This turkey is of the Merriam’s subspecies, one of six turkey subspecies. All commercial turkey lines descend from the South Mexican turkey subspecies, which is extinct in the wild.
Today’s Domestic Turkeys Are Genetically Distinct from Wild Ancestors, Smithsonian Conservation Biology Institute Researchers and Collaborators Find
No Thanksgiving dinner is complete without a succulent roasted turkey. The U.S. Department of Agriculture estimates that consumers cook and eat more than 45 million turkeys every Thanksgiving. Very few Americans, however, know much about the difference between their gravy-smothered poultry and the poultry that earlier generations of Americans ate to celebrate the holiday.
“Ancient turkeys weren’t your Butterball,” said Rob Fleischer, head of the Smithsonian Conservation Biology Institute’s Center for Conservation and Evolutionary Genetics. “We set out to compare the genetic diversity of the domestic turkeys we eat today with that of the ancestral wild turkey from South Mexico. Some of what we found surprised us.”
What an SCBI scientist and collaborators found was that the domestic turkey that ends up on the dinner table exhibits less genetic variation than not only its ancestral wild counterparts, which were first domesticated in 800 B.C., but also than other livestock breeds, such as domestic pigs or chickens. The genetic traits affected by the variation are body size and breast muscle development—features that can help determine the likelihood of a consumer buying a turkey. The results of the study were recently published in BMC Genomics.
“Few people know that the commercial turkeys served at Thanksgiving descended from Mexico, where they were discovered during the Spanish Conquest and transported to Europe,” said Julie Long, senior author of the study and research physiologist with USDA’s Agricultural Research Service in Beltsville, Md. “During the next 100 years, Europeans created many different varieties of the domesticated turkey. It’s important to assess the differences between ancient and modern domesticated turkeys in the event that some unforeseen problem might threaten the stability of the commercial turkey lines.”
To obtain the results, the researchers sequenced the genomes, or full genetic make-up, of domestic turkeys from seven commercial lines and compared the genomes to those of three South Mexican turkeys collected in 1899 from Chihuahua, Mexico. The ancient turkey samples came from specimens at the Smithsonian’s National Museum of Natural History. Their DNA was extracted in SCBI’s ancient DNA lab at the Smithsonian’s National Zoo. “It is often the case that selection in domestication reduces the level of variation,” Fleischer said. “What did surprise us, however, is how well the ancient DNA from the three museum specimens worked to generate the genome sequences needed to determine the genetic variation and structure. These data and this approach show great promise for determining what genes were involved in the process of turkey domestication.”
In addition to Fleischer and Long, the paper’s authors are Muhammand Aslam, Martin Groenen, Richard Crooijmans, Hendrik-Jan Megens, Martin Elferink and John Bastiannsen at the Animal Breeding and Genomics Centre at Wageningen University, Le Ann Blomberg with the USDA-ARS Animal Biosciences and Biotechnology Laboratory in Beltsville, and Steven Schroeder, Tad Sonstegard and Curtis Van Tassell with the USDA-ARS Bovine Functional Genomics Laboratory in Beltsville.
The Smithsonian Conservation Biology Institute plays a key role in the Smithsonian’s global efforts to understand and conserve species and train future generations of conservationists. Headquartered in Front Royal, Va., SCBI facilitates and promotes research programs based at Front Royal, the National Zoo in Washington, D.C., and at field research stations and training sites worldwide.
Lindsay Renick Mayer