: It predicted that while greenhouse gases warm the surface, they simultaneously cool the stratosphere—a distinct "fingerprint" of CO2cap C cap O sub 2 -driven warming that has since been observed. Access the Paper
For a more modern pedagogical overview, the article by Raymond T. Pierrehumbert ( Physics Today , 2011) provides an excellent summary of the underlying physics of radiative transfer and the energy balance of planets. Physics of Radiation and Climate
: It introduced the first one-dimensional model to accurately incorporate the physical mechanisms of the greenhouse effect, including water vapor feedback and atmospheric convection. Climate Sensitivity : The paper estimated that doubling CO2cap C cap O sub 2 would raise global surface temperatures by approximately , a value consistent with modern estimates from the IPCC . : It predicted that while greenhouse gases warm
: View the abstract and citation data at the American Meteorological Society . : It introduced the first one-dimensional model to
The seminal paper in this field is by Syukuro Manabe and Richard T. Wetherald. Published in May 1967 in the Journal of the Atmospheric Sciences , it is widely considered the most influential paper in the history of climate change science. Key Scientific Contributions
: Available via the Geophysical Fluid Dynamics Laboratory (GFDL) or the University of Chicago .
: It predicted that while greenhouse gases warm the surface, they simultaneously cool the stratosphere—a distinct "fingerprint" of CO2cap C cap O sub 2 -driven warming that has since been observed. Access the Paper
For a more modern pedagogical overview, the article by Raymond T. Pierrehumbert ( Physics Today , 2011) provides an excellent summary of the underlying physics of radiative transfer and the energy balance of planets.
: It introduced the first one-dimensional model to accurately incorporate the physical mechanisms of the greenhouse effect, including water vapor feedback and atmospheric convection. Climate Sensitivity : The paper estimated that doubling CO2cap C cap O sub 2 would raise global surface temperatures by approximately , a value consistent with modern estimates from the IPCC .
: View the abstract and citation data at the American Meteorological Society .
The seminal paper in this field is by Syukuro Manabe and Richard T. Wetherald. Published in May 1967 in the Journal of the Atmospheric Sciences , it is widely considered the most influential paper in the history of climate change science. Key Scientific Contributions
: Available via the Geophysical Fluid Dynamics Laboratory (GFDL) or the University of Chicago .
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