In a groundbreaking study underscoring the profound impact of human activities, climate researchers have discovered that Earth’s axis has tilted by nearly 31.5 inches (80 centimeters), with human groundwater extraction identified as the primary cause.
The shocking scientific discovery
Led by geophysicist Ki-Weon Seo from Seoul National University, the research highlights how massive water redistribution is fundamentally altering Earth’s rotational dynamics.
“Earth’s rotational pole actually changes a lot. Our study shows that among climate-related causes, the redistribution of groundwater has the largest impact on the drift of the rotational pole,” Seo stated.
Between 1993 and 2010, scientists observed a dramatic transformation: approximately 2,150 gigatons of groundwater were pumped, causing Earth’s rotational pole to drift at an average rate of 4.36 centimeters annually. This is more than a scientific curiosity—it carries significant environmental implications.
Water, weight, and planetary mechanics
Earth’s tilt is closely tied to global mass distribution. As the ice melts and shifts towards the equator, it redistributes planetary weight, influencing the axis. Human activities, particularly irrigation and water consumption, are key drivers of this unprecedented redistribution.
NASA Jet Propulsion Laboratory research scientist Surendra Adhikari confirmed the findings: “They’ve quantified the role of groundwater pumping on polar motion, and it’s pretty significant.”
Environmental consequences
The study, published in Geophysical Research Letters, estimates that groundwater depletion contributed to a 0.24-inch increase in sea levels.
Seo reflected, “I’m very glad to find the unexplained cause of the rotation pole drift. On the other hand, as a resident of Earth and a father, I’m concerned and surprised that pumping groundwater is another source of sea-level rise.”
Broader climate change context
While melting polar ice sheets and mountain glaciers are well-documented contributors to sea-level rise, this research reveals a new human-driven dimension to climate change dynamics.
What this means for the future
The findings emphasize the intricate and unexpected ways human activities can influence planetary systems. They serve as a stark reminder of humanity’s potential to alter global processes through localized actions like groundwater extraction.
This study represents a crucial milestone in understanding our collective impact on Earth’s mechanics and highlights the urgent need to rethink how we manage vital natural resources.