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Precision phosphorus management and agricultural phosphorus loading

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  • Iho, Antti
  • Laukkanen, Marita

Abstract

This article puts forward a model of the role of phosphorus in crop production, soil phosphorus dynamics and phosphorus loading that integrates the salient economic and ecological features of phosphorus management, with grain production in southern Finland as an application. The model accounts for the links between phosphorus fertilization, crop yield, accumulation of soil phosphorus reserves, and phosphorus loading into waterways. It can be used to guide precision phosphorus management as a means to mitigate agricultural phosphorus loading. Erosion control is considered as an additional measure to reduce phosphorus loading through soil loss. A dynamic programming approach and numerical solution method are used to analyze the intertemporally optimal combination of fertilization and erosion control and the associated soil phosphorus development. The optimal fertilizer application rate changes markedly over time in response to changes in the soil phosphorus level. Erosion control was found to increase welfare only on land that is highly susceptible to erosion.

Suggested Citation

  • Iho, Antti & Laukkanen, Marita, 2012. "Precision phosphorus management and agricultural phosphorus loading," Ecological Economics, Elsevier, vol. 77(C), pages 91-102.
    • Handle: RePEc:eee:ecolec:v:77:y:2012:i:c:p:91-102
    DOI: 10.1016/j.ecolecon.2012.02.010
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    Cited by:

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    2. Jayash Paudel & Christine L. Crago, 2021. "Environmental Externalities from Agriculture: Evidence from Water Quality in the United States," American Journal of Agricultural Economics, John Wiley & Sons, vol. 103(1), pages 185-210, January.
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    4. Line Hansen & Lars Hansen, 2014. "Can Non-point Phosphorus Emissions from Agriculture be Regulated Efficiently Using Input-Output Taxes?," Environmental & Resource Economics, Springer;European Association of Environmental and Resource Economists, vol. 58(1), pages 109-125, May.
    5. Sanna Lötjönen & Esa Temmes & Markku Ollikainen, 2020. "Dairy Farm Management when Nutrient Runoff and Climate Emissions Count," American Journal of Agricultural Economics, John Wiley & Sons, vol. 102(3), pages 960-981, May.
    6. Catherine L. Kling & Raymond W. Arritt & Gray Calhoun & David A. Keiser, 2017. "Integrated Assessment Models of the Food, Energy, and Water Nexus: A Review and an Outline of Research Needs," Annual Review of Resource Economics, Annual Reviews, vol. 9(1), pages 143-163, October.
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    9. Paudel, Jayash & Crago, Christine L., 2018. "Fertilizer Use and Water Quality in the United States," 2018 Annual Meeting, August 5-7, Washington, D.C. 274312, Agricultural and Applied Economics Association.
    10. Kuosmanen, Natalia, 2014. "Estimating stocks and flows of nitrogen: Application of dynamic nutrient balance to European agriculture," Ecological Economics, Elsevier, vol. 108(C), pages 68-78.
    11. Chojnacka, K. & Gorazda, K. & Witek-Krowiak, A. & Moustakas, K., 2019. "Recovery of fertilizer nutrients from materials - Contradictions, mistakes and future trends," Renewable and Sustainable Energy Reviews, Elsevier, vol. 110(C), pages 485-498.
    12. Soile Oinonen & Kari Hyytiäinen & Lassi Ahlvik & Maria Laamanen & Virpi Lehtoranta & Joona Salojärvi & Jarno Virtanen, 2016. "Cost-Effective Marine Protection - A Pragmatic Approach," PLOS ONE, Public Library of Science, vol. 11(1), pages 1-19, January.

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