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Modeling the dynamics of nutrient limited consumer populations using constant elasticity production functions

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  • Mulder, Kenneth

Abstract

The marginal rate of technical substitution is a well-defined and important concept in economic production theory. It describes the ability of a firm to maintain levels of production while substituting one factor of production for another. Ecological stoichiometry has considered a similar problem—how organismal production is affected when incoming nutrients are not available in ideal proportions. However, the dominant models of analysis have assumed homeostatic nutrient ratios on the part of consumers. This is equivalent to fixed-factor production in economics with no substitutability. This work demonstrates how models of production from economic theory that incorporate factor substitutability provide a more realistic representation of consumer production under nutrient limitation. I demonstrate how economic analysis tools can be used to assess nutrient limited production. I also describe the changes in individual and systems dynamics as the ability to substitute carbon for another nutrient increases. In particular, substitution is shown to promote ecosystem resilience by broadening the threshold element ratio at which a nutrient becomes limiting.

Suggested Citation

  • Mulder, Kenneth, 2007. "Modeling the dynamics of nutrient limited consumer populations using constant elasticity production functions," Ecological Modelling, Elsevier, vol. 207(2), pages 319-326.
    • Handle: RePEc:eee:ecomod:v:207:y:2007:i:2:p:319-326
    DOI: 10.1016/j.ecolmodel.2007.05.009
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    References listed on IDEAS

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    1. Blackorby, Charles & Russell, R Robert, 1989. "Will the Real Elasticity of Substitution Please Stand Up? (A Comparison of the Allen/Uzawa and Morishima Elasticities)," American Economic Review, American Economic Association, vol. 79(4), pages 882-888, September.
    2. Ayres, Robert U., 2004. "On the life cycle metaphor: where ecology and economics diverge," Ecological Economics, Elsevier, vol. 48(4), pages 425-438, April.
    3. Tilman, David & Polasky, Stephen & Lehman, Clarence, 2005. "Diversity, productivity and temporal stability in the economies of humans and nature," Journal of Environmental Economics and Management, Elsevier, vol. 49(3), pages 405-426, May.
    4. Mulder, Kenneth & Bowden, William Breck, 2007. "Organismal stoichiometry and the adaptive advantage of variable nutrient use and production efficiency in Daphnia," Ecological Modelling, Elsevier, vol. 202(3), pages 427-440.
    5. Francis J. Cronin & Elisabeth Colleran & Mark Gold, 1997. "Telecommunications, Factor Substitution And Economic Growth," Contemporary Economic Policy, Western Economic Association International, vol. 15(3), pages 21-31, July.
    6. Daniel McFadden, 1963. "Constant Elasticity of Substitution Production Functions," The Review of Economic Studies, Review of Economic Studies Ltd, vol. 30(2), pages 73-83.
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    Cited by:

    1. Cédric L Meunier & Arne M Malzahn & Maarten Boersma, 2014. "A New Approach to Homeostatic Regulation: Towards a Unified View of Physiological and Ecological Concepts," PLOS ONE, Public Library of Science, vol. 9(9), pages 1-7, September.
    2. Wang, Hao & Lu, Zexian & Raghavan, Aditya, 2018. "Weak dynamical threshold for the “strict homeostasis” assumption in ecological stoichiometry," Ecological Modelling, Elsevier, vol. 384(C), pages 233-240.
    3. Wang, Hao & Sterner, Robert W. & Elser, James J., 2012. "On the “strict homeostasis” assumption in ecological stoichiometry," Ecological Modelling, Elsevier, vol. 243(C), pages 81-88.

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