Attribution of recent climate change 

Further information: Global warmingClimate change, and Climate change denial

Attribution of recent climate change is the effort to scientifically ascertain mechanisms responsible for relatively recent changes observed in the Earth's climate. The effort has focused on changes observed during the period of instrumental temperature record, when records are most reliable; particularly on the last 50 years, when human activity has grown fastest and observations of the upper atmosphere have become available. The dominant mechanisms to which recent climate change has been attributed all result from human activity. They are:[1]

Recent reports from the Intergovernmental Panel on Climate Change (IPCC) report have concluded that:

The panel, which represents consensus in the scientific community, defines "very likely," "extremely likely," and "virtually certain" as indicating probabilities greater than 90%, 95%, and 99%, respectively.[1]

Contents

Key attributions

Greenhouse gases

Scientific consensus has identified carbon dioxide as the dominant greenhouse gas forcing. (The dominant greenhouse gas overall is water vapor. Water vapor, however, has a very short atmospheric lifetime (about 10 days) and is very nearly in a dynamic equilibrium in the atmosphere, so it is not a forcing gas in the context of global warming.[3]) Methane and nitrous oxide are also major forcing contributors to the greenhouse effect. The Kyoto Protocol lists these together with Hydrofluorocarbons (HFCs), Perfluorocarbons (PFCs), and Sulphur hexafluoride (SF6),[4] which are entirely artificial (i.e. anthropogenic) gases which also contribute to radiative forcing in the atmosphere. The chart at right attributes anthropogenic greenhouse gas emissions to eight main economic sectors, of which the largest contributors are power stations (many of which burn coal or other fossil fuels), industrial processes (among which cement production is a dominant contributor[5]), transportation fuels (generally fossil fuels), and agricultural by-products (mainly methane from enteric fermentation and nitrous oxide from fertilizer use).

Land use

Climate change is attributed to land use for two main reasons. While 66% of anthropogenic CO2 emissions over the last 250 years have resulted from burning fossil fuels, 33% have resulted from changes in land use, primarily deforestation.[5] Deforestation both reduces the amount of carbon dioxide absorbed by deforested regions and releases greenhouse gases directly, together with aerosols, through biomass burning that frequently accompanies it. A second reason that climate change has been attributed to land use is that the terrestrial albedo is often altered by use, which leads to radiative forcing. This effect is more significant locally than globally.[5]

Livestock and land use

Worldwide, livestock production occupies 70% of all land used for agriculture, or 30% of the ice-free land surface of the Earth.[6] Scientists attribute more than 18% of anthropogenic greenhouse gas emissions to livestock and livestock-related activities such as deforestation and increasingly fuel-intensive farming practices.[6] Specific attributions to the livestock sector include:

Aerosols

With virtual certainty, scientific consensus has attributed various forms of climate change, chiefly cooling effects, to aerosols, which are small particles or droplets suspended in the atmosphere.[7] Key sources to which anthropogenic aerosols are attributed[8] include:

Attribution of 20th century climate change

IPCC
Assessment reports:
First (1990)
1992 sup.
Second (1995)
Third (2001)
Fourth (2007)
UNFCCC | WMO | UNEP
One global climate model's reconstruction of temperature change during the 20th century as the result of five studied forcing factors and the amount of temperature change attributed to each.
One global climate model's reconstruction of temperature change during the 20th century as the result of five studied forcing factors and the amount of temperature change attributed to each.

Over the past 150 years human activities have released increasing quantities of greenhouse gases into the atmosphere. This has led to increases in mean global temperature, or global warming. Other human effects are relevant—for example, sulphate aerosols are believed to lead to cooling—and natural factors also contribute. According to the historical temperature record of the last century, the Earth's near-surface air temperature has risen around 0.74 ± 0.18 °Celsius (1.3 ± 0.32 °Fahrenheit).

A historically important question in climate change research has regarded the relative importance of human activity and non-anthropogenic causes during the period of instrumental record. In the 1995 Second Assessment Report (SAR), the IPCC made the widely-quoted statement that "The balance of evidence suggests a discernible human influence on global climate". The phrase "balance of evidence" suggested the (English) common-law standard of proof required in civil as opposed to criminal courts: not as high as "beyond reasonable doubt". In 2001 the Third Assessment Report (TAR) refined this, saying "There is new and stronger evidence that most of the warming observed over the last 50 years is attributable to human activities".[9] The 2007 fourth assessment report (WG1 AR4) strengthened this finding:

Over the past five decades there has been a global warming of approximately 0.65 °C (1.17 °F) at the Earth's surface (see historical temperature record). Among the possible factors that could produce changes in global mean temperature are internal variability of the climate system, external forcing, an increase in concentration of greenhouse gases, or any combination of these. Current studies indicate that the increase in greenhouse gases, most notably CO2, is mostly responsible for the observed warming. Evidence for this conclusion includes:

In 2001, the U.S. National Academy of Sciences released a report supporting the IPCC’s conclusions regarding the causes of recent climate change. It stated, "Greenhouse gases are accumulating in Earth’s atmosphere as a result of human activities, causing surface air temperatures and subsurface ocean temperatures to rise. Temperatures are, in fact, rising. The changes observed over the last several decades are likely mostly due to human activities, but we cannot rule out that some significant part of these changes are also a reflection of natural variability."[13][14][15]

Detection vs. attribution

Per capita greenhouse gas emissions by country including land-use change
Per capita greenhouse gas emissions by country including land-use change

Detection and attribution of climate signals, as well as its common-sense meaning, has a more precise definition within the climate change literature, as expressed by the IPCC[16].

Detection of a signal requires demonstrating that an observed change is statistically significantly different from that which can be explained by natural internal variability.

Attribution requires demonstrating that a signal is:

Detection does not imply attribution, and is easier than attribution. Unequivocal attribution would require controlled experiments with multiple copies of the climate system, which is not possible. Attribution, as described above, can therefore only be done within some margin of error. For example, the IPCC's Fourth Assessment Report says "it is extremely likely that human activities have exerted a substantial net warming influence on climate since 1750," where "extremely likely" indicates a probability greater than 95%.[1]

Following the publication of the Third Assessment Report (TAR) in 2001, "detection and attribution" of climate change has remained an active area of research. Some important results include:

Scientific literature and opinion

Main article: Scientific opinion on climate change

Some examples of published and informal support for the consensus view:

Some scientists do disagree with the consensus: see list of scientists opposing global warming consensus. For example Willie Soon and Richard Lindzen[26] say that there is insufficient proof for anthropogenic attribution. Generally this position requires new physical mechanisms to explain the observed warming; for example "Climate hypersensitivity to solar forcing?", Soon W et al., 2000, Annales Geophysicae-Atmospheres Hydrospheres and Space Sciences 18(5).

Findings that complicate attribution to CO2

Warming sometimes leads CO2 increases

Factors other than increased CO2 concentrations can initiate warming or cooling episodes (see e.g., orbital forcing). The ice core record shows that on some occasions temperature starts rising hundreds of years before CO2 increases.[27][28] Such results confirm that the relationship between CO2 and climate can go in both directions: changes in CO2 concentrations affect climate, while changes in climate can affect CO2 concentrations. One proposed mechanism for this effect is increased release of sequestered CO2 from oceans as circulation patterns shift, perhaps abruptly, in response to climate change.[29][30]

A more speculative and polemical inference sometimes drawn is that the causal relationship between temperature rises and global CO2 concentrations is only one-way, so that historical increases in CO2 have been nothing more than the product of independently rising temperatures.[31] However, a strictly "one-way" view of the relationship between CO2 and temperature contradicts basic results in physics, specifically the fact that the absorption and emission of infrared radiation by CO2 increases as its atmospheric concentration increases.[32][33]

First principles as well as empirical observation suggest that positive feedbacks from CO2 concentrations amplify warming initially caused by other factors:

Close analysis of the relationship between the two curves [i.e., temperature and CO2 shows that, within the uncertainties of matching their timescales, the temperature led by a few centuries. This is expected, since it was changes in the Earth’s orbital parameters (including the shape of its orbit around the Sun, and the tilt of Earth’s axis) that caused the small initial temperature rise. This then raised atmospheric CO2 levels, in part by outgassing from the oceans, causing the temperature to rise further. By amplifying each other’s response, this “positive feedback” can turn a small initial perturbation into a large climate change. There is therefore no surprise that the temperature and CO2 rose in parallel, with the temperature initially in advance. In the current case, the situation is different, because human actions are raising the CO2 level, and we are starting to observe the temperature response.[34]

Present CO2 levels greatly exceed the range found in the ice core data. Isotopic analysis of atmospheric CO2 confirms that fossil fuel burning is the source of most of the CO2 increase, unlike during prior interglacial periods.[35] As noted above, models that include increased CO2 levels when simulating recent climate match the observed data far better than those that do not.[2]

Warming on other planets?

Main article: extraterrestrial atmospheres

Over the last two decades proxy evidence of local or planetary warming has been observed on Mars, [36] Pluto,[37] Jupiter, [38] and Neptune's largest moon Triton.[39] It has sometimes been asserted in the popular press that this points to a solar explanation for the recent warming on Earth.[40] Physicist Khabibullo Abdusamatov claims that solar variation has caused global warming on Earth,[41] and that the coincident warmings "can only be a straightline consequence of the effect of the one same factor: a long-time change in solar irradiance."[42] This view is not accepted by other scientists. Planetary physicist Colin Wilson responded, "His views are completely at odds with the mainstream scientific opinion," and climate scientist Amato Evan stated, "the idea just isn't supported by the theory or by the observations."[36] Charles Long of Pacific Northwest National Laboratory, who studies radiative transfer, says "That's nuts...It doesn't make physical sense that that's the case."[43] Jay Pasachoff, an astronomy professor at Williams College, said that Pluto's global warming was "likely not connected with that of the Earth. The major way they could be connected is if the warming was caused by a large increase in sunlight. But the solar constant—the amount of sunlight received each second—is carefully monitored by spacecraft, and we know the Sun's output is much too steady to be changing the temperature of Pluto."[37] Instead, scientific opinion is that these changes are caused by other factors, such as orbital irregularities or (in the case of Mars) changes in albedo as a result of dust storms[44].

References

Footnotes

  1. ^ a b c d e "Working Group I: The Physical Basis for Climate Change". IPCC.
  2. ^ a b (2007) Working Group I: The Physical Basis for Climate Change (Summary for Policymakers). IPCC. ISBN 978 0521 88009-1. 
  3. ^ Schmidt, Gavin A. (2005-04-06). "Water vapour: feedback or forcing?". RealClimate. Retrieved on 2008-04-07.
  4. ^ "The Kyoto Protocol". UNFCCC.
  5. ^ a b c d (2007) Working Group I: The Physical Basis for Climate Change (Technical summary). IPCC. ISBN 978 0521 88009-1. 
  6. ^ a b c (2006) Livestock's Long Shadow. Food and Agricultural Organization of the U.N.. ISBN 9251055718. 
  7. ^ (2007) Working Group I: The Physical Basis for Climate Change (Front matter). IPCC. ISBN 978 0521 88009-1. 
  8. ^ Geerts, B.. "Aerosols and Climate".
  9. ^ (2001) Working Group I: The Physical Basis for Climate Change (Summary for Policymakers). IPCC, 7. 
  10. ^ Climate Change 2001: The Scientific Basis
  11. ^ Climate Change 2001: The Scientific Basis
  12. ^ Climate Change 2001: The Scientific Basis
  13. ^ http://www4.nationalacademies.org/onpi/webextra.nsf/web/climate?OpenDocument
  14. ^ EIA - Greenhouse Gases, Climate Change, and Energy
  15. ^ Eldis - Display
  16. ^ Climate Change 2001: The Scientific Basis
  17. ^ Barnett, T.; et al. (May 2005). "Detecting and Attributing External Influences on the Climate System: A Review of Recent Advances". Journal of Climate 18 (9): 1291–1314. doi:10.1175/JCLI3329.1. 
  18. ^ Schmidt, Gavin A. (2007-08-11). "Et Tu LT?". RealClimate.org.
  19. ^ Schmidt, Gavin A. (2007-08-11). "The tropical lapse rate quandary". RealClimate.org.
  20. ^ Wigley, Tom M. L.; et al. (2006-05-02). "Temperature Trends in the Lower Atmosphere - Understanding and Reconciling Differences (Executive Summary)". NOAA. 
  21. ^ Barnett, Tim P.; et al. (2005-07-08). "Penetration of Human-Induced Warming into the World's Oceans". Science 309 (5732): 284–287. doi:10.1126/science.1112418. PMID 15933161. 
  22. ^ Bratcher, Amy J.; Giese, Benjamin S. (2002-10-08). "Tropical Pacific Decadal Variability and Global Warming" 29 (19): 24–1 to 24–4. Geophysical Research Letters. doi:10.1029/2002GL015191,. 
  23. ^ BEYOND THE IVORY TOWER: The Scientific Consensus on Climate Change - Oreskes 306 (5702): 1686 - Science
  24. ^ http://groups-beta.google.com/group/sci.environment/msg/aa8521b67cd216ac?dmode=source
  25. ^ Earth warming at faster pace, say top science group's leaders / Statement by American Geophysical Union's council warns temperature change is real and human-caused
  26. ^ Lindzen, Richard S. (1997-08-05). "Can increasing carbon dioxide cause climate change?". Proceedings of the National Academy of Sciences 94 (16): 8335. doi:10.1073/pnas.94.16.8335. PMID 11607742. 
  27. ^ Indermühle, Andreas; Monnin, Eric; Stauffer, Bernhard; Stocker, Thomas F.; Wahlen, Martin (2000). "Atmospheric CO2 concentration from 60 to 20 kyr BP from the Taylor Dome ice core, Antarctica". Geophysical Research Letters 27. 
  28. ^ Fischer, Hubertus; Wahlen, Martin; Smith, Jesse; Mastroianni, Derek; Deck, Bruce (1999). "Ice core records of atmospheric CO2 around the last three glacial terminations". Science 283: 1712. doi:10.1126/science.283.5408.1712. PMID 10073931. 
  29. ^ Skinner, L.C. (2006). "Glacial – interglacial atmospheric CO2 change: a simple “hypsometric effect” on deep-ocean carbon sequestration?". Climate of the Past Discussions 2. 
  30. ^ Paillard, Didier (2000). "Glacial Cycles: Toward a New Paradigm". Reviews of Geophysics 39 (3). 
  31. ^ http://en.wikipedia.org/wiki/The_Great_Global_Warming_Swindle
  32. ^ Liou, K.N. (2002). An Introduction to Atmospheric Radiation (2nd ed). Academic Press. ISBN 978-0124514515. 
  33. ^ Staley, D.O.; G.M. Jurica (1970). "Flux emissivity tables for water vapor, carbon dioxide and ozone". Journal of Applied Meteorology 9: 365–372. doi:10.1175/1520-0450(1970)009. 
  34. ^ News Story - BAS Statement about Channel 4 programme on Global Warming - British Antarctic Survey
  35. ^ Schimel, D. (1996). "CO2 and the carbon cycle, pp.76-86 in Climate Change 1995: The Science of Climate Change. J.T. Houghton, L.G. Meira Filho, B.A. Callander, N. Harris, A. Kattenberg and K. Maskell (eds), Cambridge University Press 1996". 
  36. ^ a b Ravilious, Kate (2007-02-28). "Mars Melt Hints at Solar, Not Human, Cause for Warming, Scientist Says", National Geographic News. 
  37. ^ a b "Pluto is undergoing global warming, researchers find", MIT (2002-10-09). 
  38. ^ Goudarzi, Sara (2006-05-04). "New Storm on Jupiter Hints at Climate Change", Space.com. 
  39. ^ "MIT researcher finds evidence of global warming on Neptune's largest moon", MIT (1998-06-24). 
  40. ^ Carlisle, John. "Sun to Blame for Global Warming", The National Center for Public Policy Research. 
  41. ^ Abdussamatov, Habibullo I. (June 2004). "About the long-term coordinated variations of the activity, radius, total irradiance of the Sun and the Earth's climate". Proceedings of the International Astronomical Union 223: 541–542. doi:10.1017/S1743921304006775. 
  42. ^ Solomon, Lawrence (2007-02-02). "Look to Mars for the truth on global warming", National Post. Retrieved on 2007-03-02. 
  43. ^ Than, Ker (2007-03-12). "Sun Blamed for Warming of Earth and Other Worlds", LiveScience.com. 
  44. ^ Fenton, Lori K.; et al. (2007-04-05). "Global warming and climate forcing by recent of albedo changes on Mars". Nature 446 (7136): 646–649. doi:10.1038/nature05718. Retrieved on 2007-05-09. 
  45. ^ RealClimate

See also

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