We consider the relative effectiveness of systems for collection and m
arine disposal Of CO2 from fossil fuel fired power plants using compar
isons of the trend with time Of CO2 concentration in the atmosphere fr
om systems with and without marine disposal. The retention time for CO
2 increases rapidly with depth of disposal, from a few years in the mi
xed layer up to several centuries as the depth increases beyond 1000 m
, suggesting that deep oceans should be considered as potential storag
e sites for CO2. However, CO2 collection and disposal consumes energy
and produces extra CO2. We show that some of this extra this CO2 reach
es the atmosphere, so that atmospheric concentrations from systems wit
h marine disposal ultimately exceed those from systems without control
s. In some circumstances they do so rapidly, making marine disposal le
ss favorable than direct atmospheric release. Global Warming Potential
can be used to compare systems. This highlights the difficult issues
involved in determining what time scales are important in considering
options to reduce concerns about global warming.