UNIVERSITY PARK, Pa. — The six bundles of Holstein joy born at the Penn State Dairy Barns in April of last year — the outcome of a research project to improve genetic diversity in the breed — have garnered a fan following.
A story about their birth on Penn State News — subsequently picked up by a number of national and international media outlets — led to interest and well wishes from near and far for the bouncing baby bovines and their faculty guardians, Chad Dechow and Wansheng Liu, of Penn State's College of Agricultural Sciences.
Now, little more than a year later, folks are still asking, "How are the calves doing?"
"Fantastic," Dechow shared, adding that nine additional calves, born in November, have joined the first group of three males and three females. "They all are healthy and doing the things young bulls and heifers do — their celebrity status in the 'dairy world' has not gone to their heads."
Though the Holstein breed dates back 2,000 years to the Netherlands, these cattle are relatively new to America — the first Holsteins were brought to the country in the mid-1850s by a Massachusetts breeder named Winthrop Chenery.
An interest in Holsteins led Dechow, associate professor of dairy cattle genetics, and Liu, professor of animal genomics, both in the Department of Animal Science, to research the history of the breed. In doing so, they learned that nearly all male Holsteins alive today can be traced back to two bulls from the 1960s: Pawnee Farm Arlinda Chief and Round-Oak Rag Apple Elevation.
"Artificial insemination was really beginning to take off in the 1960s," Dechow said. "Today, three-quarters of Holsteins result from artificial insemination. Even those born from a 'natural mating' usually have a grandfather that was an artificial insemination bull. The widespread use of artificial insemination is what allowed these two bulls to have such a large impact."
This narrowing of the genetic base is not a good thing for Holsteins because it leads to inbreeding, which has the potential to cause genetic defects, poor health and poor milk production, according to Liu.
The researchers embarked on what they thought would be a difficult task — finding descendants of other lineages. Fortunately, their first call to the National Animal Germplasm Program in Fort Collins, Colorado, a repository under the U.S. Department of Agriculture, proved fruitful — the repository recently had procured semen from two lost Holstein lineages, including samples taken from a bull in 1954.
The samples were used to fertilize eggs to create a dozen embryos from genetically elite Holstein females from Select Sires Inc., a dairy genetics company located in Plain City, Ohio; those embryos were implanted in surrogate heifers at Penn State's Dairy Barns, and the rest, as they say, is history.