Hostname: page-component-76fb5796d-zzh7m Total loading time: 0 Render date: 2024-04-27T19:29:51.379Z Has data issue: false hasContentIssue false
  • English
  • Français

A strategy to solve environmental concerns caused by poultry production

Published online by Cambridge University Press:  18 September 2007

K. H. Nahm
K. H. Nahm
Affiliation:
Feed and Nutrition Laboratory, College of Natural Resources, Taegu University, Gyong San, 712-714, South Korea
Get access

Abstract

Poultry manure and litter have the potential to be either land resources or pollutants of surface and ground water as well as giving rise to unpleasant odours. Provided proper attention is paid to nutrient management, they can be used as fertilisers, soil amendments and feed ingredients. Furthermore, the contents of nitrogen, phosphorus and other minerals in poultry manure and litter can be reduced by paying careful attention to diet composition – for example, by applying the concept of ideal protein, supplementation with synthetic amino acids, the addition of various types of enzymes including phytase, the lowering of the protein and phosphorus contents and the use of highly available sources of supplementary phosphorus and vitamin D. Good nutrient management also depends on obtaining representative samples of feed, manure, litter, water and soil from each handling system and having these analysed on a regular basis in a reliable laboratory. This not only ensures that proper quantities of nutrients are added to the native soil on which the crops that are ultimately to be used as feed sources are to be grown, but also means that lower amounts of nitrogen, phosphorus and other elements are present in the feed. One outcome of the latter effect is that the poultry manure and litter excreted contains fewer potential pollutants and reduces the criticism levelled at the poultry industry that it runs roughshod over environmental concerns. It would be beneficial if all of these analytical procedures were handled in one laboratory specialising in animal agriculture with specialists advising farmers on how best to apply the analytical data.

Keywords

Analytical laboratorydietary manipulationfeedlittermanurepollutantsoilwater
Type
Regional Report
Information
World's Poultry Science Journal , Volume 56 , Issue 4 , December 2000 , pp. 379 - 388
Copyright
Copyright © Cambridge University Press 2000

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

AOAC (1992) Official Methods of Analysis. 15th edition. Association of Analytical Chemists, Washington, DCGoogle Scholar
Baldwin, C.S. (1985) Poultry should utilize more of manure's trade value. Newsletterfer for Ontario Egg Producers, pp. 1216Google Scholar
Baker, D.H. (1995) Ideal protein in broilers. Poultry Digest November, pp. 814Google Scholar
Barton, L. (1995) Relevance of water quality to broiler and turkey performance. Poultry Science 75: 854856CrossRefGoogle Scholar
Beegle, D.B. (1988) Fertilizer value of poultry manure and commercial fertilizer. In: Proceedings of National Poultry Waste Management Symposium,The Ohio State University,Columbus, pp. 120–124Google Scholar
Beegle, D.B. (1990) Manure nutrient management plans for new crops. In: Proceedings of 1990 National Poultry Waste Management Symposium (Blacke, J.P. and Hulet, R.M., Eds), Auburn University,Auburn, pp. 214–222Google Scholar
Bitzer, C.C. and Sims, T.J. (1988) Estimating the availablility of nitrogen in poultry manure through laboratory and field studies. Journal of Environmental Quality 17: 4754CrossRefGoogle Scholar
Blair, R., Jacob, J.P., Ibraham, S. and Wang, P. (1999) Diets for nitrogen use to minimize nitrogen pollutions from poultry waste. Journal of Applied Poultry Research 8: 2547CrossRefGoogle Scholar
Carter, T. (1993) Soil facts: poultry manure as a fertilizer source, North Carolina Cooperative Extension Service, North Carolina State University, RaleighGoogle Scholar
Chapman, S.L. (1996) Soil and solid poultry waste nutrient management and water quality. Poultry Science 75: 862866CrossRefGoogle ScholarPubMed
Chapman, S.L. and Snyder, C.S. (1992) Poultry manure as a substitute for commercial fertilizer. Soils and Fertilizers Information Article, University of Arkansas, Cooperative Extension Service, Little Rock, pp. 292Google Scholar
Chipperfield, K. (1994) Fraser Valley poultry industry waste management survey. Sustainable Poultry Farming Group Final Report and Resource Binder 19911994. Project SCP 1109, Abbotsford, CanadaGoogle Scholar
Clanton, P.E. (1993) Nutrient characteristics of manure. Livestock Waste Management Conference, Minnesota Experimental Service,University of Minnesota,Minneapolis, pp. 73–75Google Scholar
Coelho, M.B. (1994) Ecological nutrition: a costly or smart move? Feedstuffs 66: 1315Google Scholar
Coffey, M.T. (1992) An industry perspective on environmental and waste management issues: challenge for the feed industry. Proceedings of Georgia Nutrition Conference,University of Georgia,Athens, pp. 144–148Google Scholar
Darling, W.A. (1994) Groundwater pollution prevention regulations from the state and local perspective. In: Proceedings of 1994 National Poultry Waste Management Symposium (Patteson, P.H. and Blacke, J.P., Eds), Auburn University,Auburn, pp. 10–18Google Scholar
Edwards, D.R. (1993a) Transport of phosphorus from land areas treated with animal manures. In: Proceedings of 1993 AWRC Research Conference,University of Arkansas,Fayetteville p. 25Google Scholar
Edwards, D.R. and Daniel, T.C. (1992) Environmental impacts of on-farm boiler waste disposal: a review. Bioresources Technology 41: 993CrossRefGoogle Scholar
Edwards, D.R. and Daniel, T.C. (1993) Effect of poultry litter application rate and rainfall intensity on quality of runoff from fescue grass plots. Journal of Environmental Quality 22: 361365CrossRefGoogle Scholar
Edwards, H.M. Jr. (1993b) Dietary 1,25-dihydroxycholecalciferol supplementation increases natural phytate phosphorus utilization in chickens. American Institute of Nutrition 568577Google ScholarPubMed
Francis, C. (1995) What is sustainability? In: Proceedings of Agriculture and People: Building a Shared Environment, Ithaca, NY,University of Nebraska,Lincoln, pp. 70–71Google Scholar
Fretz, T.A., Keeney, D.R. and Sterrett, S.B. (1993) Sustainability: defining the new paradigm. Horticulture Technology 3: 118126Google Scholar
Gordillo, R.M. and Cabrera, M.L. (1997) Mineralizable nitrogen in broiler litter: I. Effect of selected litter chemical characteristics. Journal of Environmental Quality 26: 16721679CrossRefGoogle Scholar
Green, L.W. (1996) Effects of trace mineral manipulation on animal performance, waste management. Proceedings of the Plains Nutrition Council Waste Management Seminar, pp. 32–43Google Scholar
Heathman, G.C., Sharpley, A.N., Smith, S.J. and Robinson, (1995) Poultry litter application and water quality in Oklahoma. Fertilizer Research 40: 165173CrossRefGoogle Scholar
Ihnat, M. and Fernandes, L. (1996) Trace elemental characterization of composted poultry manure. Bioresource Technology 57: 143156CrossRefGoogle Scholar
Jackson, M.L. (1958) Soil Chemical Analysis. Prentice-Hall lnc., Englewood Cliffs, NJGoogle Scholar
Khan, N. (1994) Phosphorus: the essential element. Feed Mix (Special Issue), pp. 46Google Scholar
Kim, J.H. (1993) Studies on nutrition and feed value of the whole crop corn ensiled with cage layer manure for ruminants. PhD thesis, Gyong San National University, South KoreaGoogle Scholar
Kim, J.H. and Ko, Y.D. (1995) Body weight gain, feed conversion and feed cost of Korean native goats fed corn-manure silages. Asian-Australian Journal of Animal Science 8: 427431CrossRefGoogle Scholar
Kim, J.H., Yokota, Y., Ko, Y.D., Okajima, T., and Ohshima, M. (1993) Nutritional quality of whole crop corn ensiled with cage layer manure. I. Quality, voluntary feed intake and digestibility of the silage in goats. Asian-Australian Journal of Animal Science 6: 4551CrossRefGoogle Scholar
Kim, K.S., Choi, H.L. and Kang, S.M. (1995) The improvement of animal manure systems and their utilization. Korean National Livestock Research Report, pp. 2432Google Scholar
Ko, Y.D. (1992) A study on corn and broiler litter utilization. Korean Journal of Grassland Science 14: 132141Google Scholar
Ko, Y.D. and Ahn, B.G. (1987) A study on the corn-layer manure silage about digestibility and silage fermentation. Korean Journal of Animal Science 29: 501508Google Scholar
Kornegay, E.T. (1996) Nutritional, environmental and economical considerations for using phytase in pig and poultry diets. In: Proceedings of an International Symposium on the Management of Food Animals to Enhance the Environment,BlacksburgGoogle Scholar
Kornegay, E.T., Denbow, D.M., Yi, Z. and Ravindran, V. (1996) Response of broilers to graded levels of microbial phytase added to corn-soybean meal based diets containing three levels of nonphytate phosphorus. British Journal of Nutrition 75: 839852CrossRefGoogle Scholar
McGinn, S.M. and Janzen, H.H. (1998) Ammonia sources in agriculture and their measurement. Canadian Journal of Soil Science 78: 139148CrossRefGoogle Scholar
Moor, P.A. Jr, Daniel, T.C., Sharpley, A.N., and Wood, C.W. (1995) Poultry manure management: environmentally sound options. Journal of Soil and Wafer Conservation 50: 321327Google Scholar
Moran, E.T. Jr (1994) Significance of dietary crude protein to broiler carcass quality. Proceedings of Maryland Nutrition Conference for Feed Manufacturers,University of Maryland, pp. 1–11Google Scholar
Moran, E.T. Jr, Bushong, R.D. and Bigili, S.F. (1992) Reducing dietary crude protein for broilers while satisfying amino acid requirements by least-cost formulation: live performance, litter composition and yield of fast-food carcass cuts at six weeks. Poultry Science 71: 16871694CrossRefGoogle Scholar
Morse, D. (1996) Impacts of water and air quality legislation on the poultry industry. Poultry Science 75: 857861CrossRefGoogle ScholarPubMed
Nahm, K.H. (1989) The Complete Agricultural Laboratory Manual (English Edition), Taegu University Press, pp. 35Google Scholar
Nahm, K.H. (1992) Practical Guide to Feed, Forage and Water Analysis (English Edition), Yoo Han Pubiishing Company, pp. 2236Google Scholar
Nahm, K.H. (1995) Future direction for the livestock production in Korea. Proceedings of the Korean Animal Production Conference, pp. 32–63Google Scholar
Nahm, K.H. and Carlson, C.W. (1998) The possible minimum chicken nutrient requirements for protecting the environment and improving cost efficiency. Asian-Australian Journal of Animal Science 11: 755768CrossRefGoogle Scholar
Nahm, K.H. and Sung, C.H. (1995) Improving management on layer farms through utilization of a checklist: a field report. Korean Journal of Animal Nutrition and Feed 19: 261272Google Scholar
Narrod, C.A., Reynnells, R.D. and Wells, H. (1994) Poultry waste utilization issues: a focus on the Delmarva Peninsula. In: Proceedings of 1994 National Poultry Waste Management Symposium (Patteson, P.H. and Blacke, J.P., Eds), Auburn University,Auburn, pp. 249–255Google Scholar
Nicholson, R.J. and De Bode, M. (1994) Environmental regulations affect in poultry production in Europe. In: Proceedings of 1994 National Poultry Waste Management Symposium (Patteson, P.H. and Blacke, J.P., Eds), Auburn University,Auburn, pp. 52–61Google Scholar
Noll, S. (1991) Turkey Manure Handling. Minnesota Extension Service, University of Minnesota, St. Paul, Ag-Fo-5653-BGoogle Scholar
O'Dell, B.L. and De Boland, A. (1976) Complexation of phytate with proteins and cations in corn germ and oilseed meals. Journal of Agricultural Food Chemistry 24: 804808CrossRefGoogle Scholar
Parsons, C.M. (1995) Nutrient utilization and methods of assessment: an environmental perspective. Degussa Technical Symposium, 17 May, pp. 1–5Google Scholar
Patterson, P.H. (1993) Nutrient management poultry manure utilization. Lancaster Farming 38: A22Google Scholar
Patterson, P.H. (1994) Estimating manure production based on nutrition and production: laying hens. In: Proceedings of 1994 National Poultry Waste Symposium (Patterson, P.H. and Blake, J.L., Eds), Auburn University,Auburn, pp. 90–96Google Scholar
Patterson, P.H. (1997) Nutrient contents in caged layer manure. In: Proceedings of 1997 National Poultry Waste Symposium (Patterson, P.H. and Blake, J.L., Eds), Auburn University,Auburn, pp. 67–78Google Scholar
Pescatore, A.J., Cocanougher, J.B., Henken, K., Green, W.H., Potts, J. and Rasnake, M. (1998) Poultry farms did not affect well water. Southern Poultry Science Meeting.Atlanta, pp. 72–74Google Scholar
Pionke, H.B., Gburek, W.J., Sharpley, A.N. and Schnabel, R.R. (1996) Flow and nutrient export patterns for an agricultural hill-land. Water Resources Research 32: 17951804CrossRefGoogle Scholar
Savage, S. (1986) Laying hen numbers need to be balanced with available land. Feedstuffs 15: 22Google Scholar
Schmitt, M. and Rehm, G. (1992) Fertilizing Cropland with Poultry Manure. Minnesota Extension Service, University of Minnesota, St. Paul, Ag-Fo-5885-CGoogle Scholar
Scott, T.A. (1991) Nutritional effects of waste production from monogastrics. Canadian Society of Animal Science Meetings,Chilliwack, CanadaGoogle Scholar
Sharpley, A.N., Daniel, T.C. and Edwards, D.R. (1993) Phosphorus movement in the landscape. Journal of Production Agriculture 6: 492500CrossRefGoogle Scholar
Sharpley, A.N., Meisinger, J.J., Breeuwsma, A., Sim, T., Datiid, T.C. and Shepers, (1996) Impact of animal manure management on ground and surface water quality. In: Effective Management of Animal Waste as a Soil Resource (Hatford, J., Ed.), Lewis Publication, Boca Raton, pp. 173242Google Scholar
Shepherd, M.A. (1993) Poultry manure and nitrate leaching. World's Poultry Science Journal 49: 171172CrossRefGoogle Scholar
Simons, P.C.M. and Varsteegh, H.A.J. (1993) Role of phytases in poultry nutrition. In: Enzymes in Animal Nutrition (Wenk, C. and Boessinger, M., Eds), Kartause-Ittingen, Switzerland, pp. 181186Google Scholar
Skinner, J.T., Izat, A.Z. and Waldrop, P.W. (1992) Studies on calcium and phosphorus requirements of finishing broilers. Journal of Applied Poultry Science 1: 42Google Scholar
Summers, J.D. (1993) Reducing nitrogen excretion of the laying hen by feeding lower crude protein diets. Poultry Science 72: 14731478CrossRefGoogle ScholarPubMed
Vanotti, M.B. and Bundy, L.G. (1994) Corn nitrogen recommendations based on yield response data. Journal of Production Agriculture 7: 249256CrossRefGoogle Scholar
Vodela, J.K., Renden, J.A., Lenz, S.D., McElhenney, W.H. and Kemppainene, (1997) Drinking water contaminants (arsenic, cadmium, lead, benzene and trichloroethylene). 1. Interaction of contaminants with nutritional status on general performance and immune functions in broiler chickens. Poultry Science 76: 14741492CrossRefGoogle ScholarPubMed
Weaver, W.D. Jr, and Sounder, G.H. (1990) Feasibility and economics of transporting poultry waste. In: Proceedings of 1990 National Poultry Waste Management Symposium (Blacke, J.P. and Hulet, R.M., Eds), Auburn University,Auburn, pp. 123–129Google Scholar
Wyatt, C.L. and Harker, A. (1995) Application of feed enzymes to commercial wheat and barley based poultry feeds. In: Proceedings of California Nutrition Conference,University of California,Davis, pp. 203–211Google Scholar
Xin, H. and Lorimor, J.C. (1998) Research may lead to more accurate manure mangement plans. Feedstuffs 15: 4849Google Scholar
Zygmunt, H. (1994) Groundwater pollution prevention regulations from the state and local perspective. In: Proceedings of 1994 National Poultry Waste Management Symposium (Patterson, P.H. and Blake, J.P., Eds), Auburn University,Auburn, pp. 7–9Google Scholar