Three newly-discovered sea spider species have taken survival to the next level by farming methane-eating bacteria on their bodies, showcasing a remarkable symbiotic relationship in the deep sea.
Astronomers have made a historic breakthrough by detecting silicon monoxide in the atmosphere of WASP-121b, an ultra-hot exoplanet. This discovery reveals unique atmospheric conditions and challenges our understanding of planet formation.
A team of scientists has made a groundbreaking discovery regarding the ultra-hot exoplanet WASP-121b, revealing its unique atmospheric composition and formation history using the James Webb Space Telescope.
Scientists predict that Earth's atmosphere will transform back to a methane-rich state in about a billion years, drastically reducing oxygen levels and threatening life as we know it. This shift could happen rapidly, returning the planet to conditions reminiscent of its early history, long before human existence. What does this mean for our search for life beyond Earth?
Three years ago, a daring research crew discovered Jøtul, the first hydrothermal vent field in the Arctic, revealing new insights into marine life and climate change amidst extreme conditions.
Scientists have made a groundbreaking discovery on Titan, Saturn's metal moon, observing cloud convection for the first time. This finding sheds light on Titan's unique methane rain cycle and its potential for harboring life.
Exciting new findings from the James Webb Space Telescope suggest the presence of biosignatures on exoplanet K2-18b, raising thrilling possibilities about life beyond Earth. Meanwhile, questions arise about the Antikythera mechanism and the curious case of 'vegetative electron microscopy.'
