Advanced search
Publication Cover
World's Poultry Science Journal Volume 63, 2007 - Issue 4
Submit an article Journal homepage
63
Views
13
CrossRef citations to date
0
Altmetric
Articles

Efficient phosphorus utilization in poultry feeding to lessen the environmental impact of excreta

K.H. NahmFeed and Nutrition Laboratory, College of Environmental and Life Science, Taegu University, Gyong San, 712-714, South Korea E-mail: [email protected]
Pages 625-654 | Received 07 Aug 2006, Accepted 04 Aug 2007, Published online: 23 Sep 2019

References

  • ANGEL, R. (2003) The role of phosphorus and environmental nutrient accumulation. In: Proceedings of the California Animal Nutrition Conferences. California Grain and Feed Association, 1521 Street, Sacramento, CA, USA. Pp. 29–41.
  • ANGEL, R., APPLEGATE, T.J. and CHRISTMAN, M. (2000) Effect of dietary non-phytate phosphorus (nPP) on performance and bone measurements in broilers fed on a four-phase feeding system. Poultry Science 79 (Suppl. 1): 21–22.
  • ANGEL, R., DHANHU, S.D., APPLEGATE, T.J. and CHRISTMAN, M. (2001) Non-phytin phosphorus requirement of broilers fed on a four-phytase feeding program. In International Symposium, Addressing Animal Production and Environmental Issues. October 3–5. Sheraton Imperial, Research Triangle Park, NC, USA. Pp. 159–170.
  • APPLEGATE, T.J., JOERN, B.C., NUSSBAUM-WAGLER, D.L. and ANGEL, R. (2003) Water-soluble phosphorus in fresh broiler litter is dependent upon phosphorus content-ration fed but not on fungal phytase supplementation. Poultry Science 82: 1024–1029.
  • ATENCIO, A., EDWARDS, H.M., JR. and PESTI, G.M. (2005) Effect of the level cholecalciferol supplementation of broiler breeder hen diets on the performance and bone abnormalities of the progeny fed diets containing various levels of calcium on 25-hydroxycholecalciferol. Poultry Science 84: 1593–1603.
  • ATIA, F.A., WAIBEL, P.E., HERMES, I., CARLSON, O.W. and WALSERT, M.M. (2000) Effect of dietary phosphorus, calcium, and phytase on performance of growing turkeys. Poultry Science 79: 231–239.
  • AXE, D.E. (1998) Phosphorus value in ingredient sources sampled. Feedstuffs (June 1): 17–19. 25–27.
  • BAIDOO, S.K., YANG, Q.M., WALKER, R.D. and BOYCHUK, J.L. (2001) Supplemental dietary phytase improves bioavailabilities of organic phosphorus and other nutrients in corn-soybean diets for sows. Journal of Animal Science 74 (Suppl. 1): 66.
  • BALLAM, G.C., NELSON, T.S. and KIRBY, L.R. (1984) Effect of fiber and phytase sources and of calcium and phosphorus level on phytate hydrolysis in the chick. Poultry Science 63: 333–338.
  • BANK, K.M., THOMPSON, K.L., RUSH, J.K. and APPLEGATE, T.T. (2004) Effects of copper source on phosphorus retention in broiler chicks and laying hen. Poultry Science 83: 990–996.
  • BARRIER-GUILLOT, B., CASADO, P., MAUPETIT, P., JONDREVILLE, C. and GATEL, F. (1996) Wheat phosphorus availability: 2-In Vivo study in broilers and pigs; Relationship with endogenous phytasic activity and phytic phosphorus content in wheat. Journal of Science, Food and Agriculture 70: 69–74.
  • BIEHL, R.R. and BAKER, D.H. (1997a) Microbial phytase improves amino acid utilization in young chicks fed diets based on soybean meal but not diets based on peanut meal. Poultry Science 76: 355–360.
  • BIEHL, R.R. and BAKER, D.H. (1997b) 1α-Hudroxychokecalciferol does not increase the specific activity of intestinal phytase but does improve phosphorus utilization in both caecectomized and sham-operated chicks fed cholecalciferol-adequate diets. Journal of Nutrition 127: 2054–2059.
  • BOLING, S.D., DOUGLAS, M.W., JOHNSON, M.L., WANG, X., PARSONS, C.M. KOELKEBECK, K.W. and ZIMMERMAN, R.A. (2000a) The effects of dietary available phosphorus levels and phytase on performance of young and older laying hens. Poultry Science 79: 224–230.
  • BOLING, S.D., DOUGLAS, M.W., SHIRLEY, R.B., PARSONS, C.M. and KOELKEBECK, K.W. (2000b) The effects of various dietary levels of phytase and available phosphorus on performance of laying hens. Poultry Science 79: 515–538.
  • BOLING-FRANKENBACH, J.L., SNOW, S.P., PARSONS, C.M. and BAKER, D.H. (2001a) The effect of citric acid on the calcium and phosphorus requirements for chicks fed corn-soybean meal diet. Poultry Science 80: 783–788.
  • BOLING-FRANKENBACH, J.L., PETER, C.M., DOUGLAS, M.W., SNOW, S.P., PARSONS, C.M. and BAKER, D.H. (2001b) Efficacy of phytase for increasing protein efficiency ratio values of feed ingredients. Poultry Science 80: 1578–1584.
  • BURNELL, T.W. (1988) The biological availability of phosphorus in selected feedstuffs for pigs and chicks. Ph.D. Dissertation, University of Kentucky, Kt, USA.
  • CALVERT, C.C., BESECKER, R.J., PLUMLEE, M.P., CLINE, T.R. and FORSUTH, D.M. (1978) Apparent digestibility of phosphorus in barley and corn for growing swine. Journal of Animal Science 47: 420–429.
  • CANTOR, A.H. (1996) Enzymes increase phosphorus availability in poultry diets. Zootecnica 4: 44–47.
  • CARLOS, A.B. and EDWARDS, H.M., Jr. (1998) The effects of 1, 25-dihydroxy cholecalciferol and phytase on the natural phytate phosphorus utilization by laying hens. Poultry Science 77: 850–858.
  • CEYLAN, N., SCHEIDELER, S.E. and STILBORN, H.L. (2003) High available phosphorus corn and phytase in layer diets. Poultry Science 82: 789–795.
  • CHAMPAGNE, E.T. and PHILLIPPY, B.Q. (1989) Effect of pH on calcium, zinc and phytate solubilities, and complexes following in vitro digestion of soy protein isolates. Journal of Food Sciences 54: 587–592.
  • CLARK, W.D., WOHLT, J.E., GILBREATH, R.L. and ZAJAC, P.K. (1986) Phytase phosphorus intakes and disappearance in the gastrointestinal tract of high producing dairy cows. Journal of Dairy Science 69: 3151–3159.
  • CLUNIES, M., PARKS, D. and LEESON, S. (1992) Calcium and phosphorus metabolism and eggshell formation of hens fed different amount of calcium. Poultry Science 71: 482–487.
  • COELHO, M.B. (1994) Ecological nutrition: A costly or smart move? Feedstuffs (June 20): 13–15.
  • COUCH, J.R. and CRECER, C.R. (1970) Levels and sources of phosphorus in laying hen nutrition. Nutrition Reports International 1: 95–103.
  • COWIESON, A.J., ACAMORIC, T. and BEDFORD, M.R. (2006) Phytic acid and phytase: Implications for protein utilization by poultry. Poultry Science 85: 878–885.
  • CROMWELL, G.L. (1980) Biological availability of phosphorus in feedstuffs for non- ruminants. Mineral Nutrition Institute, National Feed Ingredients Association, Des Moines, Iowa, USA. Pp. 19–31.
  • CROMWELL, G.L. (1989) Phosphorus requirements of swine and national availability of phosphorus in feed ingredients. IMC symposium, Des Moines, IA, USA.
  • DE BOLAND, A.R., GARNER, G.B. and O'DELL, B.L. (1976) Identification and properties of ‘phytate’ in cereal grains and oilseed products. Journal of Agriculture and Food Chemistry 23: 1186–1192.
  • DE BRUYNE, K. (2000) New strategies in supplementation of phosphorus discussed. Feedstuffs (March 6): 11–13. 21–23.
  • DILGER, R.N. and ADEOLA, O. (2006) Estimation of true phosphorus digestibility and endogenous phosphorus loss in growing chicks fed conventional and low phytate soybean meals. Poultry Science 85: 661–668.
  • DILGER, R.N., ONYANGO, E.M., SANDS, J.S. and ADEOLA, O. (2004) Evaluation of microbial phytase in broiler diets. Poultry Science 83: 962–970.
  • DOUGLAS, M.W., PETER, C.M., BOLING, S.D., PARSONS, C.M. and BAKER, D.H. (2000) Nutritional evaluation of low phytate and high protein corns. Poultry Science 79: 1581–1591.
  • DRIVER, J.P., ATENCIO, A., PESTI, G.M., EDWARDS, H.M., JR. and BAKALLI, R.I. (2006) The effect of maternal dietary vitamin D3 supplementation on performance and tibial dyschondroplasia of broiler chicks. Poultry Science 85: 39–47.
  • DRIVER, J.P., PESTI, G.M., BAKALLI, R.I. and EDWARDS, H.M., JR. (2005) Phytase and 1a-Hydroxycholecalciferol supplementation of broiler chickens during the starting and growing Finishing phytases. Poultry Science 84: 1616–1628.
  • DUVAL, M. (1996) Natuphos in layer and broiler phosphorus management. In: BASF Crop. Technical Symposium, World Congress Center, Atlanta, GA, USA. January 23. pp. 23–41.
  • EDWARDS, H.M., Jr. (1982) Phosphorus and calcium for broiler. In: Proceedings of Georgia Nutrition Conference. PP. 161–167.
  • EDWARDS, H.M., Jr. (1983) Phosphorus. 1. Effect of breed and strain on utilization of sub-optimal levels of phosphorus in the ration. Poultry Science 62: 77–84.
  • EDWARDS, H.M., Jr. (1993) Dietary 1,25-dihydroxycholecalciferol supplementation increases natural phytate phosphorus utilization in chicken. Journal of Nutrition 123: 567–577.
  • EDWARDS, H.M., Jr. (2002) Studies on the efficacy of cholecalciferol and derivatives for stimulating phytate utilization of broilers. Poultry Science 81: 1026–1031.
  • EDWARDS, H.M., Jr., SHIRLEY, R.B., ESCOE, W.B. and PESTI, W.B. (2002) Quantitative evaluation of 1-α-hydroxycholecalciferol as a cholecalciferol substitute for broilers. Poultry Science 81: 664–669.
  • EDWARDS, H.M. Jr. and VELTMAN, T., Jr. (1983) The role of calcium and phosphorus in the etiology of tibial dyschrondroplasia in young chicks. Journal of Nutrition 113: 1568–1575.
  • EECKHOUT, M. (1999) Efficacy of a recombinant-derived phytase in improving in bio-availability of phosphorus in corn-soybean meal diets for pigs. In: Proceedings of the 12th European Symposium on Poultry Nutrition. Pp. 352–355.
  • EECKHOUT, W. and DE PAEPE, M. (1994) Total phosphorus, phytate phosphorus and phytase activity in plant feedstuffs. Animal Feed Science and Technology 47: 12–24.
  • ELLIS, R., MORRIS, E.R. and HILL, A.D. (1982) Bioavailability of rates of iron and zinc in calcium-iron-phytate and calcium-zinc-phytate complexes. Nutrition Research 2: 319–322.
  • EWING, W.R. (1963) Poultry Nutrition. Fifth Edition (Revised), The Ray Ewing Company, Pasadena, California, USA. Pp. 42–47.
  • FORBES, R.M., PARKER, H.M. and ERDMAN, T.W., Jr. (1984) Effects of dietary phytate, calcium, and magnesium levels on zinc bioavailability to rats. Journal of Nutrition 114: 1421–1425.
  • FRANCESCH, M., BROZ, J. and BRUFAU, J. (2005) Effects of an experimental phytase on performance, egg quality, tibia ash content and phosphorus bioavailability in laying hens fed on maize-or barley-based diets. British Poultry Science 46: 340–348.
  • FRANCESCH, M., PEREZ-VENDRELL, A.M., ESTEVE-GARCIA, E. and BRUFAU, J. (1994) Effects of cultivars, pelleting and enzyme addition on nutritive value of barley in poultry diets. British Poultry Science 35: 259–272.
  • GARDINER, F.E. (1971) Relationship of energy, phosphorus and breed of chicken to growth and feed efficiency. British Poultry Science 12: 31–39.
  • GIBSON, D.M. and ULLAH, A.B.J. (1990) Phytases and their action on phytic acid. In: Inositol Metabolism in Plants. (D. Morre, Boss, W.F. and Loewus, F.A. eds.), New York, NY, USA. Wiley-Liss Press. pp. 77–92.
  • GIESEMANN, M.A., PEO, E.R., Jr. and LEWIS, A.J. (1989) Homing Feed-How available is the phosphorus? 1989 Nebraska Swine Report 3: 13–23.
  • GIPPERT, T., KIS, I. and GERENDAI, D. (2000) Effect of phytase enzyme in the poultry nutrition. In: Proceedings of XX World's Poultry Congress, Montreal, Canada. August 20–24. pp. 216–218.
  • HARMS, R.H., WALDROUP, P.W., SHIRLEY, R.L. and ANDERSON, C.B. (1962) Availability of phytic acid phosphorus for chicks. Poultry Science 41: 1189–1191.
  • HARREMOES, P. (1991) Danes nutrient battle depends on agricultural action. Water Quality International 3: 44–48.
  • HOCKING, P.M. and ROBERTSON, G.W. (2000) Dietary retentions of calcium, total and phytate phosphorus in growing turkey males. In: Proceedings of XX World's Poultry Congress, Montreal, Canada. August 20–24. pp. 118–120.
  • HUANG, K.C. and ALLE, G.L. (1981) Bioavailability of phosphorus in selected feedstuffs or young chicks and pigs. Journal of Animal Science 53(Suppl. 1): 248.
  • HULAN, H.W., DEGROOTE, G., FONTAINE, G., DEMUNTER, G., MCRAE, G.B. and PROUDFOOT, F.G. (1985) The effect of different totals and ratios of dietary calcium and phosphorus on the performance and incidence of leg abnormalities of male and female broiler chickens. Poultry Science 64: 1157–1169.
  • HUYGHEBAERT, G., DE GROOTE, C. and GEERSE, C. (1992) Het effect van microbieel fytase op de p-benutting bij slachtkippen. Invloed op skeletmineralisatie en op zootchnische prestaties. Landbouwtijdschrift 45: 225–237.
  • JAKOB, S., MAILLARD, R., NORE, O. and GERAERT, P.A. (2001) Efficacy of a new phytase preparation on phosphorus and calcium digestibility and on bone mineralization of weanling pigs. Poultry Science 80(Suppl. 1): 344.
  • JALAL, M.A. and SCHEIDELER, S.E. (2001) Effect of supplementation of two different sources of phytase on egg production parameters in laying hens and nutrient digestibility. Poultry Science 80: 1463–1471.
  • JONGBLOED, A.W. (1993) The role of phytase in pig production. In: 1st European Symposium on Enzymes. Switzerland. pp. 42–57.
  • JONGBLOED, A.W., KEMMA, P.A. and MROZ, Z. (1996) Phytase in swine rations: Impact on nutrition and environment. In: BASF Technical Symposium, Des Moines, IA, USA. January 29. pp. 44–69.
  • JONGBLOED, A.W., MROZ, Z. and KEMMA, P.A.P. (1992) The effect of supplementary Aspergillus niger phytase in diets for pigs on concentration and apparent digestibility of dry matter, total phosphorus, and phytic acid in different sections of the alimentary tract. Journal of Animal Science 70: 1159–1163.
  • JONGBLOED, A.W., OHMAN, A., VAN DIEPEN, J.T.M., VAN DER KLIS, J.D., KNAP, I. and VERSTEEGH, A.J. (1997) Comparison of pigs and broilers in their response to microbial phytase. Journal of Animal Science 75 (Suppl. 1): 485.
  • JUANPERE, J., PEREZ-VENDRELL, A.M., ANGULO, E. and BRUFAU, J. (2005) Assessment of potential interactions between phytase and glycosidase enzyme supplementation on nutrient digestibility in broilers. Poultry Science 84: 571–580.
  • KANG, C.W., KUN, J.J., KIM, J., NAHM, K.H., PARK, Y.J., BAIK, I.C., YEO, T.S., YOO, I.J. (1997) A text book of Poultry Production. Hangmoon Sa, Seoul, South Korea. pp. 234–235.
  • KEMME, P.A., JONGBLOED, A.W., MROZ, Z., KOGUT, J. and BEYNEN, A.C. (1999) Digestibility of nutrients in growing-finishing pigs is affected by Aspergillus niger phytase, phytate and lactic acid levels. 2. Apparent total tract digestibility of phosphorus, calcium and magnesium and ileal degradation of phytic acid. Livestock Production Science 58: 119–127.
  • KESHAVARZ, K. (2000) Non-phytate phosphorus requirement of laying hens with and without phytase on a phase feeding program. Poultry Science 79: 748–763.
  • KESHAVARZ, K. (2003) Effects of continuous feeding of low-phosphorus diets with and without phytase during the growing and laying periods on performance of two strains. Poultry Science 82: 1444–1456.
  • KESHAVARZ, K. and AUSTIC, R.E. (2004) The use of low-protein, low-phosphorus, amino acid and phytase-supplemented diets on laying hen performance and nitrogen and phosphorus excretion. Poultry Science 83: 75–83.
  • KHAN, N. and PETTERSSON, D. (2000) Evaluation of pentiophora phytase for turkeys. In: Proceedings of XX World's Poultry Congress, Montreal, Canada. August 20–24. pp. 420423.
  • KINGERY, W.L., WOOD, C.W., DELANEY, D.P., WILLIAMS, J.C. and MULLINS, C. (1994) Impact of long-term land application of broiler litter on environmentally related soil properties. Journal of Environmental Quality 23: 139–147.
  • KORNEGAY, E.T. (1996) Effect of Natuphos phytase on protein and amino acid digestibility and nitrogen retention of poultry. In: Phytase in Animal Nutrition and Waste Management. (M.B. Coelho and E.T. Kornegay eds.). pp. 493–514.
  • KORNEGAY, E.T., DENBOW, D.M., YI, Z. and RAVINDRAN, V. (1996) Response of broilers to graded levels of microbial phytase added to maize-soybean-meal-based diets containing three levels of non-phytate phosphorus. British Journal of Nutrition 75: 839–852.
  • KORNEGAY, E.T., THOMAS, H.R. and BARTLETT, H.S. (1981) Phosphorus in swine. III. Influence of dietary calcium and phosphorus levels and growth rate on mineral content of hair from gilts and barrows or boars. Journal of Animal Science 52: 1060–1069.
  • KOTAK, B.G., KENEFICK, S.C., FRITZ, D.L., ROUSSEAUX, C.G., PROPAS, E.E. and HRUDEY, S.E. (1993) Occurrence and toxicological evaluation of cyanobacterial toxins in Alberta lakes and farm dugouts. Water Resources 27: 495–506.
  • LAN, G.Q., ABDULLAH, N., JALALUDIN, S. and HO, Y.W. (2002) Efficacy of supplementation of a phytase-producing bacterial culture on the performance and nutrient use of broiler chickens fed corn-soybean meal diets. Poultry Science 81: 1522–1532.
  • LEESON, S. and SUMMERS, J.D. (2001) Scott's Nutrition of the Chicken. 4th Edition, University Books, University of Guelph, Guelph, Canada. pp. 236–238.
  • LEE, S.J., UM, J.S., PAIK, I.K. and LEE, J.G. (2000) Effect of crude phytase supplementation on performance of broilers fed different levels of phosphorus. Korean Journal of Poultry Science 27: 169–179.
  • LIEBERT, F., HTOO, J.K. and SUNDER, A. (2005) Performance and nutrient utilization of laying hens fed low-phosphorus corn-soybean and wheat-soybean diets supplemented with microbial phytase. Poultry Science 84: 1576–1583.
  • LIM, H.S., NAMKUNG, H. and PAIK, I.K. (2003) Effects of phytase supplementation on the performance, egg quality, and phosphorus excretion of laying hens fed different levels of dietary calcium and nonphytate phosphorus. Poultry Science 82: 92–99.
  • LING, B., ANGEL, C.R., APPLEGATE, T.J., ZIMMERMANN, N.G. and DHANDU, A.S. (2000) The non-phytate requirement of broilers in a four phase feeding program. Poultry Science 79 (Suppl. 1): 11.
  • LYNCH, G.L. (1996) Phytase allows flexibility in laying hen diets. Feedstuffs (April 1): 12–13.
  • MADDAIAH, V.T., KURNICK, A.A. and REID, B.L. (1964) Phytic acid studies. Proceedings Society of Experiment and Biological Medicine 115: 391–393.
  • MAENZ, D.D. and CLASSEN, H.L. (1998) Phytase activity in the small intestinal brush border membrane of the chicken. Poultry Science 77: 557–563.
  • MAENZ, D.D., ENGELE-SCHAAN, C.M., NEWKIRK, R.W. and CLASSEN, H.L. (1999) The effect of minerals and mineral chelators on the formation of phytase- resistant and phytase-susceptible forms of phytic acid in solution and in a slurry of canola meal. Animal Feed Science and Technology 81: 177–192.
  • MALLO, G.D., AZCONA, J., CIACCIARIELLO, M., GOLIN, A. and GONZALEZ, G. (2000) Biological evaluation of commercial phytase (Natuphos) in broiler diets: 2. Mineral metabolism. In: Proceedings of XX World's Poultry Congress, Montreal, Canada. August 20–24. p.122.
  • MARTIN, E.A. and FARRELL, D.J. (1998) Strategies to improve the nutritive value of rice bran in poultry diets. II. Changes in oil digestibility, metabolisable energy and attempts to increase the digestibility of the oil fraction in the diets of chickens and ducklings British Poultry Science 39: 555–559.
  • MARTIN, E.A., NOLAN, J.V., NITSAN, Z. and FARRELL, D.J. (1998) Strategies to improve the nutritive value of rice bran in poultry diets. IV. Effects of addition of fish meal and a microbial phytase to duckling diets on bird performance and amino acid digestibility. British Poultry Science 39: 612–621.
  • MARTINEZ-AMERINEZ, C., PARSONS, C.M. and BAKER. C.H. (2006) Effect of microbial phytase and citric acid on phosphorus bioavailability, apparent metabolizable energy, and amino acid digestibility in distillers dried grains with solubles in chick. Poultry Science 85: 470–475.
  • MAYER, E.A. (1994) The physiology of gastric storage and emptying. In: Physiology of the Gastrointestinal Tract. (L.R. Johnson, D.H. Alpers, J. Christersen, E.D. Jacobson and T.D. Walsh eds.). Volume 1. Raven Press, New York, NY, USA. pp. 929–976.
  • MILES, D.M., MOORE, P.A. Jr., SMITH, D.R., RICE, D.W., STILBORN, H.L., ROWE, D.R., LOTT, B.D., BRANTON, S.L. and SIMMONS, J.D. (2003) Total and water-soluble phosphorus in broiler litter over three flocks with Alum litter treatment and dietary inclusion of high available phosphorus corn and phytase supplementation. Poultry Science 82: 1544–1549.
  • MOHAMMED, A., GIBNEY, M. and TAULOR, T.G. (1991) The effect of dietary levels of inorganic phosphorus, calcium and cholecalciferol on the digestibility of phytate-P by the chick. British Journal of Nutrition 66: 251–259.
  • MORRIS, E.R. (1986) Phytate and dietary mineral bioavailability. In E.D. Graf (Ed.), Phytic Acid Chemistry and Applications. Minneapolis, MN, USA. The Pillsbury Company. Pp. 57–76.
  • MURAI, A., KOBAYASHI, T., OKADA, T. and OKUMRA, J. (2002) Improvement of growth and nutritive value in chicks with non-genetically modified phytase product from Aspergillus niger. British Poultry Science 43: 687–695.
  • NARAHARI, D. and JAYAPRASAD, I.A. (2000) Effect of replacement of nonphytate phosphorus with phytate phosphorus and phytase supplementation on layers performance. In: Proceedings of XX World's Poultry Congress, Montreal, Canada. August 20–24. pp. 124–126.
  • NELSON, T.S. (1976) The hydrolysis of phytate phosphorus by chicks and laying hens. Poultry Science 55: 2262–2264.
  • NELSON, T.S., FERRARA, L.W. and STORER, N.L. (1968) Phytate phosphorus content of feed ingredients derived Form-Plants. Poultry Science 47: 1372–1379.
  • NELSON, T.S., MCGILLIVRAY, J.J., SHIEH, T.R., WODZINSKI, R.J. and WARE, J.H. (1967) The effect of vitamin D3 and natural phytate on the utilization of calcium by the chick. Poultry Science 46: 1299–1304.
  • NELSON, T.S., SHIEH, T.R., WODZINSKI, R.J. and WARE, J.H. (1971) Effect of supplemental phytase on the utilization of phytase phosphorus of chicks. Journal of Nutrition 101: 1289–1295.
  • NRC (1984) National Research Council, Nutrient Requirements of Poultry (8th ed.), National Academy Press, Washington, DC, USA.
  • NRC (1994) National Research Council, Nutrient Requirements of Poultry (9th ed.), National Academy Press, Washington, DC, USA.
  • OBERLEAS, D., MUHRER, M.E. and O'DELL, B.L. (1966) Dietary metal, complexing agents and zinc availability in the rat. Journal of Nutrition 90: 56–62.
  • O'DELL, B.L. and DE BOLAND, A. (1978) Complexation of phytate with proteins and cations in corn germ and oilseed meals. Journal of Agriculture and Food Chemistry 24: 804–808.
  • OMOGBENIGUM, F.O., NYACHOTI, C.M. and SLOMINSKI, B.A. (2003) The effect of supplementing microbial phytase and organic acids to a corn-soybean based diet fed to early-weaned pigs. Journal of Animal Science 81: 1806–1813.
  • ONYANGE, E.M., BEDFORD, M.R. and ADEOLA, O. (2005) Efficacy of an evolved Escherichia coli phytase diets of broiler chicks. Poultry Science 84: 248–255.
  • PARSONS, C.M. (1995) Nutrient utilization and methods of assessment- An environmental perspective. Deagussa Technical Symposium, May 17. Marriott Hotel, Indianapolis, IN, USA. Pp. 1–5.
  • PEELER, H.T. (1972) Biological availability of nutrients in feeds availability of major mineral ions. Journal of Animal Science 35: 695–699.
  • PERSIA, M.E., PARSONS, C.M. and KOELKEBECK, K.W. (2003) Interrelationship between environment temperature and dietary nonphytate phosphorus in chicks. Poultry Science 82: 1616–1623.
  • PEREZ-VENDRELL, A.M., JUANPERE, J., LLAURADO, L.L. and BRUFAU, J. (2000) Effects of phytase supplementation, individually and in combination with other dietary enzymes on energy value of diets rich in NSP. In: Proceedings of XX World's Poultry Congress, Montreal, Canada. August 20–24. pp. 126–129.
  • PILLAI, P.R., FANATICO, A.C., BEERS, K.W., BLAIR, M.E. and EMMERT, J.L. (2006) Homocysteine remethylation in young broilers fed varying levels of methione, choline, and betaine. Poultry Science 85: 90–95.
  • PUNNA, S. and ROLAND, D.A., Sr. (1999) Influence of supplemental microbial phytase on first cycle laying hens fed phosphorus-deficient diets from day one of age. Poultry Science 78: 1407–1411.
  • PUNNA, S. and ROLAND, D.A., Sr. (2001) Influence of dietary phytase supplementation on incidence and severity in broilers divergently selected for tibial dyschondroplasa. Poultry Science 80: 735–740.
  • QIAN, H., KORNEGAY, E.T. and DENBOW, D.M. (1996a) Phosphorus equivalence of microbial phytase in turkey diets as influenced by calcium to phosphorus ratios and phosphorus levels. Poultry Science 75: 69–81.
  • QIAN, H., KORNEGAY, E.T. and DENBOW, D.M. (1997) Utilization of phytate phosphorus and calcium as influence by microbial phytase, cholecalciferol calcium : total phosphorus ratio in broiler diets. Poultry Science 76: 37–46.
  • QIAN, H., VEIT, H.P., KORNEGAY, E.T., RAVINDRAN, V. and DENBOW, D.M. (1996b) Effects of supplemental phytase and phosphorus on histological and other tibial bone characteristics and performance of broiler fed semi-purified diets. Journal of Poultry Science (In Press).
  • RADCLIFFE, J.S., ZHANG, Z. and KORNEGAY, E.T. (1998) The effects of microbial phytase, citric acid, and their interaction in a corn-soybean meal-based diet for weanling pigs. Journal of Animal Science 76: 1880–1886.
  • RAFACZ-LIVINGSTON, K.A., PARSONS, C.M. and JUNGK, R.A. (2005) The effects of various organic acids on phytate phosphorus utilization in chicks. Poultry Science 84: 1356–1362.
  • RAVINDRAN, V., BRYDEN, W.L. and KORNEGAY, E.T. (1995) Phytates: occurrence, bioavailability, and implications in poultry nutrition. Poultry and Avian Biology Review 6: 125–143.
  • RAVINDRAN, V., CABAHUG, S., RAVINDRAN, G., SELLE, P.H. and BRYDEN, W.L. (2000) Response of broiler chickens to microbial phytase supplementation as influenced by dietary phytic acid and non-phytate phosphorus levels. II. Effects on apparent metabolizable energy, nutrient digestibility and nutrient retention. British Poultry Science 41: 193–200.
  • REINHOLD, J.G., NASR, K., LAHINGARZADEH, A. and HEDAYATI, H. (1973) Effects of purified phytate and phytate-rich breed upon metabolism of zinc, calcium, phosphorus, and nitrogen in man. The Lancet (February 10): 283–288.
  • ROBERSON, K.P., KLUNZINGER, M.W. and CHARBENEAU, R.R. (2004) Benefit of feeding dietary calcium and nonphytate phosphorus levels above National Research Council recommendation dietary to tom turkey in the growing-finishing phases. Poultry Science 83: 689–695.
  • RUTHERFURD, S.M., CHUNG, T.K., MOREL, P.C.M. and MOUGHAN, P.J. (2004) Effect of microbial phytase on ileal digestibility of phytate phosphorus, total phosphorus, and amino acids in a low-phosphorus diet for broilers. Poultry Science 83: 61–68.
  • SALMON, A.J., ALI, M.S. and MCGINNIS, J. (1969) Effect of level and sources of phosphorus and different levels of productivity on phosphorus utilization by laying hens. Poultry Science 48: 1004–1009.
  • SAUVEUR, B. (1983) Biodisponibilite du phosphore d origine vegetale pour les volailles. Critiques methodologiques et resultants. In: Proceedings 4th European Symposium of Poultry Nutrition, pp. 17–20.
  • SAUVEUR, B. (1989) Phosphore phytique et phytases dans lalimentation des volailles. INRA Production of Animal 5: 343–351.
  • SAYLOR, W.W. (1992) Reduced phosphate excretion and improved phosphorus utilization: Opportunities with microbial phytase. In Proceedings Delmarva Poultry Nutrition Short Course, Delmar, MD, USA. pp. 129–142.
  • SAYLOR, W.W. (2000) Phosphorus reduction techniques used in broiler nutrition. Feedstuffs (August 7): 11–15.
  • SAYLOR, W.W., SIMS, J.T., MALONE, G.W. and LAVAHUN, M.F. (2002) Phytase, HAP corn combination may reduce phosphorus excretion. Feedstuffs (June 3): 16–19.
  • SCHEIDELER, S.E. and SELL. J.L. (1987) Utilization of phytate phosphorus in laying hens as influenced by dietary phosphorus and calcium. Nutrition Reports International 35: 1073–1081.
  • SCHEIDELER, S.E. (1991) Phytase in broiler rations. Misset World Poultry 7: 21–26.
  • SCHONER, F.J., HOPPE, P.P. and SCHWARZ, G. (1991) Comparative effects of microbial phytase and inorganic phosphorus on performance and on retention of phosphorus, calcium and crude ash in broilers. Journal of Animal Physiology and Animal Nutrition 66: 248–255.
  • SCHONER, F.J., HOPPE, P.P., SCHWARZ, G. and Wiesche, H. (1993) Effects of microbial phytase and inorganic phosphate in broiler chickens: Performance and mineral retention at various calcium levels. Journal of Animal Physiology and Animal Nutrition 69: 235–244.
  • SEBASTIAN, S., TOUCHBURN, S.P., CHAVEZ, E.B. and LAGUE, P.C. (1996) The effect of supplemental microbial phytase on the performance and utilization of dietary calcium, phosphorus, copper and zinc in broiler chickens fed corn-soybean diets. Poultry Science 75: 729–736.
  • SELL, J.L. and JEFFREY, M.J. (1996) Availability for poults of P from meat and bone meal of different particle sizes. Poultry Science 75: 232–239.
  • SHARPLEY, A.N., CHAORA, S.C., WEDEPOHL, R., SIMS, J.T., DANIEL, T.C. and REDDY, K.R. (1994) Managing agricultural phosphorus for protection of surface water: Issues and options. Journal of Environmental Quality 23: 437–451.
  • SHIRLEY, R.B. and EDWARDS, H.M., Jr. (2003) Graded levels of phytase past industry standards improves broiler performance. Poultry Science 82: 671–680.
  • SIMONS, P.C., VERSTEEGH, H.A.J., JONGBLOED, A.W. and KEMME, P.A. (1990) Improvement of phosphorus availability by broiler and pigs. British Journal of Nutrition 64: 525–540.
  • SNOW, J.L., DOUGLAS, M.W., BATAL, A.B., PERSIA, M.E., BIGGS, P.E. and PARSONS, C.M. (2003) Efficacy of high available phosphorus corn in laying hen diets. Poultry Science 82: 1037–1041.
  • SNOW, J.L., DOUGLAS, M.W., KOELKEBECK, K.W., BATAL, A.B., PERSIA, M.E. BIGGS, P.E. and PARSONS, C.M. (2004) Minimum phosphorus requirement of one-cycle and two-cycle (molted) hens. Poultry Science 83: 917–924.
  • SNOW, J.L., DOUGLAS, M.W. and PARSONS, C.M. (2003) Phytase effects on amino acid digestibility in molted laying hens. Poultry Science 82: 474–477.
  • SOHAIL, S.S. and ROLAND, D.A., SR. (2002) Influence of dietary phosphorus on performance of Hy-Line W36 hens. Poultry Science 81: 75–83.
  • STATON, R. (1988) Micro-encapsulation and encapsulated ingredients. Food Science and Technology Today 2: 181–189.
  • TEMPERTON, H. and CASSIDY, J. (1964) Phosphorus requirements of poultry. III. The effect of feeding a vegetable type diet without supplemental phosphorus to turkeys. British Poultry Science 5: 87–88.
  • TEMPERTON, H., DUDLEY, J. and PICKERING, G.J. (1965) Phosphorus requirements of poultry. V. The effects during the subsequent laying year of feeding diets containing no animal protein or supplementary phosphorus. British Poultry Science 6: 135–141.
  • TRAYLOR, S.L., CROMWELL, G.L., PLUNKETT, M.S., LINDEMANN, M.D. and KNABE, D.A. (2000) Effects of level of phytase on ileal digestibility of calcium, phosphorus, crude protein, and amino acids in dehulled soybean meal. Journal of Animal Science 78 (Suppl. 1): 169–170.
  • VANDEPOPULIERE, J.M., AMMERMAN, C.R. and HARMS, R.M. (1961) The relationship of calcium : phosphorus ratios to the utilization of plant and inorganic phosphorus by the chick. Poultry Science 40: 951–957.
  • VAN DER KLIS, J.D. and VERSTEEGH, H.A.J. (1991) The ileal absorption of phosphorus in light, white laying hens when using microbial phytase and various content in layer feed. IN, USA. Spelderholt Publication No. 563.
  • VAN DER KLIS, J.D., VERSTEEGH, H.A.J., SIMONS, P.C.M. and KIES, A.K. (1997) The efficacy of phytase in corn-soybean meal-based diets for laying hens. Poultry Science 76: 1535–1542.
  • VIVEROS, A., BRENES, A., ARIJA, I. and CENTENO, C. (2002) Effects of microbial phytase supplementation on mineral utilization and serum enzyme activities in broiler chicks fed different levels of phosphorus. Poultry Science 81: 1172–1183.
  • WALDROUP, P.W. and ADAMS, M.H. (1994) Evaluation of the P provided by animal proteins in the diet of broiler chicken. Journal of Applied Poultry Research 3: 209–218.
  • WALDROUP, P.W., AMMERMAN, C.B. and HARMS, R.H. (1964) The availability of phytic acid phosphorus for chicks. Poultry Science 43: 426–431.
  • WALDROUP, P.W., KERSEY, J.H., SALEH, E.A., FRITTS, C.A., YAN, F., STILBORN, H.L., CRUM, R.C., Jr. and RABOY, V. (2000) Nonphytate phosphorus requirement and phosphorus excretion of broilers fed diets composed of normal or high available phosphate corn with and without microbial phytase. Poultry Science 79: 1451–1459.
  • WALDROUP, P.W., MITCHELL, R.J. and JOHNSON, Z.B. (1975) The phosphorus needs of young broiler chicks in relationship to dietary nutrient density level. Poultry Science 54: 436–441.
  • WASSERMAN, K.H. and TAYLOR, A.N. (1973) In testinal absorption of phosphate in the chick. Effect of vitamin D3 and other parameters. Journal of Nutrition 103: 586–599.
  • WICKER, D.L. (1999) Phosphorus reduction techniques examined. Feedstuffs (August 2): 12–14.
  • WU, Y.B., RAVINDRAN, V. and HENDRIKS, W.H. (2003) Effects of microbial phytase, produced by solid-state fermentation, on the performance and nutrient utilization of broilers fed maize-and wheat-based diets. British Poultry Science 44: 710–718.
  • YAN, F., KERSAY, J.H., FRITTS, C.A. and WALDROUP, P.W. (2003) Phosphorus requirement of broiler chicks six to nine weeks of age as influenced by phytase supplementation. Poultry Science 82: 294–300.
  • YAN, E., ASHWELL, C., ANGEL, R., MITCHELL, A. and CHRISTMAN, M. (2005) Evaluation of the broiler's ability to adapt to early moderate deficiency of phophorus and calcium. Poultry Science 84: 1232–1242.
  • YANG, Q.M., BAIDOO, S.K., BOYCHUCK, J.C.C. and WALKER, R.D. (2001) Effects of phytase on growth performance and bioavailabilities of organic phosphorus and other nutrients in corn-soybean meal diets for young pigs. Journal of Animal Science 74 (Suppl. 1): p. 70.
  • YI, Z. and KORNEGAY, E.T. (1996) Sites of phytase activity in the gastrointestinal tract of young pigs. Animal Feed Science and Technology 61: 361–368.
  • ZHANG, Z.B., RORNEGAY, E.T., RADCLIFFE, J.S., DENBOW, D.M., VEIT, H.P. and LARSEN, C.T. (2000) Comparison of genetically engineered microbial and plant phytase for young broilers. Poultry Science 79: 709–717.
  • ZYLA, K. (2000) Phytase application in poultry feeding: Selected issues. In: Proceedings of XX World's Poultry Congress, Montreal, Canada. August 20–24. pp. 222–224.
  • ZYLA, K., LEDOUX, D.R., VEUM, T.L., YLA, K., LEDOUX, D.R. and VEUM, T.L. (1995) Complete enzymic dephosphorylation of corn-soybean meal feed under simulated intestinal conditions of the turkey. Journal of Agriculture and Food Chemistry 43: 288–294.

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.