May 7, 2008

Mineralogy

Enamel Evidence

Baby teeth reveal infant diet

Sarah Everts

Similar to the concentric rings that provide a chronicle of environmental conditions during a tree's growth, the historical record of an infant's diet may be extracted from layers of baby tooth enamel.

In particular, researchers are reporting that the relative ratio of calcium and strontium can provide dietary information, such as whether a baby was breast-fed or formula-fed, as well as the time when birth occurred and the infant stopped being nourished through the placenta (Proc. Natl. Acad. Sci. USA, DOI: 10.1073/pnas.0711513105).

Biopaleontologist Louise T. Humphrey and her colleagues at the Natural History Museum in London did the proof-of-principle study using baby teeth obtained from children with known dietary records. Using mass spectrometry to measure the relative concentrations of calcium and strontium in progressive layers of tooth enamel, "we showed enamel could provide a permanent archive of a period of infant growth and development," Humphrey says.

As teeth develop, hydroxyapatite crystals, a major component of enamel, are initially deposited under conditions in which calcium concentrations are carefully controlled. Strontium, levels of which vary in different foods, can freely diffuse in and out of the developing enamel, resulting in concentrations that reflect the infant's diet.

Calcium-to-strontium ratios in milk decrease as animals move up the food chain, Humphrey explains. The ratio in cow milk, for example, is higher than that in human breast milk, she says. Although humans already have low levels of strontium in their bodies, the element is further filtered from human milk.

"This work opens up new research possibilities in the field of anthropology," comments Debbie Guatelli-Steinberg, an anthropologist at Ohio State University who specializes in dental fossils. "It may now be possible to examine the dental remains of our ancestors to determine how old infants were when they were weaned."

Humphrey hopes to extend the technique to study the development of adult teeth in fossil records to gain information about other elements of childhood development. "Teeth could also provide clues to illness, malnutrition, migration, and weather," she notes.

Chemical & Engineering News

ISSN 0009-2347

Copyright © 2008 American Chemical Society