meals as substitutes for maize in the diets of layers. In International journal, poultry science, 2(2): 112–116.

TIJANI, I. D. R., JAMAL, P., ALAM, M. Z. and MIRGHANI, M. E.S. (2012). Optimization of cassava peel medium to an enriched animal feed by the white rot fungi Panus tigrinus M609RQY. In International Food Research Journal, 19(2): 427–432.

ZALVA, J. F. and PANNAL P.R. (1984). Clinical chemistry in diagnoses and treatment. 4th Edition Eloyd luke Medical books Ltd. London.