Английская Википедия:Climate commitment

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Файл:1979- Radiative forcing - climate change - global warming - EPA NOAA.svg
The ongoing buildup of long-lived greenhouse gases in Earth's atmosphere, whose warming influence has nearly doubled since 1979, shows mankind's influence on the global climate.[1][2][3]

Climate commitment describes the fact that Earth's climate reacts with a delay to influencing factors ("climate forcings") such as the growth and the greater presence of greenhouse gases. Climate commitment studies attempt to assess the amount of future global warming that is "committed" under the assumption of some constant or some evolving level of forcing. The constant level often used for illustrative purposes is that due to [[carbon dioxide|Шаблон:CO2]] doubling or quadrupling relative to the pre-industrial level; or the present level of forcing.

Definition

Climate commitment is the "unavoidable future climate change resulting from inertia in the geophysical and socio-economic systems".[4] Different types of climate change commitment are discussed in the literature. These include the "constant composition commitment"; the "constant emissions commitment" and the "zero emissions commitment".[4]Шаблон:Rp

Basic idea

Файл:Earth's Heat Accumulation.png
The accumulation of excess heat in the ocean, at ever greater depths, measures global warming that has already become "irreversible" in the near term[5]

If a perturbation — such as an increase in greenhouse gases or solar activity — is applied to Earth's climate system the response will not be immediate, principally because of the large heat capacity (i.e., thermal inertia) of the oceans.[6]

As an analogue, consider the heating of a thin metal plate (by the sun or by a flame): the plate will warm relatively quickly. If a thick metal block is heated instead, it will take much longer for the entire block to reach equilibrium with the imposed heating because of its higher heat capacity.

Land only stores heat in the top few meters. Ocean water, by contrast, can move vertically and store heat within the ocean's depth (convection). This is why the land surface is observed to warm more than the oceans. It also explains the very large difference in response between

  • "equilibrium" climate prediction runs in which only a shallow ocean is used and it is assumed that the climate has come to equilibrium and
  • "transient" climate prediction runs in which a full ocean is used and the climate is out of balance.

The "commitment" can apply to variables other than temperature: because of the long mixing time for heat into the deep ocean, a given surface warming commits to centuries of sea level rise from thermal expansion of the ocean. Also once a certain threshold is crossed, it is likely that a slow melting of the Greenland ice sheet will commit us to a sea level rise of 5m over millennia.

Models

Шаблон:Main Recent models forecast that even in the unlikely event of greenhouse gases stabilizing at present levels, the Earth would warm by an additional 0.5°C by 2100, a similar rise in temperature to that seen during the 20th century. In 2050, as much as 64% of that commitment would be due to past natural forcings. Over time, their contribution compared to the human influence will diminish. Overall, the warming commitment at 2005 greenhouse gas levels could exceed 1°C.[7] As ocean waters expand in response to this warming, global sea levels would mount by about 10 centimeters during that time. These models do not take into account ice cap and glacier melting; including those climate feedback effects would give a 1–1.5°C estimated temperature increase.[8]

History

The concept has been discussed as far back as 1995 in the IPCC TAR [1] and in the SAR.

See also

References

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Шаблон:Refend Шаблон:Reflist

External links

Шаблон:Global warming

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Разное

  1. Шаблон:Cite web
  2. Шаблон:Cite web
  3. Шаблон:Cite web
  4. 4,0 4,1 IPCC, 2021: Annex VII: Glossary [Matthews, J.B.R., V. Möller, R. van Diemen, J.S. Fuglestvedt, V. Masson-Delmotte, C.  Méndez, S. Semenov, A. Reisinger (eds.)]. In Climate Change 2021: The Physical Science Basis. Contribution of Working Group I to the Sixth Assessment Report of the Intergovernmental Panel on Climate Change [Masson-Delmotte, V., P. Zhai, A. Pirani, S.L. Connors, C. Péan, S. Berger, N. Caud, Y. Chen, L. Goldfarb, M.I. Gomis, M. Huang, K. Leitzell, E. Lonnoy, J.B.R. Matthews, T.K. Maycock, T. Waterfield, O. Yelekçi, R. Yu, and B. Zhou (eds.)]. Cambridge University Press, Cambridge, United Kingdom and New York, NY, USA, pp. 2215–2256, doi:10.1017/9781009157896.022.
  5. Шаблон:Cite journal
  6. Шаблон:Cite journal
  7. Шаблон:Cite journal
  8. Шаблон:Cite journal
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