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  Probability distributions for carbon emissions and atmospheric response

Singer, C. E., Rethinaraj, T. S. G., Addy, S., Durham, D., Isik, M., Khanna, M., et al. (2008). Probability distributions for carbon emissions and atmospheric response. CLIMATIC CHANGE, 88(3-4), 309-342. doi:10.1007/s10584-008-9410-4.

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 Creators:
Singer, Clifford E.1, Author           
Rethinaraj, T. S. Gopi2, Author
Addy, Samuel2, Author
Durham, David2, Author
Isik, Murat2, Author
Khanna, Madhu2, Author
Kuehl, Brandon2, Author
Luo, Jianding2, Author
Quimio, Wilma2, Author
Rajendran, Kothavari2, Author
Ramirez, Donna2, Author
Qiang, Ji2, Author
Scheffran, Jurgen1, 3, Author
Tiouririne, T. Nedjla2, Author
Zhang, Junli2, Author
Affiliations:
1C 4 - Climate Change, Security Risks and Violent Conflicts, Research Area C: Climate Change and Social Dynamics, The CliSAP Cluster of Excellence, External Organizations, ou_1863491              
2external, ou_persistent22              
3CRG Climate Change and Security, Research Area C: Climate Change and Social Dynamics, The CliSAP Cluster of Excellence, External Organizations, Bundesstraße 53, 20146 Hamburg, DE, ou_2025295              

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Free keywords: CONTROLLING GREENHOUSE GASES; OPTIMAL TRANSITION PATH; CLIMATE-CHANGE; UNCERTAINTIES; MODELS; SUBSTITUTION; PROJECTIONS; PREDICTION; ENSEMBLE; SYSTEM
 Abstract: Probability distributions for carbon burning, atmospheric CO2, and global average temperature are produced by time series calibration of models of utility optimization and carbon and heat balance using log-linear production functions. Population growth is used to calibrate a logistically evolving index of development that influences production efficiency. Energy production efficiency also includes a coefficient that decreases linearly with decreasing carbon intensity of energy production. This carbon intensity is a piecewise linear function of fossil carbon depletion. That function is calibrated against historical data and extrapolated by sampling a set of hypotheses about the impact on the carbon intensity of energy production of depleting fluid fossil fuel resources and increasing cumulative carbon emissions. Atmospheric carbon balance is determined by a first order differential equation with carbon use rates and cumulative carbon use as drivers. Atmospheric CO2 is a driver in a similar heat balance. Periodic corrections are included where required to make residuals between data and model results indistinguishable from independently and identically distributed normal distributions according to statistical tests on finite Fourier power spectrum amplitudes and nearest neighbor correlations. Asymptotic approach to a sustainable non-fossil energy production is followed for a global disaggregation into a tropical/developing and temperate/more-developed region. The increase in the uncertainty of global average temperature increases nearly quadratically with the increase in the temperature from the present through the next two centuries.

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Language(s): eng - English
 Dates: 2008-06
 Publication Status: Issued
 Pages: -
 Publishing info: -
 Table of Contents: -
 Rev. Type: Peer
 Identifiers: ISI: 000256476100005
DOI: 10.1007/s10584-008-9410-4
 Degree: -

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Title: CLIMATIC CHANGE
Source Genre: Journal
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Pages: - Volume / Issue: 88 (3-4) Sequence Number: - Start / End Page: 309 - 342 Identifier: ISSN: 0165-0009