Moving water from the seas to inland reserves as fresh water in glacial ice, aquifers, surface water and biomass requires vast amounts of thermal energy. This energy has been absent since the catastrophic cooling of the Earth during the ice age. Ever since then, water has been returning to the seas at greater volume than it has been forced out by thermal energy and deposited inland. It is deposited at a shorter distance inland due to rapid atmospheric cooling in the diminished atmospheric thermal envelope created by the cooling of the seas. This does result in atmospheric warming, that will eventually warm the seas. But the current warming trend due to increasing inland aridity will continue for another ten thousand years. Adding “greenhouse gasses” to the atmosphere will be mostly useless, not cutting down the warming cycle by more than a few decades, at best.
Moving water from the seas to inland reserves as fresh water in glacial ice, aquifers, surface water and biomass requires vast amounts of thermal energy. This energy has been absent since the catastrophic cooling of the Earth during the ice age. Ever since then, water has been returning to the seas at greater volume than it has been forced out by thermal energy and deposited inland. It is deposited at a shorter distance inland due to rapid atmospheric cooling in the diminished atmospheric thermal envelope created by the cooling of the seas. This does result in atmospheric warming, that will eventually warm the seas. But the current warming trend due to increasing inland aridity will continue for another ten thousand years. Adding “greenhouse gasses” to the atmosphere will be mostly useless, not cutting down the warming cycle by more than a few decades, at best.