In the 1980s, a devastating mass extinction event unfolded on a hilltop in coastal Ecuador, wiping out ninety species of plants found nowhere else on Earth. These unique species, many of which were yet to be named, vanished as the cloud forests of the Centinela range were cleared for agriculture. The story of Centinela has long been a powerful force driving the fight to preserve the world’s rainforests. However, a new study by an international team of botanists challenges this narrative, revealing that the extinction event may not have occurred as believed.
Modern mass extinction in an Ecuadorean cloud forest found to be a mirage
It may not have occurred as believed.
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A magma cap beneath Yellowstone National Park
An eruption is not imminent.
Scientists have identified a magma cap beneath Yellowstone National Park, located about 2.4 miles (3.8 km) below the surface. This cap acts as a pressure-regulating layer, preventing magma from rising too quickly and reducing the likelihood of an eruption. The cap consists of molten silicate materials, supercritical water, and porous rock, which trap heat and gas within the volcanic system. Researchers used seismic imaging and advanced modeling to study its structure.
Novel material can convert CO₂ into fuel
Hybrid Tincone Material Enhances Stability and Electrochemical Performance
Researchers have developed a stable metalcone thin film for converting atmospheric CO₂ into methanol, a liquid fuel. By mildly annealing tincone at 250°C, they improved its stability in aqueous solutions while enhancing its electrochemical properties. This breakthrough overcomes a major challenge in using Metalcones for carbon reduction applications. The next step involves integrating this engineered material into real-world systems to assess its efficiency in CO₂ conversion. This innovation paves the way for more sustainable fuel production and advances in photoelectrochemical applications.
Martian Clues to Life? NASA Rover Finds Large Organic Molecules on...
Discovery of Hydrocarbons Strengthens Case for Ancient Habitability
NASA’s Curiosity rover has detected the largest organic molecules ever found on Mars—decane, undecane, and dodecane. These hydrocarbons, believed to be fragments of fatty acids, suggest that Mars' organic chemistry may have been more complex than previously thought. The findings support the possibility that ancient Mars had the right conditions for life. Scientists emphasize the need to bring samples back to Earth for deeper analysis, as Curiosity's instruments may not detect even larger, more complex molecules that could further reveal Mars’ potential for past life.
A cost-effective catalyst to revolutionize hydrogen production
A low-cost palladium-based nanosheet
Researchers from the Tokyo University of Science developed a new catalyst called bis(diimino)palladium coordination nanosheets (PdDI). These low-cost palladium-based nanosheets perform as well as platinum in producing hydrogen. Created using a simple synthesis process with minimal precious metals, the nanosheets reduce metal usage and lower hydrogen production costs.
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