Science & Technology - Posted by Emily Walker-Monash on Tuesday, January 31, 2012 12:11 - 16 Comments
Mouse to elephant in 24M generations
MONASH (AUS) — A new study says that it would take 24 million generations for a mouse-sized animal to evolve to the size of an elephant.
The Monash University study is the first time that scientists have measured how fast large-scale evolution can occur in mammals. The researchers describe increases and decreases in mammal size following the extinction of the dinosaurs 65 million years ago.
Led by Australian Research Fellow Alistair Evans, a team of 20 biologists and palaeontologists discovered that rates of size decrease are much faster than growth rates. It takes only 100,000 generations for very large decreases, leading to dwarfism, to occur.
Straight from the Source
Evans, an evolutionary biologist, says the study was unique because most previous work had focused on microevolution, the small changes that occur within a species.
“Instead we concentrated on large-scale changes in body size. We can now show that it took at least 24 million generations to make the proverbial mouse-to-elephant size change—a massive change, but also a very long time,” Evans says.
“A less dramatic change, such as rabbit-sized to elephant-sized, takes 10 million generations.”
The paper, published in the journal Proceedings of the National Academy of Sciences, looks at 28 different groups of mammals, including elephants, primates, and whales, from various continents and ocean basins over the past 70 million years. Size change was tracked in generations rather than years to allow meaningful comparison between species with differing life spans.
Erich Fitzgerald, senior curator of vertebrate palaeontology at Museum Victoria and a co-author, says changes in whale size occurred at twice the rate of land mammals.
“This is probably because it’s easier to be big in the water—it helps support your weight,” Fitzgerald says.
Evans says he was surprised to find that decreases in body size occurred more than ten times faster than the increases.
“The huge difference in rates for getting smaller and getting bigger is really astounding—we certainly never expected it could happen so fast!” Evans says.
Many miniature animals, such as the pygmy mammoth, dwarf hippo, and “hobbit” hominids lived on islands, helping to explain the size reduction.
“When you do get smaller, you need less food and can reproduce faster, which are real advantages on small islands,” Evans says.
The research furthers understanding of conditions that allow certain mammals to thrive and grow bigger and circumstances that slow the pace of increase and potentially contribute to extinction.
More news from Monash University: www.monash.edu.au/news/