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Production Sharing, Demand Spillovers And Co2 Emissions: The Case Of Chinese Regions In Global Value Chains

Author

Listed:
  • JIANSUO PEI

    (University of International Business and Economics, Beijing 100029, China)

  • BO MENG

    (#x2020;Institute of Developing Economies, IDE-JETRO, Tokyo, Japan)

  • FEI WANG

    (University of International Business and Economics, Beijing 100029, China)

  • JINJUN XUE

    (#x2021;Nagoya University, Nagoya, Japan)

  • ZHONGXIU ZHAO

    (University of International Business and Economics, Beijing 100029, China)

Abstract

Recent trade literature highlights production sharing among economies [Johnson, R and G Noguera (2012). Accounting for intermediates: Production sharing and trade in value added. Journal of International Economics, 86(2), 224–236), and some studies report that 20–25% of CO2 emissions can be attributed to international trade [Peters, G, J Minx, C Weber and O Edenhofer (2011). Growth in emission transfers via international trade from 1990 to 2008. Proceedings the National Academy of Sciences USA, 108(21), 8903–8908.]. However, the mechanism explaining how and to what extent production sharing affects CO2 emissions remains unclear. This study, as an extension of [Meng, B, J Xue, K Feng, D Guan and X Fu (2013a). China’s interregional spillover of carbon emissions and domestic supply chains. Energy Policy, 61, 1305–1321.], adopts the perspective of demand spillovers to provide new insights regarding the position of Chinese domestic-regions’ production in Global Value Chains (GVCs) and their associated CO2 emissions. To this end, we employed a new type of World Input-Output Database (WIOD) in which China’s domestic interregional input–output table for 2007 is endogenously embedded. The pattern of China’s regional demand spillovers across both domestic regions and countries is revealed by employing this new database. These results were then connected to endowments theory, which helps to make sense of the empirical results. It is found that China’s regions are located relatively upstream in GVCs, and had CO2 emissions in net exports, which were entirely predicted by the environmental extended Heckscher–Ohlin–Vanek (HOV) model. Our study points to micro policy instruments to combat climate change: for example, tax reform for energy inputs that helps to change the production pattern, which then has an impact on trade patterns and so forth.

Suggested Citation

  • Jiansuo Pei & Bo Meng & Fei Wang & Jinjun Xue & Zhongxiu Zhao, 2018. "Production Sharing, Demand Spillovers And Co2 Emissions: The Case Of Chinese Regions In Global Value Chains," The Singapore Economic Review (SER), World Scientific Publishing Co. Pte. Ltd., vol. 63(02), pages 275-293, March.
  • Handle: RePEc:wsi:serxxx:v:63:y:2018:i:02:n:s0217590817400112
    DOI: 10.1142/S0217590817400112
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    References listed on IDEAS

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    Cited by:

    1. Hertwich, Edgar, 2020. "Carbon fueling complex global value chains tripled in the period 1995-2012," SocArXiv zb3rh, Center for Open Science.
    2. Zhong, Jiarui & Pei, Jiansuo, 2022. "Beggar thy neighbor? On the competitiveness and welfare impacts of the EU's proposed carbon border adjustment mechanism," Energy Policy, Elsevier, vol. 162(C).
    3. Yan, Bingqian & Duan, Yuwan & Wang, Shouyang, 2020. "China’s emissions embodied in exports: How regional and trade heterogeneity matter," Energy Economics, Elsevier, vol. 87(C).
    4. Li, Meng & Gao, Yuning & Meng, Bo & Meng, Jing, 2023. "Tracing embodied energy use through global value chains: Channel decomposition and analysis of influential factors," Ecological Economics, Elsevier, vol. 208(C).
    5. Boya Zhang & Shukuan Bai & Yadong Ning & Tao Ding & Yan Zhang, 2020. "Emission Embodied in International Trade and Its Responsibility from the Perspective of Global Value Chain: Progress, Trends, and Challenges," Sustainability, MDPI, vol. 12(8), pages 1-26, April.
    6. Shi, Qiaoling & Shan, Yuli & Zhong, Chao & Cao, Ye & Xue, Rui, 2022. "How would GVCs participation affect carbon intensity in the “Belt and Road Initiative” countries?," Energy Economics, Elsevier, vol. 111(C).
    7. Hertwich, Edgar G., 2020. "Carbon fueling complex global value chains tripled in the period 1995–2012," Energy Economics, Elsevier, vol. 86(C).
    8. Ye, Chusheng & Ye, Qin & Shi, Xunpeng & Sun, Yongping, 2020. "Technology gap, global value chain and carbon intensity: Evidence from global manufacturing industries," Energy Policy, Elsevier, vol. 137(C).
    9. Yang, Bo & Liu, Baozhen & Peng, Jiachao & Liu, Xujun, 2022. "The impact of the embedded global value chain position on energy-biased technology progress: Evidence from chinas manufacturing," Technology in Society, Elsevier, vol. 71(C).
    10. Zhiheng Wu & Guisheng Hou & Baogui Xin, 2020. "The Causality between Participation in GVCs, Renewable Energy Consumption and CO 2 Emissions," Sustainability, MDPI, vol. 12(3), pages 1-26, February.
    11. Li, Meng & Gao, Yuning & Meng, Bo & Yang, Zhusong, 2021. "Managing the mitigation: Analysis of the effectiveness of target-based policies on China's provincial carbon emission and transfer," Energy Policy, Elsevier, vol. 151(C).
    12. Yan, Yunfeng & Wang, Ran & Zheng, Xiuxiu & Zhao, Zhongxiu, 2020. "Carbon endowment and trade-embodied carbon emissions in global value chains: Evidence from China," Applied Energy, Elsevier, vol. 277(C).

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