Suppose that as a result of global warming, forest cover declines over the earth, reaching a low of 70% of current forested area. Assume the albedo...

Suppose that as a result of global warming, forest cover declines over the earth, reaching a low of 70% of current forested area. Assume the albedo of forest is 0.10, while that of the land cover that replaces it is 0.15. Further assume that the cloudiness and transmissivity of the sky above the former forested area is typical of Earth's average cloudiness (and thus has the average albedo of clouds worldwide).

a. Using the multiple-scattering formalism, calculate the new albedo of the entire earth as a result of the albedo change accompanying this shift in land cover.

b. Make a back-of-the envelope estimate of what the world-wide reduction in evapotranspiration (ET) would be if the ET rate from forest is twice that from the grassland or cropland that replaces it. Express your answer as a change in watts/m^2 leaving Earth's surface. (You will have to make some pretty bold assumptions here about what contribution forests make to present-day ET; state those assumptions clearly.)

c. Estimate the combined effect of the reduction in ET and the increase in albedo on Earth's average surface temperature. (State any assumptions explicitly, but keep them as simple as possible.) Is this a negative or positive feedback to global warming?

d. How would the loss of forest area affect the climate via the carbon cycle? Is this a negative or positive feedback to global warming?