「暗氧」任務瞄準其他世界

A recent scientific discovery has revealed that oxygen can be produced in the dark depths of the ocean, a finding that could have significant implications for our understanding of life on other planets. Researchers have found that metal lumps located on the ocean floor are capable of generating oxygen, which is essential for life. This groundbreaking discovery has prompted scientists to plan an exploration of the deepest parts of Earth's oceans to further investigate this unusual phenomenon. The researchers believe that if oxygen can be created in the dark ocean here on Earth, it is possible that similar processes could be occurring on other planets, potentially creating environments where life could flourish. Lead researcher Professor Andrew Sweetman stated, 'We are already in discussions with experts at NASA who believe that dark oxygen could reshape our understanding of how life might be sustained on other planets without direct sunlight. ' The goal of the research team is to uncover the mechanisms behind this process. The initial discovery has sparked a heated debate within the scientific community. Traditionally, it was believed that oxygen could only be produced through photosynthesis, a process that requires sunlight and is carried out by plants. However, the revelation that metal lumps can generate oxygen in complete darkness challenges this long-held belief and opens up new possibilities for life in environments devoid of sunlight. This means that there could be locations on other planets where life could exist, even in the absence of light. The researchers are eager to study these deep ocean regions, which are located more than 10 kilometers below the surface. They plan to utilize remotely operated submersible equipment to conduct their investigations. Professor Sweetman explained, 'We have instruments that can reach the deepest parts of the ocean, and we are confident that we will find this process occurring elsewhere. ' In collaboration with NASA, the researchers aim to determine whether the same process could enable microscopic life to thrive in the oceans of other planets and moons. Professor Sweetman remarked, 'If there is oxygen, there could be microbial life taking advantage of that. ' The initial findings, which were published last year, stemmed from several expeditions to a deep-sea area located between Hawaii and Mexico. During these expeditions, Professor Sweetman and his team deployed sensors to the ocean floor at depths of approximately 5 kilometers. They discovered that the seabed is covered with naturally occurring metal nodules, which form over millions of years as dissolved metals in seawater accumulate on fragments of shell or other debris. The sensors consistently indicated rising oxygen levels, which initially puzzled the researchers. Professor Sweetman admitted, 'I ignored it at first because I had been taught that oxygen only comes from photosynthesis. ' Eventually, the team decided to investigate further. In their laboratory, they conducted experiments using the metal nodules they collected from the ocean. They discovered that these nodules were capable of producing oxygen from seawater. The nodules generated electric currents that could split seawater molecules into hydrogen and oxygen. However, the findings have not been without controversy. Some scientists and seabed mining companies have criticized the research, arguing that the experimental design lacked scientific rigor. One critic, Michael Clarke from a Canadian deep-sea mining company, claimed that the observed oxygen production was merely a result of bubbles created during sample collection. In response, Professor Sweetman stated, 'We have ruled out that possibility, and these new experiments will provide the proof we need. ' This debate is crucial, as several multi-billion dollar mining companies are already exploring the potential for harvesting these valuable metals from the ocean floor. The natural deposits they are targeting contain metals that are essential for battery production, and the demand for these metals is rapidly increasing as economies transition from fossil fuels to electric vehicles. The race to extract these resources has raised concerns among environmental groups and researchers. Over 900 marine scientists from 44 countries have signed a letter highlighting the environmental risks associated with seabed mining and calling for a pause on such activities. During a recent press conference, Professor Sweetman emphasized the importance of understanding the deep-sea ecosystem before making any decisions regarding mining. He stated, 'Before we do anything, we need to understand the deep-sea ecosystem as best as possible.