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ICT intermediates and productivity spillovers - Evidence from German and US manufacturing sectors

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  • Strobel, Thomas

Abstract

Recent pre-crisis growth accounting exercises attribute productivity growth accelerations to investments in information and communication technologies (ICT). Stylized facts about a growing US-EU productivity gap are confirmed for Germany, particularly showing no substantially economy-wide ICT effects for German sectors. Tracing the effect from ICT during 1991-2005, this study takes a different view by expanding the value-added concept to gross output including different types of intermediate inputs. The findings suggest that imported intermediate inputs played a more dominating role in Germany, particularly imported non-ICT and ICT materials. In the US, main drivers were domestically-produced non-ICT services and ICT materials, even though imported ICT materials were on the upraise post 1995. Moreover, German TFP growth experienced increasing returns to scale from domestically-produced ICT materials, while US TFP growth originated from imported ICT materials. It will be argued that these different productivity effects stem from different functions of ICT in the production process, which originated in the ICT-production sectors and were passed on to downstream sectors. (C) 2016 Published by Elsevier B.V.

Suggested Citation

  • Strobel, Thomas, 2016. "ICT intermediates and productivity spillovers - Evidence from German and US manufacturing sectors," Munich Reprints in Economics 43489, University of Munich, Department of Economics.
  • Handle: RePEc:lmu:muenar:43489
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    Cited by:

    1. Orea, Luis & Álvarez, Inmaculada C., 2019. "Spatial Production Economics," Efficiency Series Papers 2019/06, University of Oviedo, Department of Economics, Oviedo Efficiency Group (OEG).
    2. Xu, Qiong & Zhong, Meirui & Li, Xin, 2022. "How does digitalization affect energy? International evidence," Energy Economics, Elsevier, vol. 107(C).
    3. Shahnazi, Rouhollah, 2021. "Do information and communications technology spillovers affect labor productivity?," Structural Change and Economic Dynamics, Elsevier, vol. 59(C), pages 342-359.
    4. Bart van Ark & Klaas de Vries & Abdul Erumban, 2024. "Are Intangibles Running out of Steam?," International Productivity Monitor, Centre for the Study of Living Standards, vol. 46, pages 38-59, Spring.
    5. Wang, Lianghu & Shao, Jun, 2023. "Digital economy, entrepreneurship and energy efficiency," Energy, Elsevier, vol. 269(C).
    6. Sawng, Yeong-wha & Kim, Pang-ryong & Park, JiYoung, 2021. "ICT investment and GDP growth: Causality analysis for the case of Korea," Telecommunications Policy, Elsevier, vol. 45(7).
    7. Hidemichi Fujii & Akihiko Shinozaki & Shigemi Kagawa & Shunsuke Managi, 2019. "How Does Information and Communication Technology Capital Affect Productivity in the Energy Sector? New Evidence from 14 Countries, Considering the Transition to Renewable Energy Systems," Energies, MDPI, vol. 12(9), pages 1-16, May.
    8. Elstner, Steffen & Grimme, Christian & Kecht, Valentin & Lehmann, Robert, 2022. "The diffusion of technological progress in ICT," European Economic Review, Elsevier, vol. 149(C).
    9. Lin, Boqiang & Huang, Chenchen, 2023. "How will promoting the digital economy affect electricity intensity?," Energy Policy, Elsevier, vol. 173(C).
    10. Ma, Jinjin & Yang, Lin & Wang, Donghan & Li, Yiming & Xie, Zuomiao & Lv, Haodong & Woo, Donghyup, 2024. "Digitalization in response to carbon neutrality: Mechanisms, effects and prospects," Renewable and Sustainable Energy Reviews, Elsevier, vol. 191(C).
    11. Wenfei Song & Xianfeng Han, 2024. "Does the digital economy contribute to China’s energy transition?," Economic Change and Restructuring, Springer, vol. 57(5), pages 1-25, October.

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