Climate Action

Living Edition
| Editors: Walter Leal Filho, Ulisses Azeiteiro, Anabela Marisa Azul, Luciana Brandli, Pinar Gökcin Özuyar, Tony Wall

Climate Change Mitigation

  • Isabella AlloisioEmail author
  • Simone Borghesi
Living reference work entry
DOI: https://doi.org/10.1007/978-3-319-71063-1_18-1

Definition

Climate change mitigation refers to actions to reduce or prevent emissions of greenhouse gases (GHG) causing human-induced climate change. Mitigation can be reached by using new technologies, fostering renewable energies, making older energy systems more efficient, or changing management practices or consumer behavior. According to the Intergovernmental Panel on Climate Change (IPCC 2014), mitigation can be defined as “the effort to control the human sources of climate change and their cumulative impacts, notably the emission of GHGs and other pollutants, such as black carbon particles, that also affect the planet’s energy balance. Mitigation also includes efforts to enhance the processes that remove GHGs from the atmosphere, known as sinks.”

Climate change is a modification in the statistical distribution of weather patterns that lasts for an extended period of time. Climate change may refer to an alteration in average weather conditions or in the time variation of weather...

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References

  1. Aldy J, Stavins R (2007) Architectures for agreement: addressing global climate change in the post-Kyoto world. Cambridge University Press, New York. ISBN:978-0-521-87163-1CrossRefGoogle Scholar
  2. Alloisio I (2012) Policy drivers of photovoltaic industry growth in California, Germany and Japan. FreeBook Edizioni Ambiente, Milan. ISBN:978-88-6627-076-8Google Scholar
  3. Bosetti V, Carraro C, Massetti E, Tavoni M (eds) (2014) Climate change mitigation, technological innovation and adaptation: a new perspective on climate policy. Edward Elgar Publishing, Cheltenham. ISBN:978 1 84980 949 8Google Scholar
  4. European Commission (2015) Energy Union Package. Communication from the Commission to the European Parliament, the Council, the European Economic and Social Committee, the Committee of the Regions and the European Investment Bank. A Framework Strategy for a Resilient Energy Union with a Forward-Looking Climate Change Policy, COM(2015) 80 final, 25 Feb 2015Google Scholar
  5. EEX (2018) European Energy Exchange AG. https://www.eex.com/en/. Accessed on 15 Dec 2018
  6. European Parliament and Council (2018) Directive EU/2018/410 amending directive 2003/87/EC to enhance cost-effective emission reductions and low-carbon investments, and Decision (EU) 2015/1814, 14 Mar 2018, BrusselsGoogle Scholar
  7. Filippini M, Hunt L (2011) Energy demand and energy efficiency in the OECD countries: a stochastic demand frontier approach. Energy J 32(2):59–80CrossRefGoogle Scholar
  8. Gronwald M, Hintermann B (2015) Emissions trading system as a policy instrument: evaluation and prospects. MIT, Cambridge. ISBN:978–0–262-02928-5CrossRefGoogle Scholar
  9. IAEA (2013) Energy, electricity and nuclear power estimate for the period up to 2050. IAEA, ViennaGoogle Scholar
  10. ICAP (2018) Emissions trading worldwide: Status report 2018. International Carbon Action Partnership (ICAP), BerlinGoogle Scholar
  11. IEA (2015) Energy and climate change. World energy outlook special report OECD/IEA, ParisGoogle Scholar
  12. IPCC (2008) Climate change and water. Technical paper VI. Bates B, Kundzewicz ZW, Wu S, Palutikof J (eds)Google Scholar
  13. IPCC (2012) Special report of the IPCC on renewable energy sources and climate change mitigation. Prepared by working group III of the intergovernmental panel on climate change. Edenhofer O, Pichs-Madruga R, Sokona Y, Seyboth K, Matschoss P, Kadner S, Zwickel T, Eickemeier P, Hansen G, Schlömer S, von Stechow C (eds). Cambridge University Press, New York . ISBN:978-1-107-02340-6Google Scholar
  14. IPCC (2014) Climate change 2014: mitigation of climate change. Contribution of working group III to the fifth assessment report of the intergovernmental panel on climate change. Edenhofer O, Pichs-Madruga R, Sokona Y, Farahani E, Kadner S, Seyboth K, Adler A, Baum I, Brunner S, Eickemeier P, Kriemann B, Savolainen J, Schlömer S, von Stechow C, Zwickel T, Minx JC (eds). Cambridge University Press, New York . ISBN:978-1-107-05821-7Google Scholar
  15. IRENA (2018) Renewable capacity statistics 2018. IRENA, Abu Dhabi. ISBN:978-92-9260-057-0Google Scholar
  16. Jaffe J, Stavins R (2009) Linkage of tradable permit systems in international climate policy architecture. In: Aldy J, Stavins R (eds) Post-Kyoto international climate policy: implementing architectures for agreement. Cambridge University Press, New York. ISBN:9780521137850Google Scholar
  17. Marcu A (2016) Carbon market provisions in the Paris agreement (Article 6). CEPS Special Report, No. 128/Jan 2016, BrusselsGoogle Scholar
  18. Nakićenović N, Gilli PV, Kurz R (1996) Regional and global exergy and energy efficiencies. Energy 21(3):223–237CrossRefGoogle Scholar
  19. Neuhoff K (2005) Large scale deployment of renewables for electricity generation. Oxford Rev Econ Policy 21(1):88–110 SpringCrossRefGoogle Scholar
  20. Sachs DJ (2015) The age of sustainable development. Columbia University Press, New York. ISBN:978-0-231-17314-8CrossRefGoogle Scholar
  21. Stern D (2012) Modeling international trends in energy efficiency. Energy Econ 34(6):2220–2208CrossRefGoogle Scholar
  22. Stickler M, Alfredsen KT (2009) Anchor ice formation in streams: a field study. Hydrol Process 23:2307–2315CrossRefGoogle Scholar
  23. UN (1987) Our common future: report of the world commission on environment and development (Brundtland report), A/42/427, general assembly resolution. United Nations, New YorkGoogle Scholar
  24. UN (2015) Transforming our world: the 2030 agenda for sustainable development. A/RES/70/1, General Assembly Resolution. United Nations, New YorkGoogle Scholar
  25. UNFCCC (2015) The Paris agreement. United Nations Framework Convention on Climate Change, BonnGoogle Scholar

Copyright information

© Springer Nature Switzerland AG 2019

Authors and Affiliations

  1. 1.Florence School of Regulation Climate, Robert Schuman Centre for Advanced StudiesEuropean University InstituteFlorenceItaly

Section editors and affiliations

  • Federica Doni

There are no affiliations available