Scientists are using isotopes to answer a surprising variety of questions about the world, according to University of Cincinnati Professor Brooke Crowley.
Isotopes are different forms of the same element that researchers can use like a fingerprint to identify where and when something lived and even what that place was like.
"Isotopic analysis is coming into its heyday. In the last five to 10 years, there has been a tremendous explosion of research analyses."
In Crowley's Stable Isotope Ecology course, students come up with creative questions and applications for isotopic analysis and carry out small group projects.
"Does shade-grown coffee look different from sun-grown? Absolutely," she said.
"What about cage-free eggs or free-range chickens versus the alternative? Yes," she said.
"Does digestion affect the ratios of isotopes?" The answer is yes, according to a study published in the journal Ecology and Evolution.
"What goes in is isotopically different from what comes out," researchers concluded.
The research was led by UC College of Arts and Sciences graduate Maddie Greenwood, initially as part of a class project, and then as a senior research project. The research team was completed by Rachel Reid, a research scientist from Virginia Tech.
They collected the droppings and regurgitated pellets from two captive animals at the Cincinnati Zoo & Botanical Garden: a Eurasian eagle owl and red-tailed hawk, both of which subsist on a diet of frozen rats. The acidic digestive system of the hawk helped it digest more bone than that of the owl, but both leave behind at least some bone in their pellets and droppings.
The researchers compared the ratios of carbon, nitrogen, oxygen and strontium isotopes in the rats to those found in the bird poop and pellets. And there were significant differences, Crowley said. They concluded that the influence of digestion on bone is large enough to affect interpretations of diet and ingested strontium.
"The results were not what we were expecting," she said.
Increasingly, scientists are turning to isotopes in poop to non-invasively study wild animals that are rare or difficult to track like jaguars. They also use bones from small animals to help establish what environmental conditions were in the past. However, remains of small animals in archaeological and paleontological settings are often accumulations of bones regurgitated by birds of prey like owls.
"Researchers should use caution if using potentially digested bone to evaluate the diet of consumed prey, establish strontium baselines or infer past climate or environmental conditions," the study warned.
"This is significant for anyone using rodent bones to identify prey locations or climate and other environmental conditions," Crowley said. "But by no means is it the end of the story. More work needs to be done."
UC's Greenwood said the results demonstrate how insightful isotopic analysis can be to answer questions about the natural world.
"I think it's incredibly rewarding. Just like anything in science, we figure out new ways to use this tool and new ways to make it helpful. I appreciate being a part of that," she said.
