THE 鈥渘anobacteria鈥 found in the Martian meteorite might be too small to be real bacteria 鈥 but that doesn鈥檛 mean that extraterrestrial organisms aren鈥檛 responsible for creating the diminutive fossils.
Jeff McLean at Pacific Northwest Labs in Richland, Washington, has found that iron-eating bacteria on Earth leave behind small sacs of enzymes when they detach themselves from a surface. These chemicals react with metals in rock, forming spherical mineral deposits around 100 nanometres across 鈥 10 times smaller than normal bacteria. 鈥淭heir size, shape and arrangement are similar to the 鈥榥anobacteria鈥 reported by McKay in the Martian meteorite,鈥 says McLean.
The controversy has raged since Chris McKay made his claim in 1996. Most scientists believe the Martian 鈥渇ossils鈥 are far too small to be the remains of bacteria. 鈥淭he problem is they can鈥檛 contain enough DNA to replicate themselves,鈥 McLean says.
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When McLean鈥檚 team grew metal-reducing bacteria on iron oxide particles, they found that sacs, or vesicles, budded off.
鈥淭hey hit a site and reduce all the iron that they can,鈥 McLean says. 鈥淭hen they want to find a new source of energy.鈥 When they tear themselves away, they leave the vesicles behind. With a coating of minerals, they eventually form nanofossils, McLean says. 鈥淭here are reports of nanobacteria on Earth, too. These vesicles might explain some of them.鈥
鈥淚t鈥檚 a very interesting study,鈥 says microbiologist Timothy Kral of the University of Arkansas in Fayetteville. But shape and size alone won鈥檛 prove the Martian fossils were formed by bacteria, he says.