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Broadway, CO, United States

Seidel D.J.,National Oceanic and Atmospheric Administration | Feingold G.,National Oceanic and Atmospheric Administration | Jacobson A.R.,Global Monitoring Division | Loeb N.,NASA
Nature Climate Change | Year: 2014

A key question surrounding proposals for climate engineering by increasing Earth's reflection of sunlight is the feasibility of detecting engineered albedo increases from short-duration experiments or prolonged implementation of solar-radiation management. We show that satellite observations permit detection of large increases, but interannual variability overwhelms the maximum conceivable albedo increases for some schemes. Detection of an abrupt global average albedo increase <0.002 (comparable to a ∼0.7 W m -2 reduction in radiative forcing) would be unlikely within a year, given a five-year prior record. A three-month experiment in the equatorial zone (5N-5S), a potential target for stratospheric aerosol injection, would need to cause an ∼0.03 albedo increase, three times larger than that due to the Mount Pinatubo eruption, to be detected. Detection limits for three-month experiments in 1(latitude and longitude) regions of the subtropical Pacific, possible targets for cloud brightening, are ∼0.2 larger than might be expected from some model simulations. © 2014 Macmillan Publishers Limited.

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