It seems that more and more studies suggest that Dr Ian Malcom ’s prognostication that “ life history , uh , recover a manner ” is correct . concord to fresh enquiry from the University of Edinburgh , petite Earth organisms might be able to hitch a ride on interplanetary junk and travel to other worlds .

The field of study , soon to be release in the journalAstrobiology , looks at new mechanism for exist being to spread from planet to satellite . This concept , call panspermia , is often at the plaza of het up debates about how life formed on Earth and whether or not   it form elsewhere in our   Solar System . Meteorites and asteroids were proposed as ways for microorganisms to fly into distance , but according to study author Professor Arjun Berera , there ’s another way of life .

The researcher aim how strong flow of space detritus interact with the atmosphere . These period move up to 70 kilometer ( 43 miles ) per second and , accord to Berera , this is enough to tap little atom from the Earth ’s standard atmosphere and throw them into interplanetary space .

To even have a chance to be flung into space , these “ particles ” have to   already be floating at about 150 km ( 93 miles ) from the control surface . This might seem like an abysmally high altitude for living organisms to survive , but there are some tough role player in the living world . Marine plankton and microorganismshave been strike on the surface of the outside blank space post , for illustration .

“ The suggestion that space dust collisions could motivate being over tremendous distances between planets conjure up some exciting prospects of how life and the atmospheres of planets originate , " Professor Berera say in astatement . " The cyclosis of fast blank junk is find throughout planetary system and could be a mutual factor in proliferating life . "

The research is certainly interesting and it will   definitely be debated in the wider aspects of the panspermia public debate . But it is important to not rede this as life on Earth colonizes other bodies in the Solar System . The research worker propose this as a valid mechanism for microbic life to escape Earth ’s gravity , but there are no unassailable implications on the capableness of these microbes to survive knock-down impacts with infinite dust . And even if they do , this does n’t mean they can go long stop in cryptic quad .