Extinction of megafauna from last ice age driven by too much moisture: Aussie study
Xinhua, April 19, 2017 Adjust font size:
An Australian-led research has found that major increases in environmental moisture occurred just before mass extinctions of megafaunal species around 11,000-15,000 years ago.
According to the University of Adelaide's Australian Center for Ancient DNA (ACAD), persistent moisture - which was caused by melting permafrost at the end of the last ice age - contributed to grasslands becoming boggy peatlands.
Using more than 500 radiocarbon dated bones from animals such as bison, horses and llamas, the team was able to uncover the role the environment moisture played in the extinction of megafaunal animals.
ACAD's Director Alan Cooper said that analysis of the fossils showed that extinctions occurred "just before" a number of species went extinct, suggesting some species were unable to adjust to the changed environmental conditions.
"We didn't expect to find such clear signals of moisture increases occurring so widely across all of Europe, Siberia and the Americas. The timing varied between regions, but matches the collapse of glaciers and permafrost and occurs just before most species go extinct," Cooper said Wednesday.
Co-researcher Matthew Wooller of the University of Alaska Fairbanks said that while climate occurred on different continents at different times, "they all showed that moisture increased massively just prior to extinction."
"The really elegant feature of this study is that it produces direct evidence from the fossils themselves these extinct creatures are informing us about the climate they experienced leading up to their own extinctions," he said.
Meanwhile lead author Tim Rabanus-Wallace from the University of Adelaide said that with the changed conditions, the food sources for a number of species were wiped out, meaning they did not stand a chance of surviving the environmental shift.
"Grassland megafauna were critical to the food chains. They acted like giant pumps that shifted nutrients around the landscape," Rabanus-Wallace said.
"When the moisture influx pushed forests and tundras to replace the grasslands, the ecosystem collapsed and took many of the megafauna with it." Endit