Although this proves that
global sea surface temperature controls CO2 content in atmosphere, the mechanism has not been known.
Not exact matches
Now that it is possible to simulate the Madden Julian Oscillation (MJO) signal explicitly in
global atmospheric models, hypotheses about what
controls observed relationships between
sea surface temperatures (SSTs) and the MJO can be explored.
4) By interpreting the analyss of Bob Tisdale, the
global sea surface temperatures used by Endersbee in his calculations have been
controlled by warming of the
sea surface waters outside the tropical
sea surface i.e. mainly by the warming of the
sea surface waters of higher latitudes where the
sea surface CO2 sinks are.
More Scientific Evidence For CO2's Dubious Climate Impact Emerges Image Source: Robertson and Chilingar, 2017 According to the most basic precepts of anthropogenic
global warming (AGW), variations in CO2 concentrations exert significant
control on
sea surface temperatures, glaciers,
sea levels, and generalized climate dynamics (i.e., precipitation patterns).
3) In my comment https://judithcurry.com/2011/08/04/carbon-cycle-questions/#comment-198992 I have explained that during recent three decades the increase of CO2 content in atmosphere is
controlled by the rising
temperature of
global sea surface.
This means that the
global mean
sea surface temperature mainly
controls the CO2 content in the atmosphere; when the mean
sea surface temperature is rising, the CO2 content in the atmosphere is increasing.
It means that the
global sea surface temperatures used by Endersbee in his calculations have been
controlled by warming of the
sea surface waters outside the tropical
sea surface i.e. mainly the warming of the
sea surface waters of higher latitudes where the
sea surface CO2 sinks are.
Here we present a
global synthesis of
sea surface temperatures for the Common Era (ce) derived from 57 individual marine reconstructions that meet strict quality
control criteria.
Recent studies show that
global high - resolution models have remarkable skill in simulating the interannual variability in cyclone counts, implicating strong
control by
sea surface temperatures patterns.
[2] However, there is an extremely wide range of natural variability in tropical cyclone activity, and other factors affected by climate change, such as wind shear and the
global pattern of regional
sea surface temperatures, also play
controlling and potentially contradictory roles.