It’s a mystery why the speed and complexity of evolution appear to increase with time. For example, the fossil record indicates that single-celled life first appeared about 3.5 billion years ago, and it then took about 2.5 billion more years for multi-cellular life to evolve. That leaves just a billion years or so for the evolution of the diverse menagerie of plants, mammals, insects, birds and other species that populate the earth.

New studies by Rice University scientists suggest a possible answer: the speed of evolution has increased over time because bacteria and viruses constantly exchange transposable chunks of DNA between species, thus making it possible for life forms to evolve faster than they would if they relied only on sexual selection or random genetic mutations.

“We have developed the first exact solution of a mathematical model of evolution that accounts for this cross-species genetic exchange,” said Michael Deem, the John W. Cox Professor in Biochemical and Genetic Engineering and professor of physics and astronomy.

“Life clearly evolved to store genetic information in a modular form, and to accept useful modules of genetic information from other species,” Deem said.

This process is analagous to the increased speed and complexity of human knowledge, as articulated in Ray Kurzweil’s law of accelerating returns, which “applies to all of technology, indeed to any true evolutionary process,” says Kurzweil.