<p class="title">In a first, the Hubble Space Telescope has beamed back images documenting the birth of a giant storm on Neptune, a finding that may reveal insights on the inner workings of the poorly-understood ice giant planets, NASA said.</p>.<p class="bodytext">Like Jupiter's Great Red Spot, Neptune's Great Dark Spots are storms that form from areas of high atmospheric pressure. In contrast, storms on Earth form around areas of low pressure.</p>.<p class="bodytext">Scientists have seen a total of six dark spots on Neptune over the years. Voyager 2 identified two storms in 1989. Since Hubble launched in 1990, it has viewed four more of these storms, NASA said in a statement.</p>.<p class="bodytext">Researchers analysed Hubble's photos of the ice giant taken over the past several years and chronicled the growth of a new Great Dark Spot that became visible in 2018.</p>.<p class="bodytext">By studying companion clouds that showed up two years before the new Great Dark Spot, the researchers conclude dark spots originate much deeper in Neptune's atmosphere than previously thought.</p>.<p class="bodytext">The Hubble images also helped the researchers pinpoint how often Neptune gets dark spots and how long they last.</p>.<p class="bodytext">The findings not only give scientists insights on the inner workings of the ice giant planets but also have implications for studying exoplanets of similar size and composition.</p>.<p class="bodytext">"If you study the exoplanets and you want to understand how they work, you really need to understand our planets first," said Amy Simon, a planetary scientist at NASA's Goddard Space Flight Center in the US.</p>.<p class="bodytext">"We have so little information on Uranus and Neptune," said Simon, lead author of the study published in journal Geophysical Research Letters.</p>.<p class="bodytext">Scientists first saw a Great Dark Spot on Neptune in 1989, when NASA's Voyager 2 probe flew past the mysterious blue planet. As the spacecraft zoomed by, it snapped pictures of two giant storms brewing in Neptune's southern hemisphere.</p>.<p class="bodytext">Scientists dubbed the storms "The Great Dark Spot" and "Dark Spot 2."</p>.<p class="bodytext">Just five years later, the Hubble Space Telescope took sharp images of Neptune that revealed both the Earth-sized Great Dark Spot and the smaller Dark Spot 2 had vanished.</p>.<p class="bodytext">A new Great Dark Spot appeared on Neptune in 2018, nearly identical in size and shape to the one Voyager saw in 1989.</p>.<p class="bodytext">Researchers were analysing Hubble images of a smaller dark spot that appeared in 2015 when they discovered small, bright white clouds in the region where the 2018 Great Dark Spot would later appear.</p>.<p class="bodytext">"We were so busy tracking this smaller storm from 2015, that we weren't necessarily expecting to see another big one so soon," Simon said.</p>.<p class="bodytext">The high-altitude clouds are made up of methane ice crystals, which give them their characteristic bright white colour.</p>.<p class="bodytext">Scientists suspect these methane clouds accompany the storms that form dark spots, hovering above them the way lenticular clouds cap tall mountains on Earth.</p>
<p class="title">In a first, the Hubble Space Telescope has beamed back images documenting the birth of a giant storm on Neptune, a finding that may reveal insights on the inner workings of the poorly-understood ice giant planets, NASA said.</p>.<p class="bodytext">Like Jupiter's Great Red Spot, Neptune's Great Dark Spots are storms that form from areas of high atmospheric pressure. In contrast, storms on Earth form around areas of low pressure.</p>.<p class="bodytext">Scientists have seen a total of six dark spots on Neptune over the years. Voyager 2 identified two storms in 1989. Since Hubble launched in 1990, it has viewed four more of these storms, NASA said in a statement.</p>.<p class="bodytext">Researchers analysed Hubble's photos of the ice giant taken over the past several years and chronicled the growth of a new Great Dark Spot that became visible in 2018.</p>.<p class="bodytext">By studying companion clouds that showed up two years before the new Great Dark Spot, the researchers conclude dark spots originate much deeper in Neptune's atmosphere than previously thought.</p>.<p class="bodytext">The Hubble images also helped the researchers pinpoint how often Neptune gets dark spots and how long they last.</p>.<p class="bodytext">The findings not only give scientists insights on the inner workings of the ice giant planets but also have implications for studying exoplanets of similar size and composition.</p>.<p class="bodytext">"If you study the exoplanets and you want to understand how they work, you really need to understand our planets first," said Amy Simon, a planetary scientist at NASA's Goddard Space Flight Center in the US.</p>.<p class="bodytext">"We have so little information on Uranus and Neptune," said Simon, lead author of the study published in journal Geophysical Research Letters.</p>.<p class="bodytext">Scientists first saw a Great Dark Spot on Neptune in 1989, when NASA's Voyager 2 probe flew past the mysterious blue planet. As the spacecraft zoomed by, it snapped pictures of two giant storms brewing in Neptune's southern hemisphere.</p>.<p class="bodytext">Scientists dubbed the storms "The Great Dark Spot" and "Dark Spot 2."</p>.<p class="bodytext">Just five years later, the Hubble Space Telescope took sharp images of Neptune that revealed both the Earth-sized Great Dark Spot and the smaller Dark Spot 2 had vanished.</p>.<p class="bodytext">A new Great Dark Spot appeared on Neptune in 2018, nearly identical in size and shape to the one Voyager saw in 1989.</p>.<p class="bodytext">Researchers were analysing Hubble images of a smaller dark spot that appeared in 2015 when they discovered small, bright white clouds in the region where the 2018 Great Dark Spot would later appear.</p>.<p class="bodytext">"We were so busy tracking this smaller storm from 2015, that we weren't necessarily expecting to see another big one so soon," Simon said.</p>.<p class="bodytext">The high-altitude clouds are made up of methane ice crystals, which give them their characteristic bright white colour.</p>.<p class="bodytext">Scientists suspect these methane clouds accompany the storms that form dark spots, hovering above them the way lenticular clouds cap tall mountains on Earth.</p>