Professor Cluver from Swinburne University explains: "Cosmic filaments are the highways along which mass concentrations come together under the action of gravity. We expect gas-rich galaxies to be associated with these structures, using their neutral hydrogen as fuel for star formation and growth. We therefore designed our blind shallow survey to search for this type of gas along such a filament.  Seven spots of concentrated gas can be discerned from the complex. They form a huge complex of tenuous atomic hydrogen gas that stretches over a distance of 1.3 million light years. And indeed we found gas in many galaxies, but we did not expect anything like these clouds."

The puzzling thing: Despite its extraordinarily large gas mass (equivalent to 10 billion of our Sun's mass), there are close to no stars in the vicinity of the complex. Normally, any cool gas like atomic hydrogen is associated with their 'home' galaxy, where the gas reservoir continues to feed and grow the galaxy over eons of time. Such a large cloud simply cannot survive on its own: floating freely, the local environment is far too harsh as it gets heated up and ionised by the radiation from surrounding galaxies. Only the gravitational pull of a galaxy can, in principle, compact a cloud to a degree where it gets dense enough to create a natural shield against the cosmic background radiation. Professor Jarrett from the University of Cape Town: "We were very surprised that we did not find any indication of a significant amount of stars, despite our thorough search using very deep ultraviolet, optical and infrared imaging. There have to be stars, it's inconceivable for a cloud the size of a galaxy to simply be floating in space!"

There is one possible exception to this, where a small dwarf galaxy is seen close to one corner quadrant of the cloud complex, leaving at least six dark clouds. Yet it is far far too small to possibly be the origin of all this gas. Professor Józsa from the Max-Planck-Institute for Radio Astronomy and Rhodes University explains: "Only a handful of cloud complexes with similarities to this one are known and our new discovery seems to differ in quite some key aspects. The simplest explanation would be that of a tidal interaction between galaxies, the gas being ripped out of the host galaxies in a close encounter. But how the six of seven supermassive concentrations without any stars can be formed in such an event still needs to be explained." Also, no obvious connection to any donor galaxy is evident from the data. The existence of these "dark clouds" is hence a mystery yet to be solved. Maybe the complex enters the group for the first time, consisting of primordial gas gravitationally pulled into the galaxy group along a cosmic filament. Now that the clouds have been discovered, the researchers hope that it will be possible to learn about their origin using dedicated, much deeper, observations with several telescopes in the southern hemisphere. Solving this puzzle could have interesting implications for our understanding of the role that atomic hydrogen plays in how galaxies evolve in large scale structures.