Carbon Dioxide: Cloaking Water and Invisible Clouds

Cloaking water is an unappreciated clue to atmospheric and climate changes. Can you see carbon dioxide in your drinks? No. Nor can you see either the transparent clusters of CO2/H2O in the atmosphere. But, in a very frequent satellite image, one can see when atmospheric CO2 binds and cloaks water into transparent FRQ clusters: The leading edge of a hurricane. When formed in mid-ocean, cyclonic systems are nice donuts. Upon encountering the CO2-generated domes by human activity at or near coastal regions, the leading edge disappears. The satellite image shows a donut that has had the landward side ripped off, but the water and hurricane forces are still present. (2003) Barometric highs and lows reflect CO2 content which echos how carbonated water weighs more than water alone (density of 1.668 g/cm3 compared to 1 g/cm3 for pure water). Can you see how CO2 cloaks water by soaking it up into transparent clusters?

Invisible Clouds: Global Warming from rising CO2 levels is explained by cloaking water. Readily recognized is how cloudy nights trap heat while clear nights allow heat radiation into space. What if the higher moisture is present, but is cloaked as CO2/H2O clusters? Heat is trapped by cloaky skies, both day and night. Conversely, the decreasing ratio of clouds to clear sky means that the daily sunlight reflection into space is less. So, between nightly cloaks and daily clears, a double warming whammy is wacking Mother Nature. It has been noted that clouds are higher in the sky, that is, less present in the lower atmosphere. Since CO2 hugs the ground, CO2 cloaking explains fewer lower clouds at the lower lattitudes where CO2 sinning is greater. Do you see how the age-old explanation of cloud coverage traps heat is equally true for cloaked-water coverage?