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The Effects of Supplementing Napier Grass (Pennisetum purpureum) with Rock Phosphate and Steamed Bone Meal Compared with a Commercial Mineral Mix on Phosphorus Absorption in Cattle

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Abstract

Twelve Boran steers with a mean live weight of 215.8±13.9 kg were used in an incomplete Latin Square experiment to compare the apparent phosphorus (P) absorption in cattle when Napier grass (Pennisetum purpureum) was supplemented with Busumbu rock phosphate (BRP), Minjingu rock phosphate (MRP), steamed bone meal (SBM) or a commercial mineral mix (CMM). The steers were housed individually and supplemented with P at 0, 4.5 or 17.5 g P/day. Dry matter intake (DMI) and dry matter digestibility (DMD) were not affected (p>0.05) by the source of P. Live weight gains (LWG) were different (p<0.05) across the sources of P. The coefficient for apparent P absorption from the supplement (CAPA), DMD and LWG decreased linearly (p<0.05) with period. Dry matter intakes were not significantly different (p>0.05) across periods. The level of P supplementation had no significant effect (p>0.05) on DMI or LWG. However, increasing the level of P supplementation significantly increased (p<0.05) the DMD of the basal diet. There was also a significant (p<0.05) source×level interaction for CAPA. The CMM had the highest CAPA, which decreased from 106% to 74.7% with increasing level of P supplementation. For SBM, BRP and MRP, increasing P supplementation also increased CAPA. The CAPA for SBM and BRP and BRP and MRP were not significantly (p>0.05) different from each other. These results suggest that BRP has potential as a source of P for ruminants.

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REFERENCES

  • Abate, A. and Abate, A.N., 1991. Wet season nutrient supply to lactating grade animals managed under different production systems. East African Agricultural Forestry Journal, 57, 33-39

    Google Scholar 

  • Agricultural Research Council, 1980. The Nutrient Requirements of Ruminant Livestock, (Commonwealth Agricultural Bureaux, Slough)

    Google Scholar 

  • Anindo, D.O. and Potter, H.L., 1994. Seasonal variation in productivity and nutritive value of Napier grass at Muguga, Kenya. East African Agricultural and Forestry Journal, 59, 177-185

    Google Scholar 

  • Braithwaite, G.D., 1983. Calcium and phosphorus requirements of the ewe during pregnancy and lactation. 1. Phosphorus. British Journal of Nutrition, 50, 723-736

    Google Scholar 

  • Braithwaite, G.D, 1984. Some observations of phosphorus homeostasis requirements of sheep. Journal of Agricultural Science, Cambridge, 102, 295-306

    Google Scholar 

  • Campbell, D.A., Ikuegbu, O.A., Owen, E. and Little, D.A., 1996. Responses of supplementation in White Fulani cattle under agro-pastoral management in northern Nigeria. 1. Phosphorus. Tropical Animal Health and Production, 28, 183-190

    Google Scholar 

  • Care, A.D., 1994. The absorption of phosphate from the digestive tract of ruminant animals. British Veterinary Journal, 150, 197-205

    Google Scholar 

  • Challa, J., Braithwaite, G.D. and Dhanoa, M.S., 1989. Phosphorus homeostasis in growing calves. Journal of Agricultural Science, Cambridge, 112, 217-226

    Google Scholar 

  • Davies, K.A., 1947. The phosphate deposits of the Eastern Province, Uganda. Economic Geology, 42, 137-146

    Google Scholar 

  • Davies, K.A., 1956. The geology of part of Southeast Uganda, with special reference to the alkaline complexes. Geological Survey of Uganda, Memoir, 8, 62-76

    Google Scholar 

  • Fishwick, G., Fraser, J., Hemingway, R.G., Parkins, J.J. and Ritchie, N.S., 1977. The effects of dietary phosphorus inadequacy during pregnancy and lactation on the voluntary intake and digestibility of oat straw by beef cows and the performance of their calves. Journal of Agricultural Science, Cambridge, 88, 143-150

    Google Scholar 

  • Gartner, R.J.W., Murphy, G.M. and Hoey, W.A., 1982. Effects of induced, subclinical phosphorus deficiency on feed intake and growth of beef heifers. Journal of Agricultural Science, Cambridge, 98, 23-29

    Google Scholar 

  • Hendricksen, R.E., Ternouth, J.H. and Punter, L.D., 1994. Seasonal nutrient intake and phosphorus kinetics of grazing steers in northern Australia. Australian Journal of Agricultural Research, 45, 1817-1829

    Google Scholar 

  • Jubb, T.F. and Crough, K.F., 1988. Phosphorus supplementation of cattle. Australian Veterinary Journal, 65, 264-267

    Google Scholar 

  • Jumba, I.O., Suttle, N.F., Hunter, E.A. and Wandiga, S.O., 1995. Effects of soil origin and composition and herbage species on the mineral composition of forages in the Mount Elgon region of Kenya. 1. Calcium, phosphorus, magnesium and sulphur. Tropical Grasslands, 29, 40-46

    Google Scholar 

  • Long, T.A., Tillman, A.D., Nelson, A.B., Davis, W. and Gallup, W.D., 1957. Availability of phosphorus in mineral supplements for beef heifers. Journal of Animal Science, 16, 444-450

    Google Scholar 

  • Murphy, J. and Riley, J.P., 1962. A modified single solution method for the determination of phosphate in natural waters. Analytical Chemistry, 27, 31-36

    Google Scholar 

  • Okalebo, J.R., Gathua, K.W. and Woomer, P.L., 1993. Laboratory Methods of Soil and Plant Analysis. A Working Manual, (TSBF-UNESCO; EPZ Publishers, Nairobi, Kenya)

    Google Scholar 

  • Parkinson, J.A. and Allen, S.E., 1975. A wet oxidation procedure suitable for the determination of nitrogen and mineral nutrients in biological materials. Communications in Soil Science and Plant Analysis, 6, 1-11

    Google Scholar 

  • SAS, 1988. SAS/STAT Users guide, Release 6.03 Edition, (Statistical Analysis System Institute Inc., Cary, NC)

    Google Scholar 

  • Smaling, E.M.A., Stoorvogel, J.J. and Windmeijer, P.N., 1993. Calculating soil nutrient balances in Africa at different scales. II. District scale. Fertiliser Research, 35, 237-250

    Google Scholar 

  • Symonds, H.W. and Forbes, J.M., 1993. Mineral metabolism. In: J.M. Forbes and J. Francis (eds), Quantitative Aspects of Ruminant Digestion and Metabolism, (CAB International, Wallingford)

    Google Scholar 

  • Ternouth, J.H. and Budhi, P.S., 1996. Effects of dietary phosphorus deficiency in pregnant and lactating ewes. Australian Journal of Agricultural Research, 36, 137-144

    Google Scholar 

  • Tillman, A.D. and Brethour, J.R., 1958. Dicalcium phosphate and phosphoric acid as phosphorus sources for beef cattle. Journal of Animal Science, 17, 100-103

    Google Scholar 

  • Underwood, E., 1981. The Mineral Nutrition of Livestock, 2nd edn, (Commonwealth Agricultural Bureaux, Farnham Royal)

    Google Scholar 

  • Van Kauwenbergh, S.J., 1991. Overview of phosphate deposits in East and Southern Africa. Fertiliser Research, 30, 127-150

    Google Scholar 

  • Van Soest, P.J., 1963. The use of detergent in the analysis of fibrous feeds. II. A rapid method for the determination of fibre and lignin. Journal of the Association of Official Analytical Chemists, 46, 829-835

    Google Scholar 

  • Wise, M.B., Smith, S.E. and Barnes, L.L., 1958. The phosphorus requirement of calves. Journal of Animal Science, 17, 89-95

    Google Scholar 

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Authors and Affiliations

  1. Kenya Agricultural Research Institute, Muguga, PO Box 30148, Nairobi, pKenya

    N.E. Odongo

  2. Animal and Poultry Science, University of Guelph, Guelph, Ontario, Canada, N1G 2W1

    N.E. Odongo

  3. Cwm Mawr, Hyssington, Montgomery Powys, SY15 6EJ, UK

    J. Tanner & D.L. Romney

  4. Animal and Poultry Science, University of Guelph, Guelph, Ontario, Canada, N1G 2W1

    J. Plaizier & B. McBride

  5. Land Resource Science, University of Guelph, Guelph, Ontario, Canada N1G 2W1

    P. van Straaten

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  1. N.E. Odongo
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  2. J. Tanner
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  3. D.L. Romney
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  4. J. Plaizier
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  5. P. van Straaten
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  6. B. McBride
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Odongo, N., Tanner, J., Romney, D. et al. The Effects of Supplementing Napier Grass (Pennisetum purpureum) with Rock Phosphate and Steamed Bone Meal Compared with a Commercial Mineral Mix on Phosphorus Absorption in Cattle. Tropical Animal Health and Production 34, 329–338 (2002). https://doi.org/10.1023/A:1015686819670

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