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Optimal Poultry Litter Management through GIS-based Transportation Analysis System

  • Kang, M.S. (Biosystems Engineering Department, 200 Corley Building, Auburn University) ;
  • Srivastava, P. (Biosystems Engineering Department, Auburn University) ;
  • Fulton, J.P. (Biosystems Engineering Department, Auburn University) ;
  • Tyson, T. (Biosystems Engineering Department, Auburn University) ;
  • Owsley, W.F. (Animal Science Department, Auburn University) ;
  • Yoo, K.H. (Biosystems Engineering Department, Auburn University)
  • Published : 2006.12.30

Abstract

Concentrated poultry production in the State of Alabama, U.S.A. results in excessive poultry litter. Application of poultry litter to pastures and row crops serves as a cheap alternative to commercial fertilizer. However, over the years, poultry litter application to perennial forage crops in the Appalachian Plateau region of North Alabama has resulted in phosphorus (P) buildup in soils. Phosphorus index (P-index) and comprehensive nutrient management plans (CNMP) are often used as a best management practice (BMP) for proper land application of litter. Because nutrient management planning is often not done for small animal feeding operations (AFOs), and also because, in case of excess litter, litter transportation infrastructure has not been developed, over application of poultry litter to near by area is a common practice. To alleviate this problem, optimal poultry litter management and transportation infrastructure needs to be developed. This paper presents a methodology to optimize poultry litter application and transportation through efficient nutrient management planning and transportation network analysis. The goal was accomplished through implementation of three important modules, a P-Index module, a CNMP module, and a transportation network analysis module within ArcGIS, a Geographic Information System (GIS). The CNMP and P-Index modules assist with land application of poultry litter at a rate that is protective of water quality, while the transportation network analysis module helps transport excess litter to areas requiring litter in the Appalachian Plateau and Black Belt (a nutrient-deficient area) regions. Once fully developed and implemented, such a system will help alleviate water quality problems in the Appalachian Plateau region and poor soil fertility problems in the Black Belt region by optimizing land application and transportation. The utility of the methodology is illustrated through a hypothetical case study.

Keywords

References

  1. Adams. J. F. and C. C. Mitchell. 2000. Soil test Nutrient Recommendations for Alabama Crops. Agronomy and Soils, College of Agriculture, Auburn University (http://www.ag.auburn.edu/agrn//croprecs/ NutrientRecslndex.html#crops)
  2. Alabama Department Environment Management (ADEM). 1999. National pollutant discharge elimination system for owners and operator of animal feeding operations and concentrated animal feeding operations. Ala. Dep, Environ. Mgmt., Field Operations Div., Water Qual. Programs, Chapter 335-6-7. Montgomery, AL
  3. Bagley, C. P. and R. R. Evans. 1998. Poultry Litter as a Feed or Fertilizer in Livestock Operations. Mississippi State University Extension Service
  4. Beuthe, M., B. Jourquin, J-F. Geerts. and C.K.N. Ha. 2001. Freight Transportation Demand Elasticities: A Geographic Multimodal Transportation Network Analysis. Transportation Research Part E 37: 253-266 https://doi.org/10.1016/S1366-5545(00)00022-3
  5. Binford. G. D. Hansen. and B. Malone. 2001. Poultry Litter: resource or Waste-, Nutrient Management Notes. Delaware Nutrient Management Program 2(3)
  6. Bukenya, J. O., J. Befecadu, H. S. Jones. K. C. Reddy. and A. Baiyee-Moi. 1999. Economic Feasibility of Substituting Fresh Poultry Litter for Ammomium Nitrate in Cotton Production. The Annual Meetings of the Northeast Agricultural and Resource Economics Association
  7. Cabrera. M. L. and J. T. Sims. 2000. Beneficial Use of Poultry By-Products: Challenges and Opportunities: 425-450. In J. F. Power and W. A. Dick (ed.) Land Application of Agriculture. Industrial, and Municipal By-Products. SSSA Book Ser. 6. SSSA, Madison. WI
  8. Carpenter. S. R.. N. F. Caraco, D. L. Correll. R. W. Howarth. A. N. Sharpley. and V. H. Smith. 1998. Nonpoint Pollution of Surface Waters with Phosphorus and Nitrogen. Ecol. Appl, 8: 559-568 https://doi.org/10.1890/1051-0761(1998)008[0559:NPOSWW]2.0.CO;2
  9. Daniel. T. C.. A. N. Sharpley. and J. L. Lemunyon. 1998. Agricultural phosphorus and eutrophication: a symposium overview. J. Environ. Qual. 27: 251-257
  10. ESRI. 2005. ArcGIS 9- ArcGIS Network Analyst Tutorial. 380 New York Street. Redl.ands, CA, USA
  11. Han, K., S. Minty, and A. Clayton. 2003. Developing Geographic Information Systems Platforms for Multi-jurisdictional Transportation Analysis: Framework and Techniques for Spatial Data Sharing, Can. J. Civ. Eng. 30: 808-818
  12. Kingery, W. L., C. W. Wood, D. P. Delaney. J. C. Williams. and G. L. Mullins. 1994. Impact of Long-Term Land Application of Poultry Litter on Environmentally Related Soil Properties. J. Environ. Qual. 23: 139-147 https://doi.org/10.2134/jeq1994.00472425002300010022x
  13. Koncz, N. A. and T. M. Adams. 2002. A Data Model for Multi-Dimensional Transportation Applications. Int. J. Geographical Information Science 16(6): 551-569 https://doi.org/10.1080/13658810210138724
  14. McKinley, B., M. Broome, and L. Oldham. 2000. Poultry Nutrient Management Through Livestock Feedstuffs. Mississippi State University Extension Service, M1146
  15. Miller, H. J. and S. L. Shaw. 2001. Geographic Information Systems for Transportation - Principles and Applications. Oxford University Press, Inc., New York, USA
  16. Mitchell, C. C. and J. O. Donald. 1995. The value and use of poultry manures as fertilizer. Alabama Cooperative Extension System (ACES) Cir. No. ANR 244. Auburn University, AL
  17. Mitchell, C. C. and S. Tu. 2005. Long-Term Evaluation of Poultry Litter as a Source of Nitrogen for Cotton and Corn. Agronomy Journal, American Society of Agronomy 97: 399-407 https://doi.org/10.2134/agronj2005.0399
  18. Mitchell, C. C. and T. W. Tyson. 2000. Nutrient Management Planning for Small AFOs: Poultry Operations. Alabama Cooperative Extension System (ACES), Timely Information, ETP220-01-00: 1-14
  19. Moore, P. A., Jr. Moore. 1998. Best Management Practices for Poultry Manure Utilization that Enhance Agricultural Productivity and Reduce Pollution. pp. 89-24, In J. Hatfield and B. A. Stewart (ed.) Animal Waste Utilization: Effective use of manure as a soil resource, Ann Arbor Press, Chelsea, ME
  20. Naber, E. C. and E. C., A. J. Bermudez. 1998. The Ohio State University Poultry Manure Management and Utilization Problem and Opportunities. Extension Bulletin 804
  21. Ritter, F. W. 2000. Potential Impact of Land Application of By-Products on Ground and Surface Water Quality: 263-288. In J. F. Power and W. A. Dick (ed.) Land Application of Agriculture, Industrial, and Municipal By-Products, SSSA Book Ser. 6, SSSA, Madison, WI
  22. Suh, K., J. J. Lee, Y. M. Huh, H. J. Kim, and H. J. Yi. 2004. Development of An Optimal Routes Selection Model Considering Price Characteristics of Agricultural Products. Journal of The Korean Society of Agricultural Engineers 46(1): 121-131 https://doi.org/10.5389/KSAE.2004.46.1.121
  23. USDA National Agricultural Statistics Service (USDA-NASS). 2005. Alabama Agricultural Statistics Bulletin 47: Poultry Review 2005. USDA national Agricultural Statistics Service Alabama Field Office: 39-42
  24. USDA Natural Resources Conservation Service (USDA-NRCS). 2001. Phosphorus Index for Alabama: A Planning Tool to Assess & Manage P Movement. USDA Natural Resources Conservation Service, Agronomy Technical Note (AL-72), Auburn, Alabama
  25. Verma, A. and S. L. Dhingra. 2005. Optimal Urban Rail Transit Corridor Identification within Integrated Framework Using Geographical Information System. Journal of Urban Planning and Development, ASCE 131(2): 98-111 https://doi.org/10.1061/(ASCE)0733-9488(2005)131:2(98)