Bioclimate.org: Global temperature stabilization via controlled albedo enhancement of low-level maritime clouds.

Authors	Latham J. , Rasch P. , Chen C. , Kettles L. , Gadian A. , Gettelman A. , Morrison H. , Bower K. , Choulartan T.
Source	Philosophical Transaction of the Royal Society A (8)
Type	P - Paper (2851)
Peer Review	2 - Medium (2288)
Audience	S - Specialist (3514)
Pages	3969-3987
Journal Number	366
Notes	ABSTRACT: An assessment is made herein of the proposal that controlled global cooling sufficient to balance global warming resulting from increasing atmospheric CO2 concentrations might be achieved by seeding low-level, extensive maritime clouds with seawater particles that act as cloud condensation nuclei, thereby activating new droplets and increasing cloud albedo (and possibly longevity). This paper focuses on scientific and meteorological aspects of the scheme. Associated technological issues are addressed in a companion paper. Analytical calculations, cloud modelling and (particularly) GCM computations suggest that, if outstanding questions are satisfactorily resolved, the controllable, globally averaged negative forcing resulting from deployment of this scheme might be sufficient to balance the positive forcing associated with a doubling of CO2 concentration. This statement is supported quantitatively by recent observational evidence from three disparate sources. We conclude that this technique could thus be adequate to hold the Earth’s temperature constant for many decades.