Climate variability according to triple saros gravity cycles

TL;DR

This paper proposes a climate model linking eclipse cycles and lunar gravity to climate variability, suggesting gravity influences atmospheric water vapor, cloud formation, and ocean levels, with implications for understanding decadal climate patterns.

Contribution

It introduces a novel climate model based on triple saros eclipse cycles and lunar gravity, emphasizing their role in climate variability and challenging existing climate data interpretations.

Findings

Lunar gravitational cycles may influence drought patterns.

Decadal ocean level variability could be explained by triple saros cycles.

Climate data contradictions may be due to overlooked gravity effects.

Abstract

I describe a climate model which corresponds directly to eclipse cycles. The theory is based upon a similarity between the 54 year triple saros eclipse period and the periodicity of drought. I argue that eclipse shadows are an indication of gravity cycles, and that variable lunar gravitation is the most significant aspect of the eclipse process. I reinforce the idea that lunar gravitational forcing has a profound effect on the water vapor in Earth's atmosphere, and can affect the density and location of clouds. I explore the possibility that decadal variability of ocean surface levels may be explained by triple saros gravity cycles. I point out that lunar gravitation was excluded from the most significant climate report of 2007, and that climate data contradictions have been overlooked by researchers. I focus on the value of data that has not been aggregated into global averages. I touch upon the history of global warming, and I offer predictions based upon 54 year climate periodicity.