Friday, June 15, 2012

New Evidence in the Australian Pleistocene Megafauna Extinctions


Between 50,000 and 45,000 years ago, in the Late Quaternary, Australia suffered a major loss of its megafauna. Sixty taxa of mammals, predominantly large leaf- and twig-eating animals called browsers, went extinct, including all 19 species exceeding 100 kilograms, like the half-ton Palorchestes azael, a marsupial similar to a ground sloth, and the rhinoceros-sized Diprotodon. Also lost were more than half of species weighing between 10 and 100 kilograms, such as the giant koala, Phascolarctos stirtoni, as well as three large reptiles and a flightless bird, Genyornis newtoni.

Recent studies indicate that humans colonized the continent during that interval. Given this coincident timing and the lack of evidence for dramatic climate change during that period, a human cause for the extinction has long been inferred, but the extinction mechanism has never been resolved. Now Gifford Miller, a geologist at the University of Colorado at Boulder, and his colleagues think they have uncovered a potential mechanism for the megafauna’s disappearance: a change in the ecosystem that made consistent food options no longer available.

The selective loss of large browsers suggested by Miller and his colleagues, including John Magee of the Australian National University in Canberra and Marilyn Fogel of the Carnegie Institution of Washington Geophysical Laboratory in Washington, D.C., indicates that an ecosystem change played an important role in the extinction. To test this hypothesis, Miller searched for proxies. Neither pollen, the most commonly used indicator for ecosystem changes, nor bones are typically preserved in Australia’s arid interior. So, for nearly two decades, Miller has roamed the Outback, collecting fossil bird eggshells — the most common megafaunal remains in Australia’s arid and semi-arid regions — and marsupial teeth. By analyzing the biominerals in these finds, the researchers have pieced together the ancient diets of three Australian animals: the extinct flightless bird Genyornis, along with the extant emu (another giant flightless bird) and the wombat (a small marsupial). They used these data to reconstruct the complex interactions between humans, vegetation, climate and megafauna in Australia over the last 140,000 years.

To reconstruct the creatures’ diets, Miller and his colleagues first dated the remains by measuring the extent of amino acid racemization — the inversion of an amino acid from its protein configuration to its nonprotein mirror image, a process that proceeds slowly within the calcite crystals of the eggshell after it is laid — and converting these results to calendar ages using radiocarbon, uranium/thorium, and luminescence dating. They also analyzed the samples’ carbon isotope composition, which is transferred from food to teeth, eggshells and bones, leaving behind a record of the animals’ diet.

This 140,000-year record of dietary carbon, collected from three broadly separated regions, provides clear evidence for an abrupt ecological shift — and a permanent reduction in available food sources — about the time of human colonization, Miller says. Prior to 50,000 years ago, the emu eggshell carbon isotope values varied widely, exhibiting a pattern consistent with an opportunistic feeder living in an environment where moisture varied considerably, with some years wet enough for nutritious grasslands to grow abundantly and other, drier years dominated by shrubs and trees. From 50,000 to 45,000 years ago, the mean carbon isotope ratios in both emu shells and wombat teeth decreased, and it has remained low ever since. This isotopic shift documents an increased reliance by emus and wombats on shrubby plants and trees, he says. Being opportunistic eaters, emus adapted their diet to a large-scale change in vegetation that occurred around that time.

In contrast, dietary carbon data from Genyornis eggshells from 140,000 to 50,000 years ago indicate a more specialized feeding strategy for this heavier bird. The carbon isotopes indicate that Genyornis always included some grass sources, unlike the emu, which prefer grass but can tolerate a diet based entirely on shrubs and trees. Miller and his colleagues concluded in two studies, published in Science and Climate of the Past, that Genyornis consumed a more restricted diet that was no longer available after 50,000 years ago.

The team’s findings of a dramatic upheaval at the base of the food chain are consistent with the hypothesis that systematic burning of the landscape by humans permanently converted the previous ecosystem from nutritious tree and shrub savanna (with frequent years of rich grasslands) to the modern desert scrub environment. Animals that could adapt survived; those that could not went extinct.

Fire! Fire!

I need to write the 6th mass extinction post.

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