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pmip3:wg:p2f:papers [2017/06/07 09:07]
jules
pmip3:wg:p2f:papers [2017/06/07 09:08] (current)
jules [Future climate forcing potentially without precedent in the last 420 million years]
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 ==== Future climate forcing potentially without precedent in the last 420 million years ==== ==== Future climate forcing potentially without precedent in the last 420 million years ====
-RoyerD. L., Lunt, D. J., & FosterGL. (2017). Future climate forcing potentially without precedent in the last 420 million years. Nature Communications,​ 8, 1–8. http://​doi.org/​10.1038/​ncomms14845+FosterG. L., Royer, D. L., & LuntDJ.(2017). Future climate forcing potentially without precedent in the last 420 million years. Nature Communications,​ 8, 1–8. http://​doi.org/​10.1038/​ncomms14845
 https://​www.nature.com/​articles/​ncomms14845 https://​www.nature.com/​articles/​ncomms14845
  
 Abstract: ''​The evolution of Earth’s climate on geological timescales is largely driven by variations in the magnitude of total solar irradiance (TSI) and changes in the greenhouse gas content of the atmosphere. Here we show that the slow B50 Wm   2 increase in TSI over the last B420 million years (an increase of B9 Wm   2 of radiative forcing) was almost completely negated by a long-term decline in atmospheric CO2. This was likely due to the silicate weathering- negative feedback and the expansion of land plants that together ensured Earth’s long-term habitability. Humanity’s fossil-fuel use, if unabated, risks taking us, by the middle of the twenty-first century, to values of CO2 not seen since the early Eocene (50 million years ago). If CO2 continues to rise further into the twenty-third century, then the associated large increase in radiative forcing, and how the Earth system would respond, would likely be without geological precedent in the last half a billion years.''​ Abstract: ''​The evolution of Earth’s climate on geological timescales is largely driven by variations in the magnitude of total solar irradiance (TSI) and changes in the greenhouse gas content of the atmosphere. Here we show that the slow B50 Wm   2 increase in TSI over the last B420 million years (an increase of B9 Wm   2 of radiative forcing) was almost completely negated by a long-term decline in atmospheric CO2. This was likely due to the silicate weathering- negative feedback and the expansion of land plants that together ensured Earth’s long-term habitability. Humanity’s fossil-fuel use, if unabated, risks taking us, by the middle of the twenty-first century, to values of CO2 not seen since the early Eocene (50 million years ago). If CO2 continues to rise further into the twenty-third century, then the associated large increase in radiative forcing, and how the Earth system would respond, would likely be without geological precedent in the last half a billion years.''​
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 ==== The University of Victoria Cloud Feedback Emulator (UVic-CFE): cloud radiative feedbacks in an intermediate complexity model ==== ==== The University of Victoria Cloud Feedback Emulator (UVic-CFE): cloud radiative feedbacks in an intermediate complexity model ====
pmip3/wg/p2f/papers.1496826450.txt.gz · Last modified: 2017/06/07 09:07 by jules