Partial elk carcass along the Northern Range in Yellowstone National Park |
Miller and colleagues found many elk carcasses during their Yellowstone field research. |
Bones on landscapes like Yellowstone may provide detailed accounts of how animal populations have changed over the last few decades or even century, scientists have found.
"The skeletons of long-dead animals lying on landscapes provide critical insights into our understanding of ecosystem history, especially how populations have changed," says biologist Joshua Miller of Wright State University in Dayton, Ohio.
His results, published today in the journal PLoS ONE, provide a deeper context for the many disturbances altering ecosystems around the world, including global warming, overharvesting and habitat destruction.
Miller performed much of the research while doing his Ph.D. work at the University of Chicago.
Biologist Josh Miller studies bone survey data sheets along Yellowstone's Northern Range. |
"Most ecosystems have not been studied over long time spans--many decades at least--which hampers the ability of wildlife managers and other scientists to properly document or mediate these dramatic ecological changes."
In his research, Miller surveyed bones from the skeletons of hoofed mammals, or ungulates, in
Yellowstone National Park
Then he compared the numbers of each species documented in bones, to surveys of the living populations.
He found that all native species in the living community were recovered, and that the order of species from most abundant to least abundant was similar for the bones and for the living community.
Cara Harwood and Josh Miller investigate an elk skull in Yellowstone. |
"Here, clever use of vertebrate death assemblages in Yellowstone provides clear evidence of species shifts over the past century or more.
"This technique extends our ability to document long-term changes in ecological communities--an ability of growing importance as global change, habitat destruction and anthropogenic disturbance alter ecosystems at increasing rates."
The bones of Yellowstone correlate well with the area's historical ecosystem, and provide more detailed information about the historical community than can be acquired from just studying the ecosystem today.
Researcher Jared Singer maps a carcass in Yellowstone National Park; flags mark bone locations |
"Elk, for example, were much more abundant in the 1990s than they are today," Miller says. "The bones of Yellowstone feature far more elk than one would predict based on the current Yellowstone community."
Horses, which were replaced by cars as the dominant mode of transportation in Yellowstone in the early 1900s, also were readily found as skeletal remains.
Radiocarbon dating confirmed that horse bones were remnants from when the cavalry controlled Yellowstone in the late 1800s to early 1900s.
In contrast to these ghosts of larger past populations, species that have recently increased in abundance--bison and the newly arrived mountain goat--are less common in the skeletal record than current living populations would predict.
"Bones provide a great tool for uncovering historical ecological data, which allows us to put modern biodiversity in a broader temporal context," he says.
"The living populations of Yellowstone have been studied for a long time, and provide a great opportunity to test how well bones record their histories.
"Now we can go the next step and use bone accumulations in regions we have only recently begun studying to obtain critical historical data, and establish how ecosystems have changed over the last decades, century or even longer."
Miller's research also suggests that the information contained in the fossil record may provide more details on extinct ecosystems than previously thought.
For those who would listen, dead animals have important tales to relate.
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