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On Productivity: The Influence of Natural Resource Inputs

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  • Vernon Topp
  • Tony Kulys

Abstract

The production function underlying standard estimates of multifactor productivity (MFP)typically restricts the list of explicitly measured inputs to capital, labour and intermediate inputs (energy, materials and services). These inputs are measured in the national accounts, and in most industries are the most important or significant inputs to production. All other influences on output are captured by the MFP ‘residual.’ However in some industries – mining, agriculture, and utilities – output can also depend significantly on unmeasured inputs of natural resources. Rainfall in agriculture is an obvious example, but so too is the issue of mineral resource deposits in the mining sector, particularly where mining is a mature industry and the richest and most accessible deposits have already been developed. In this article we attribute a substantial part of recent large negative changes in MFP growth in the mining, agriculture and utilities industries in Australia to unmeasured natural resource input changes. As MFP growth estimates derived from the application of the usual production function are generally interpreted as measuring improvements in the ‘technology’ used to convert standard inputs into output, where there are significant changes in natural resource dependent industries this interpretation of MFP needs to be adjusted.

Suggested Citation

  • Vernon Topp & Tony Kulys, 2014. "On Productivity: The Influence of Natural Resource Inputs," International Productivity Monitor, Centre for the Study of Living Standards, vol. 27, pages 64-78, Fall.
    • Handle: RePEc:sls:ipmsls:v:27:y:2014:8
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    File URL: http://www.csls.ca/ipm/27/27-vttk.pdf
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    References listed on IDEAS

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    1. Fox, Kevin J. & Grafton, R. Quentin & Kirkley, James & Squires, Dale, 2003. "Property rights in a fishery: regulatory change and firm performance," Journal of Environmental Economics and Management, Elsevier, vol. 46(1), pages 156-177, July.
    2. Topp, Vernon & Kulys, Tony, 2012. "Productivity in Electricity, Gas and Water: Measurement and Interpretation," Staff Working Papers 121, Productivity Commission, Government of Australia.
    3. W. Erwin Diewert, 2001. "Which (Old) Ideas on Productivity Measurement Are Ready to Use?," NBER Chapters, in: New Developments in Productivity Analysis, pages 85-102, National Bureau of Economic Research, Inc.
    4. Murtough, Greg & Appels, David & Matysek, Anna & Lovell, C.A. Knox, 2001. "Greenhouse Gas Emissions and the Productivity Growth of Electricity Generators," Staff Research Papers 31917, Productivity Commission.
    5. P, Barnes, 2011. "Multifactor Productivity Growth Cycles at the Industry Level," Staff Working Papers 112, Productivity Commission, Government of Australia.
    6. Simon Zheng & Harry Bloch, 2014. "Australia’s mining productivity decline: implications for MFP measurement," Journal of Productivity Analysis, Springer, vol. 41(2), pages 201-212, April.
    Full references (including those not matched with items on IDEAS)

    Citations

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    Cited by:

    1. Evan Capeluck, 2016. "A Comparison of Australian and Canadian Productivity Performance: Lessons for Canada," CSLS Research Reports 2016-07, Centre for the Study of Living Standards.
    2. Alexander Murray, 2016. "Partial versus Total Factor Productivity: Assessing Resource Use in Natural Resource Industries in Canada," CSLS Research Reports 2016-20, Centre for the Study of Living Standards.
    3. Wulong Gu, 2018. "Accounting for Slower Productivity Growth in the Canadian Business Sector after 2000: The Role of Capital Measurement Issues," International Productivity Monitor, Centre for the Study of Living Standards, vol. 34, pages 21-39, Spring.
    4. Kevin Fox, 2018. "What Do We Know About the Productivity Slowdown? Evidence from Australian Industry Data," International Productivity Monitor, Centre for the Study of Living Standards, vol. 35, pages 149-156, Fall.
    5. Evan Capeluck, 2016. "A Comparison of Productivity Developments in Canada and Australia: Lessons for Canada," International Productivity Monitor, Centre for the Study of Living Standards, vol. 30, pages 43-63, Spring.
    6. Villena, Marcelo & Greve, Fernando, 2018. "On resource depletion and productivity: The case of the Chilean copper industry," Resources Policy, Elsevier, vol. 59(C), pages 553-562.
    7. Peter Howie & Zauresh Atakhanova, 2020. "Heterogeneous labor and structural change in low- and middle-income, resource-dependent countries," Economic Change and Restructuring, Springer, vol. 53(2), pages 297-332, May.

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    More about this item

    Keywords

    Multifactor Productivity; MFP; Energy; Materials; Services; Intermediate Inputs; National Accounts; Unmeasured Inputs; Mining; Agriculture; Utilities; Technology;
    All these keywords.

    JEL classification:

    • O47 - Economic Development, Innovation, Technological Change, and Growth - - Economic Growth and Aggregate Productivity - - - Empirical Studies of Economic Growth; Aggregate Productivity; Cross-Country Output Convergence
    • D24 - Microeconomics - - Production and Organizations - - - Production; Cost; Capital; Capital, Total Factor, and Multifactor Productivity; Capacity
    • O56 - Economic Development, Innovation, Technological Change, and Growth - - Economywide Country Studies - - - Oceania
    • Q19 - Agricultural and Natural Resource Economics; Environmental and Ecological Economics - - Agriculture - - - Other
    • Q29 - Agricultural and Natural Resource Economics; Environmental and Ecological Economics - - Renewable Resources and Conservation - - - Other
    • Q39 - Agricultural and Natural Resource Economics; Environmental and Ecological Economics - - Nonrenewable Resources and Conservation - - - Other
    • Q49 - Agricultural and Natural Resource Economics; Environmental and Ecological Economics - - Energy - - - Other

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