Nothing announces the holiday season like the sight and smell of a live Christmas tree. The fresh scent of fir and pine can transport us to favorite holiday memories and remind us that the time for pumpkin spice is over and peppermint and hot chocolate is on its way. The annual hunt for the perfect tree is not only immortalized in numerous holiday movies, it’s become an essential rite of passage for families to begin the count down to their favorite gift giving events. Regardless of how you feel about blinking lights and hanging holiday ornaments, decorated Christmas trees are an iconic tradition enjoyed by millions of Americans and their families.
As beautiful as Christmas trees are twinkling in the night, nobody likes cleaning up the fallen needles. Movies like A Christmas Story, capture one of the market’s biggest complaints best when Ralphie’s dad asks the Christmas tree salesman, “This isn’t one of those trees where the needles all fall off is it?”
A Tree-mendous Impact
For many, needle retention is one of the main factors in choosing between a live or an artificial tree. At this holiday juxtaposition is where we meet post-doctoral research scholar Lilian Matallana. She’s trying to pinpoint the gene responsible for needle retention in Fraser fir. Working with professors John Frampton and Ross Whetten in the NC State Molecular Tree Breeding Lab, the research team is trying to improve the quality of Fraser fir in the North Carolina Christmas tree market, which ranks second in the nation for the number of trees harvested, 98 percent of which are Fraser fir.
“The main goal of this project is to improve post-harvest needle retention using new genomics tools for the identification of gene networks and molecular markers that control this trait in Fraser fir and other Christmas Tree species, and increase the Christmas tree industry’s competitiveness with artificial trees,” Matallana said.
Needle retention becomes a big issue for consumers when trees sit for a long time in people’s homes after they are cut down, or harvested. Commercially grown trees could be harvested as early as the end of October to be prepped and shipped to meet demand in all 50 states and countries around the globe, including the Caribbean Islands, Mexico, Canada, Bermuda and Japan. In fact, the North Carolina Fraser fir is so popular, the Fraser fir with good needle retention traits retain their needles during the long period between October and December, even under usual home conditions like dryness and increases in temperature and light.
Setting New Indus-tree Standards
The process of determining which trees have the longest needle retention rates begins in Western North Carolina at the Upper Mountain Fraser Fir Clone Bank in Laurel Springs, one of several research plantations in North Carolina and Washington State the team is collecting data from. The 3,200-foot elevation is perfect for growing and studying North Carolina Fraser fir, which is native to the Appalachian Mountain region.
“The Christmas Tree Genetics Program screened around 28,500 trees from about 540 families from six mountain tops in our 2000 Progeny test series,” said Christmas Tree Genetics Research Specialist AnneMargaret Braham. “Based on growth, density, shape and USDA grade, we chose the best trees from the best families in 2005 and 2007 to go to the clone banks. Now we are screening the selections for needle retention and these trees will make up the parents of the next generation of trees. By both evaluating at the phenotypic level, or outward appearance, and linking the gene identification work that Lilian is doing, we can choose the best parents to cross together for improved seed.”
Braham and her team cut tree samples, branches about a foot long, from the different tree families to bring back to the Molecular Tree Breeding Lab at NC State. The samples then sit in paper bags for four weeks to determine which ones retain the most needles, in addition to rating each sample’s color and stiffness. Since Christmas Trees are not just seen, but also decorated and touched by consumers, the research team also gently brushes each sample after a few weeks to see which samples hold the most needles at different stages.
“Once we score and register the data, we can determine how well the trees look on display and retain the needles,” Matallana said. “From there, we can distinguish between families and use the best and the poorest needle retention-type of trees to continue with the genetic analyses. The last part is identifying key genetic markers that will allow us to predict which trees will retain the needles better.”
The Royal Tree-tment
Originally from Colombia in South America, Matallana did not grow up with live Christmas Trees. She only recently developed a passion for the industry four years ago when she started this project, with support from the Specialty Crop Research Initiative Grant through the USDA’s National Institute of Food and Agriculture.
“We have some very small business now, but I didn’t grow up with real Christmas trees at home,” she said. “We had plastic trees with white tips because we never have winter. But I love being close to the growers and applying science to agriculture. I feel a real connection and have been very lucky to be part of this project. It’s nice to study the kinds of things that have such a big impact.”
Matallana recently presented her research at The Young Researchers’ Symposium in Stockholm, Sweden. The symposium was part of the events leading up to the presentation of the Wallenberg Prize, widely considered the Nobel Prize in Forestry, by the King and Queen of Sweden to Dr. Ron Sederoff, a recently retired Forestry and Environmental Resources Professor and pioneering molecular geneticist. Matallana was one of only four researchers to participate from NC State. She presented “How Genomics is shaping the future of Christmas Trees,” a practical look at the progress of plant and forest genomics for the Real Christmas Tree Industry (RCTI) in American and European economies during the 3-minute thesis presentation.
“The Young Researcher’s Symposium is intended by The Marcus Wallenberg Foundation to foster international relationships among the next generation of researchers working to improve forests and forest products for the future,” Whetten said. “Lilian has already begun building international networks of professional colleagues and collaborators. It has been a genuine pleasure for me to work with her and I look forward to great things from both her as her career continues to develop.”
At the end of the event, the top five peer-ranked presentations and the top three presentations ranked by the selection committee were announced. Jack Wang and Matallana from NC State were both ranked in the top five, according to the peer rankings, and Wang was part of the top three picked by the selection committee. “I feel very excited that from four NC State participants, two were peer-ranked in the top five, out of the 36 participants,” Matallana said.
This post was originally published in College of Natural Resources News.