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TECHNOLOGICAL SOURCES OF PRODUCTIVITY GROWTH IN GERMANY, JAPAN, AND THE UNITED STATES

Published online by Cambridge University Press:  04 October 2010

Jesús Rodríguez-López  and
José L. Torres
Jesús Rodríguez-López*
Affiliation:
Universidad Pablo de Olavide
José L. Torres
Affiliation:
Universidad de Málaga
*
Address correspondence to: Jesús Rodríguez-López, Department of Economics, Universidad Pablo de Olavide, Ctra Utrera, 1, 41013 Sevilla, Spain; e-mail: [email protected].
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Abstract

In this paper we use a dynamic general equilibrium growth model to quantify the contribution to productivity growth from different technological sources in the three leading economies of the world: Germany, Japan, and the United States. The sources of technology are classified into neutral progress and investment-specific progress. The latter can be split into two different types of equipment: information and communication technologies (ICT) and non-ICT equipment. We find that in the long run, neutral technological change is the main source of productivity growth in Germany and Japan. For the United States, the main source of productivity growth arises from investment-specific technological change, mainly associated with ICT. We also find that a non-negligible part of productivity growth in the three countries has been due to the technology specific to non-ICT equipment.

Keywords

Productivity GrowthInvestment-Specific ProgressNeutral ProgressInformation and Communication Technology
Type
Articles
Information
Macroeconomic Dynamics , Volume 16 , Issue 1 , February 2012 , pp. 133 - 150
Copyright
Copyright © Cambridge University Press 2010

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References

REFERENCES

Basu, S., Fernald, J., Oulton, N., and Srinivasan, S. (2003) The case of the missing productivity growth, or does information technology explain why productivity accelerated in the United States but not in the United Kingdom? NBER Macroeconomics Annual 18, 963.CrossRefGoogle Scholar
Boscá, J., García, J., and Taguas, D. (2008) Taxation in the OECD: 1965–2004. Working paper, Ministerio de Economía y Hacienda, Spain.Google Scholar
Braun, R. and Shioji, E. (2007) Investment specific technological changes in Japan. Seoul Journal of Economics 20 (1), 165199.Google Scholar
Colecchia, A. and Schreyer, P. (2002) ICT investment and economic growth in the 1990's: Is the United States a unique case? A comparative study of nine OECD countries. Review of Economic Dynamics 5 (2), 408442.CrossRefGoogle Scholar
Cummins, J.G. and Violante, G.L. (2002) Investment-specific technical change in the U.S. (1947–2000): Measurement and macroeconomic consequences. Review of Economic Dynamic 5, 243284.CrossRefGoogle Scholar
Fueki, T. and Kawamoto, T. (2009) Does information technology raise Japan's productivity? Japan and the World Economy 21 (4), 325336.CrossRefGoogle Scholar
Gollin, D. (2002) Getting income shares right. Journal of Political Economy 110, 458474.CrossRefGoogle Scholar
Gordon, R. (1990) The Measurement of Durable Goods Prices. Chicago: University of Chicago Press.CrossRefGoogle Scholar
Gort, M., Greenwood, J., and Rupert, P. (1999) Measuring the rate of technological progress in structures. Review of Economic Dynamics 2 (1), 207230.CrossRefGoogle Scholar
Greenwood, J., Hercowitz, Z., and Krusell, P. (1997) Long-run implication of investment-specific technological change. American Economic Review 87, 342362.Google Scholar
Greenwood, J. and Krusell, P. (2007) Growth accounting with investment-specific technological progress: A discussion of two approaches. Journal of Monetary Economics 54, 13001310.CrossRefGoogle Scholar
Hayashi, F. and Prescott, E. (2002) The 1990s in Japan: A lost decade. Review of Economic Dynamics 5, 206235.CrossRefGoogle Scholar
Hercowitz, Z. (1998) The ‘embodiment’ controversy: A review essay. Journal of Monetary Economics 41, 217224.CrossRefGoogle Scholar
Hulten, C. (1992) Growth accounting when technical change is embodied in capital. American Economic Review 82, 964980.Google Scholar
Jorgenson, D. W. (1966) The embodiment hypothesis. Journal of Political Economy 74 (1), 117.CrossRefGoogle Scholar
Jorgenson, D. W. (2001) Information technology and the U.S. economy. American Economic Review 91, 132.CrossRefGoogle Scholar
Jorgenson, D. W. and Motohashi, K. (2005) Information technology and the Japanese economy. Journal of the Japanese and International Economies 19, 460481.CrossRefGoogle Scholar
Jorgenson, D. and Stiroh, K. J. (2000) Raising the speed limit: U.S. economic growth in the information age. Brooking Papers on Economic Activity 1, 125211.CrossRefGoogle Scholar
Martínez, D., Rodríguez, J., and Torres, J. L. (2008) The productivity paradox and the new economy: The Spanish case. Journal of Macroeconomics 30 (4), 11691186.CrossRefGoogle Scholar
Mendoza, E., Razin, A., and Tesar, L. (1994) Effective tax rates in macroeconomics. Cross-country estimated of tax rates on factor incomes and consumption. Journal of Monetary Economics 34, 297323.CrossRefGoogle Scholar
Oulton, N. (2007) Investment-specific technological change and growth accounting. Journal of Monetary Economics 54, 12901299.CrossRefGoogle Scholar
Pakko, Michael R. (2005) Changing technology trends, transition dynamics, and growth accounting. B.E. Journal of Macroeconomics, Contributions 5 (1), Article 12.Google Scholar
Schreyer, P. (2002) Computer price indices and international growth and productivity comparisons. Review of Income and Wealth 48 (1), 1531.CrossRefGoogle Scholar
Solow, R. (1956) A contribution to the theory of economic growth. Quarterly Journal of Economics 70, 6594.CrossRefGoogle Scholar
Timmer, M. and van Ark, B. (2005) Does information and communication technology drive EU–US productivity growth differentials? Oxford Economic Papers 57, 693716.CrossRefGoogle Scholar
Whelan, K. (2002) A guide to U.S. chain aggregated NIPA data. Review of Income and Wealth 48 (2), 217233.CrossRefGoogle Scholar