![departamento cartographica galaxy map departamento cartographica galaxy map](https://i.blogs.es/caae83/650_1200samsung-galaxy-s6/1024_2000.jpg)
![departamento cartographica galaxy map departamento cartographica galaxy map](https://deadlystream.com/downloads/screens/monthly_10_2014/thumb-eb65de167c0667580a344f1c8c7b64f1-canongalaxymapscreen.jpg)
This surprising discovery was made by chance, while the team were inspecting a survey of galaxies made with ALMA, designed to study the properties of cold gas in more than 100 far-away galaxies. Puglisi agrees about the significance of the team’s finding, saying: " I was thrilled to discover such an exceptional galaxy! I was eager to learn more about this weird object because I was convinced that there was some important lesson to be learned about how distant galaxies evolve."
![departamento cartographica galaxy map departamento cartographica galaxy map](https://i.pinimg.com/originals/b0/19/de/b019def55faa89c5a64d2ae13ffca7a5.jpg)
“ This might lead us to revise our understanding of how galaxies ‘die’,” Daddi adds. Because of this, some of the teams that previously identified winds from distant galaxies could in fact have been observing tidal tails ejecting gas from them. “ Our study suggests that gas ejections can be produced by mergers and that winds and tidal tails can appear very similar,” says study co-author Emanuele Daddi of CEA-Saclay. However, the new study published today in Nature Astronomy suggests that galactic mergers can also be responsible for ejecting star-forming fuel into space. Most astronomers believe that winds caused by star formation and the activity of black holes at the centres of massive galaxies are responsible for launching star-forming material into space, thus ending galaxies’ ability to make new stars. However, the team managed to observe the relatively bright feature just as it was launching into space, and were able to identify it as a tidal tail. Tidal tails are elongated streams of stars and gas extending into interstellar space that result when two galaxies merge, and they are usually too faint to see in distant galaxies. The elusive clue that pointed the scientists towards this scenario was the association of the ejected gas with a “tidal tail”. The event responsible for the spectacular gas loss, the team believes, is a collision between two galaxies, which eventually merged to form ID2299. Because the galaxy is also forming stars very rapidly, hundreds of times faster than our Milky Way, the remaining gas will be quickly consumed, shutting down ID2299 in just a few tens of million years. The gas ejection is happening at a rate equivalent to 10 000 Suns per year, and is removing an astonishing 46% of the total cold gas from ID2299. The galaxy, ID2299, is distant enough that its light takes some 9 billion years to reach us we see it when the Universe was just 4.5 billion years old. “ This is the first time we have observed a typical massive star-forming galaxy in the distant Universe about to ‘die’ because of a massive cold gas ejection,” says Annagrazia Puglisi, lead researcher on the new study, from the Durham University, UK, and the Saclay Nuclear Research Centre (CEA-Saclay), France. The team believes that this spectacular event was triggered by a collision with another galaxy, which could lead astronomers to rethink how galaxies stop bringing new stars to life. This ejection is happening at a startling rate, equivalent to 10 000 Suns-worth of gas a year - the galaxy is rapidly losing its fuel to make new stars. Using the Atacama Large Millimeter/submillimeter Array (ALMA), in which the European Southern Observatory (ESO) is a partner, astronomers have seen a galaxy ejecting nearly half of its star-forming gas. Galaxies begin to “die” when they stop forming stars, but until now astronomers had never clearly glimpsed the start of this process in a far-away galaxy.