Starving orangutans may tell tale of evolution of human teethPublished On: Wed, Dec 14th, 2011 | Evolution | By BioNews
Starving orangutans in Borneo may shed light on how human teeth evolved, a new study has suggested.
Nathaniel Dominy, an associate professor of anthropology at Dartmouth College, has been studying the dietary habits of these apes including what food they eat and how they digest it.
“We are interested in how orangutans cope with food-limited environments because it may give us a glimpse into what early human ancestors were facing,” Dominy said.
The apes that gave rise to the earliest human ancestors had teeth that are much like orangutan teeth. The resemblances are particularly strong between the teeth of the pre-human apes and those of the stressed animals living on Borneo.
Dominy suggested that the orangutans’ diet may have exerted a selective pressure on their molar teeth. If we understand the physical properties of their food, we may have some idea about the evolution of human teeth.
The Borneo environment is stressful. The soil is not very fertile and plants crop unpredictably, only producing quantities of fruit every four or five years. When they do bear fruit, the whole forest produces at once. The animals gorge themselves, put on fat, and then live off these reserves for the next three to four years. Unchecked logging that is reducing orangutan habitat worsens this already inhospitable situation.
Orangutans prefer ripe, soft, juicy fruits but during the ‘off-years’ on Borneo when nothing else is available, the orangs resort to eating very hard and tough foods. Dominy described how they rip bark off trees and eat the starchy tissues behind the bark. They will also eat very hard seeds. This far less nutritious diet seems to supply just enough protein to get by.
The five-year study documents the adaptive metabolism of these apes in these protein-deficient hard times. Orangutan urine was collected on Borneo and analyzed for dietary markers, such as ketones, which increase when the body breaks down fat for energy.
When fruit abundance was lowest, the ketones surged, demonstrating that the animals were burning their fat reserves—using more energy than they were taking in. As long as the fat holds out, the situation is tolerable.
When body fat is depleted, the next stage is cannibalizing muscle tissue. Elevated nitrogen isotopes in the urine of some individuals indicate that muscle wasting was indeed a source of the protein that kept the animals alive.
Professor Dominy argues that the larger molars and more robust jaws among the Borneo orangutans developed in response to the hard, tough foods they consumed during the periods between fruit availability—an enduring adaptation to an occasional situation.
“Perhaps the hard objects were things they ate only very occasionally under ecological duress,”
“It is not what they ate regularly that matters. It is what they were eating during crunch times. Because they routinely go through these dire times, orangutans may be a good model for what happened to human ancestors in deep time,” Dominy added.
The study has been recently published in the online issue of Biology Letters, a journal of The Royal Society.