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Pathways to Mexico’s climate change mitigation targets: A multi-model analysis

Author

Listed:
  • Veysey, Jason
  • Octaviano, Claudia
  • Calvin, Katherine
  • Martinez, Sara Herreras
  • Kitous, Alban
  • McFarland, James
  • van der Zwaan, Bob

Abstract

Mexico’s climate policy sets ambitious national greenhouse gas (GHG) emission reduction targets—30% versus a business-as-usual baseline by 2020, 50% versus 2000 by 2050. However, these goals are at odds with recent energy and emission trends in the country. Both energy use and GHG emissions in Mexico have grown substantially over the last two decades. We investigate how Mexico might reverse current trends and reach its mitigation targets by exploring results from energy system and economic models involved in the CLIMACAP-LAMP project. To meet Mexico’s emission reduction targets, all modeling groups agree that decarbonization of electricity is needed, along with changes in the transport sector, either to more efficient vehicles or a combination of more efficient vehicles and lower carbon fuels. These measures reduce GHG emissions as well as emissions of other air pollutants. The models find different energy supply pathways, with some solutions based on renewable energy and others relying on biomass or fossil fuels with carbon capture and storage. The economy-wide costs of deep mitigation could range from 2% to 4% of GDP in 2030, and from 7% to 15% of GDP in 2050. Our results suggest that Mexico has some flexibility in designing deep mitigation strategies, and that technological options could allow Mexico to achieve its emission reduction targets, albeit at a cost to the country.

Suggested Citation

  • Veysey, Jason & Octaviano, Claudia & Calvin, Katherine & Martinez, Sara Herreras & Kitous, Alban & McFarland, James & van der Zwaan, Bob, 2016. "Pathways to Mexico’s climate change mitigation targets: A multi-model analysis," Energy Economics, Elsevier, vol. 56(C), pages 587-599.
    • Handle: RePEc:eee:eneeco:v:56:y:2016:i:c:p:587-599
    DOI: 10.1016/j.eneco.2015.04.011
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    Citations

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    Cited by:

    1. Octaviano, Claudia & Paltsev, Sergey & Gurgel, Angelo Costa, 2016. "Climate change policy in Brazil and Mexico: Results from the MIT EPPA model," Energy Economics, Elsevier, vol. 56(C), pages 600-614.
    2. Castellanos, Sergio & Santibañez-Aguilar, José E. & Shapiro, Benjamin B. & Powell, Douglas M. & Peters, Ian M. & Buonassisi, Tonio & Kammen, Daniel M. & Flores-Tlacuahuac, Antonio, 2018. "Sustainable silicon photovoltaics manufacturing in a global market: A techno-economic, tariff and transportation framework," Applied Energy, Elsevier, vol. 212(C), pages 704-719.
    3. Lomborg, Bjorn, 2020. "Welfare in the 21st century: Increasing development, reducing inequality, the impact of climate change, and the cost of climate policies," Technological Forecasting and Social Change, Elsevier, vol. 156(C).
    4. van der Zwaan, Bob & Kober, Tom & Calderon, Silvia & Clarke, Leon & Daenzer, Katie & Kitous, Alban & Labriet, Maryse & Lucena, André F.P. & Octaviano, Claudia & Di Sbroiavacca, Nicolas, 2016. "Energy technology roll-out for climate change mitigation: A multi-model study for Latin America," Energy Economics, Elsevier, vol. 56(C), pages 526-542.
    5. Barragán-Beaud, Camila & Pizarro-Alonso, Amalia & Xylia, Maria & Syri, Sanna & Silveira, Semida, 2018. "Carbon tax or emissions trading? An analysis of economic and political feasibility of policy mechanisms for greenhouse gas emissions reduction in the Mexican power sector," Energy Policy, Elsevier, vol. 122(C), pages 287-299.
    6. Santibañez-Aguilar, José Ezequiel & Castellanos, Sergio & Flores-Tlacuahuac, Antonio & Shapiro, Benjamin B. & Powell, Douglas M. & Buonassisi, Tonio & Kammen, Daniel M., 2020. "Design of domestic photovoltaics manufacturing systems under global constraints and uncertainty," Renewable Energy, Elsevier, vol. 148(C), pages 1174-1189.
    7. Antonio Rodríguez-Martínez & Yolanda Lechón & Helena Cabal & David Castrejón & Marco Polo Flores & R.J. Romero, 2018. "Consequences of the National Energy Strategy in the Mexican Energy System: Analyzing Strategic Indicators with an Optimization Energy Model," Energies, MDPI, vol. 11(10), pages 1-19, October.
    8. José Maria Valenzuela & Isabel Studer, 2016. "Climate change policy and power sector reform in Mexico under the 'golden age of gas'," WIDER Working Paper Series 033, World Institute for Development Economic Research (UNU-WIDER).
    9. Zheng, Jiali & Duan, Hongbo & Zhou, Sheng & Wang, Shouyang & Gao, Ji & Jiang, Kejun & Gao, Shuo, 2021. "Limiting global warming to below 1.5 °C from 2 °C: An energy-system-based multi-model analysis for China," Energy Economics, Elsevier, vol. 100(C).
    10. Heleen van Soest & Lara Aleluia Reis & Detlef van Vuuren & Christoph Bertram & Laurent Drouet & Jessica Jewell & Elmar Kriegler & Gunnar Luderer & Keywan Riahi & Joeri Rogelj & Massimo Tavoni & Michel, 2015. "Regional Low-Emission Pathways from Global Models," Working Papers 2015.110, Fondazione Eni Enrico Mattei.
    11. Kober, Tom & Summerton, Philip & Pollitt, Hector & Chewpreecha, Unnada & Ren, Xiaolin & Wills, William & Octaviano, Claudia & McFarland, James & Beach, Robert & Cai, Yongxia & Calderon, Silvia & Fishe, 2016. "Macroeconomic impacts of climate change mitigation in Latin America: A cross-model comparison," Energy Economics, Elsevier, vol. 56(C), pages 625-636.
    12. Heleen L. van Soest & Lara Aleluia Reis & Laurent Drouet & Detlef P. van Vuuren & Michel G. J. den Elzen & Massimo Tavoni & Keigo Akimoto & Katherine V. Calvin & Panagiotis Fragkos & Alban Kitous & Gu, 2017. "Low-emission pathways in 11 major economies: comparison of cost-optimal pathways and Paris climate proposals," Climatic Change, Springer, vol. 142(3), pages 491-504, June.
    13. van Ruijven, Bas J. & Daenzer, Katie & Fisher-Vanden, Karen & Kober, Tom & Paltsev, Sergey & Beach, Robert H. & Calderon, Silvia Liliana & Calvin, Kate & Labriet, Maryse & Kitous, Alban & Lucena, Andr, 2016. "Baseline projections for Latin America: base-year assumptions, key drivers and greenhouse emissions," Energy Economics, Elsevier, vol. 56(C), pages 499-512.
    14. Felder, F.A. & Kumar, P., 2021. "A review of existing deep decarbonization models and their potential in policymaking," Renewable and Sustainable Energy Reviews, Elsevier, vol. 152(C).
    15. Postic, Sebastien & Selosse, Sandrine & Maïzi, Nadia, 2017. "Energy contribution to Latin American INDCs: Analyzing sub-regional trends with a TIMES model," Energy Policy, Elsevier, vol. 101(C), pages 170-184.
    16. Liliana Proskuryakova & Georgy Ermolenko, 2022. "Decarbonization Prospects in the Commonwealth of Independent States," Energies, MDPI, vol. 15(6), pages 1-16, March.

    More about this item

    Keywords

    Climate policy; Mexico; Modeling; Mitigation; Mitigation pathway;
    All these keywords.

    JEL classification:

    • C61 - Mathematical and Quantitative Methods - - Mathematical Methods; Programming Models; Mathematical and Simulation Modeling - - - Optimization Techniques; Programming Models; Dynamic Analysis
    • Q41 - Agricultural and Natural Resource Economics; Environmental and Ecological Economics - - Energy - - - Demand and Supply; Prices
    • Q42 - Agricultural and Natural Resource Economics; Environmental and Ecological Economics - - Energy - - - Alternative Energy Sources
    • Q43 - Agricultural and Natural Resource Economics; Environmental and Ecological Economics - - Energy - - - Energy and the Macroeconomy
    • Q47 - Agricultural and Natural Resource Economics; Environmental and Ecological Economics - - Energy - - - Energy Forecasting
    • Q48 - Agricultural and Natural Resource Economics; Environmental and Ecological Economics - - Energy - - - Government Policy

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