Greta Thunberg Won’t be Happy.

The recent findings from the British Royal Society have significantly challenged prevailing notions regarding the relationship between Earth’s temperature and the concentration of carbon dioxide (CO2) in the atmosphere. The published analysis asserts that, contrary to conventional climate models, the temperature increase on Earth actually precedes the surge in CO2 levels, suggesting a distinctive cause-and-effect relationship.

According to the researchers, the evidence gathered strongly indicates a unidirectional, potentially causal link, wherein temperature acts as the instigating factor and CO2 as the consequential effect. This groundbreaking perspective challenges the widely accepted idea that human-induced CO2 emissions are the primary driver of climate change. Instead, it points to a natural process where temperature fluctuations precede changes in CO2 concentration, prompting a reconsideration of the dominant narrative surrounding anthropogenic climate change.

The scientists behind this study emphasize that attributing climate change solely to human activities is overly simplistic and inadequate in explaining the comprehensive timeline of Earth’s climatic variations, spanning approximately 4.5 billion years. By highlighting the intrinsic relationship between temperature and CO2, the researchers propose a more nuanced understanding of the complex mechanisms governing our planet’s climate dynamics.

One notable revelation from the study is the assertion that natural variations in CO2, triggered by temperature shifts, surpass the comparatively modest 4% contribution attributed to human activities. This challenges the prevailing emphasis on anthropogenic sources as the primary driver of rising CO2 levels. The authors suggest that acknowledging the substantial impact of natural processes on atmospheric CO2 concentrations is imperative for a more accurate comprehension of climate change.

In essence, the British Royal Society’s findings prompt a reevaluation of the cause-and-effect dynamics between temperature and CO2, challenging prevailing assumptions and urging a more comprehensive approach to understanding the multifaceted factors influencing Earth’s climate over geological time scales.