Print Email Facebook Twitter Release Share Font Size: A A A A
World growers watching
UFOs in Prosser cherry orchards cause spike in yield
Tuesday, May 29, 2012
By Nella Letizia, College of Agricultural, Human and Natural Resource Sciences
Upright fruiting offshoots system schema. Image courtesy Matt Whitting/WSU
PROSSER, Wash. - Two-year-old trees in the WSU Roza Experimental Orchard near Prosser are the first step in transforming a 100-year-old production system for sweet cherries — and they have UFOs.
No, the trees don’t harbor aliens, but they do grow unique branches. These "upright fruiting offshoots” form the core of a novel architecture ideally suited for mechanized harvesters in sweet cherry orchards of the future.
Here's the angle
Planted at an angle, young trees are trained to grow UFOs on a two-dimensional plane, putting more of their effort into developing a fruiting wall instead of the nonproductive wood typical of a traditional, three-dimensional canopy.
The UFO tree architecture is taking off around the world, according to Matthew Whiting, associate professor of horticulture at the WSU Irrigated Agriculture Research and Extension Center. Whiting also co-directs a $3.9 million, four-year, collaborative project funded by a USDA Specialty Crops Research Initiative (SCRI) grant to develop a sustainable, stem-free cherry production, processing, and marketing system.
"I have had many emails and calls from growers in Chile, Turkey, Australia, Canada, Hungary, and other countries — all interested in growing cherries with the UFO system,” he said.
No. 1, 2 and 3 in production
Improving sweet cherry production, processing, and marketing is more important than ever closer to home, in the Pacific Northwest. Washington, California and Oregon ranked No. 1, 2 and 3 for U.S. sweet cherry production in 2010 at 156,000, 97,000, and 38,150 tons, respectively, according to a USDA report.
At the same time, sweet cherry harvest requires the most investment of time and labor among all tree fruit operations, Whiting said. Cherry trees and the orchards they grow in don’t accommodate mechanical harvesters; laborers still pick fruit by hand, carrying 10- or 12-foot ladders all day.
Lack of pickers
With each mature cherry tree producing between 50 and 200 pounds of fruit, harvesting takes many pickers — often hundreds in a given crew. Unfortunately, that’s something the cherry and other tree fruit industries don’t have.
In Washington State, as a "one-time deal,” Governor Christine Gregoire sent 105 minimum-security prisoners in early November to help with one eastern Washington apple grower’s harvest after statewide growers couldn’t find enough workers to pick their fruit this past season.
The national climate for foreign agricultural workers is to blame. State officials, petitioning Congress for help, estimated that nearly 72 percent of Washington seasonal workers are here illegally and claimed that many potential laborers are staying away because they’re afraid of being deported.
But immigration reform could reduce the labor pool even further. Georgia’s 2011 ordeal with its immigration enforcement law serves as a cautionary tale. An economic impact report estimates that after HB 87 was signed by Governor Nathan Deal on May 13 and took effect on July 1, labor-related losses to participating growers after the spring and summer harvest were $75 million.
Hurry to mechanize
One Washington sweet cherry grower, Denny Hayden, president of Hayden Farms in Pasco, Wash., is paying close attention to the Georgia case.
"We’re one political decision away from disaster,” Hayden said. "That’s why we started moving in this direction several years ago. But how do you mechanize? How do you move away from labor? The tough part is doing this fast enough. We’re expecting big things to come out of this program.”
UFOs boost yield, efficiency
That’s where the UFOs come in. Five years ago, a few growers in Washington, Oregon and California planted test UFO blocks in their orchards. Keith Oliver of Olsen Brothers Ranches in Prosser saw a 2011 harvest of 8.6 tons of Tieton cherries per acre on his UFO block, not counting the fruit from pollenizer trees. The state average on 40-year-old, traditional sweet cherry trees is 5 to 5.25 tons per acre, Whiting said. Oliver credits the architecture for the improved yield.
"We had less doubling [a stress-induced doubling of fruit on each stem], and with Tietons, that’s always a concern,” Oliver said, "and because of the architecture, that was a benefit that we hadn’t counted on…the harvest efficiency was also better. The pickers filled the bins a lot faster with the UFO…
"We decided we’re never going to plant a traditional cherry tree again,” Oliver added.
"We’ve seen the advantages of the UFO. It cost a lot to get the block in, but we think in the long run that the yield advantages that we’ve seen so far and the picking advantages will outweigh the initial cost of establishment.”
The key is in promoting uprights. The more uprights you have in the first year, the better the chance for fruiting sooner — and the higher the yields. In 2011, the team of Whiting, graduate student Antonia Sanchez-Labbe, Joseph Grant of University of California, and Lynn Long of Oregon State University tested how timing the horizontal training of initial growth affects shoot numbers. The team discovered that the earlier the trees were tied down horizontally, the more upright shoots sprouted. Along with training, proper pruning techniques ensured renewal of upright shoots.
Now completing their second year of the USDA grant, SCRI researchers from around the country are also working to breed a sweet cherry variety with fruit that falls easily off the stem, develop a mobile cherry harvester, extend shelf life through better packaging, assess consumer preference of stem-free cherries, and delve into the economics of mechanical harvest.
For more on the SCRI and its work, visit http://bit.ly/sweetcherryscri. For more on recent sweet cherry research, see this news release on micrografting.
To see a short video on how to plant a UFO system, click the following link to the CAHNRS website.