The impact of human activities on Earth’s surface has been extensively studied, but what about the deep subsurface? Researchers from the University of Arizona have delved into how activities such as oil and gas production, geothermal energy extraction, and lithium mining are affecting the hidden depths of our planet.

In a study led by Jennifer McIntosh and Grant Ferguson, it was found that human activities are significantly altering the circulation of fluids in the subsurface. Fluid production from oil and gas operations, in particular, has been shown to exceed natural background rates of fluid circulation. This can have profound implications for the environment and the geological record.

As the world faces the urgent challenge of climate change, strategies like geologic carbon sequestration, geothermal energy production, and lithium extraction have been proposed as solutions. However, the study suggests that these strategies may increase human-induced fluid fluxes in the deep subsurface, further impacting the delicate balance of underground ecosystems.

Peter Reiners, a professor at the University of Arizona, emphasizes the importance of responsible management of the subsurface for a green transition and sustainable future. With the increasing demand for resources and energy, it is crucial to consider the long-term consequences of our actions on the deep subsurface.

In oil and gas production, saline water is often extracted along with the resources. To maintain reservoir pressures and recover more oil, this water is mixed with additional water from near-surface sources and reinjected into the subsurface. This cycle of fluid production and reinjection is also observed in geothermal energy production and lithium extraction.

Human activities in the deep subsurface not only impact fluid circulation but also the microbial communities that thrive in these environments. Changes in water chemistry and the introduction of new microbes from the surface can alter the delicate balance of underground ecosystems. For instance, hydraulic fracturing can trigger a sudden bloom of microbial activity in previously barren rock formations.

Despite the strides made in understanding the hidden world beneath our feet, there are still many unknowns about Earth’s deep subsurface. McIntosh emphasizes the need for continued research to unravel the complexities of human impacts on this vast ecosystem. By better understanding and conserving the deep subsurface, we can harness its potential as part of the solution to the climate crisis.

The study sheds light on the often-overlooked impact of human activities on Earth’s deep subsurface. As we navigate the challenges of climate change and resource management, it is essential to consider the long-term consequences of our actions on this hidden world. By prioritizing responsible management and further research, we can work towards a more sustainable future for both the surface and the depths below.

Earth

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