File:Greenhouse Effect (2017 NASA Data).svg
Year 2021 update (not in diagram): Net absorbed energy (shown as 0.6) rose to above 1.0 W/m based on independent CERES and ocean heat content measurements.(see fig.1 in Loeb et al.(2021), Geoph. Res. Let 48 (13), doi:10.1029/2021GL093047)
The sun is responsible for virtually all energy that reaches the Earth's surface. Direct overhead sunlight at the top of the atmosphere provides 1366 W/m; however, geometric effects and reflective surfaces limit the light which is absorbed at the typical location to an annual average of ~235 W/m. If this were the total heat received at the surface, then, neglecting changes in albedo, the Earth's surface would be expected to have an average temperature of -18 °C (Lashof 1989). Of the surface heat captured by the atmosphere, more than 75% can be attributed to the action of greenhouse gases that absorb thermal radiation emitted by the Earth's surface. The atmosphere in turn transfers the energy it receives both into space (38%) and back to the Earth's surface (62%), where the amount transferred in each direction depends on the thermal and density structure of the atmosphere. This process by which energy is recycled in the atmosphere to warm the Earth's surface is known as the greenhouse effect and is an essential piece of Earth's climate. Under stable conditions, the total amount of energy entering the system from solar radiation will exactly balance the amount being radiated into space, thus allowing the Earth to maintain a constant average temperature over time.
- This figure was originally created by Robert A. Rohde from published data as part of the Global Warming Art project.
- http://www.atmo.arizona.edu/students/courselinks/spring04/atmo451b/pdf/RadiationBudget.pdf
- Original image: http://www.globalwarmingart.com/key/Image:Greenhouse_Effect_png
- http://data.giss.nasa.gov/gistemp/abs_temp.html
- originally converted to SVG by User:Rugby471. Updated to 2007 data and design update by User:efbrazil.
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