Seventy per cent of all potatoes in the U.S. are processed into chips, French fries and dehydrated potato flakes. Maintaining adequate potato storage quality for processing — in some cases, up to 10 months — is vital to potato producers and processors.

Jeff Suttle, research leader at the ARS Sugarbeet and Potato Research Unit in Fargo, ND, and food technologist Marty Glynn, at Fargo's work site in East Grand Forks, are working with the Northern Plains Potato Growers Association and public potato breeding programs throughout the U.S. to evaluate the storage properties of new potato varieties.

Their evaluations of the new varieties over the past year have led to the development of two named cultivars, Dakota Crisp and Dakota Diamond, which fare well even after nine months of storage.

Wound healing and sprout control are both major issues for potato storage managers. Potatoes are sometimes damaged during harvest and must heal in order to prevent infection by other pathogens. The internal processes that control wound healing are being determined in studies by ARS chemist Ed Lulai in Fargo. Lulai has identified hormonal signals that stimulate the healing process.

When potatoes are harvested, they’re dormant and don’t sprout. During storage, dormancy ends and sprout growth commences. Sprouting results in numerous biochemical changes that are detrimental to the nutritional and processing qualities of potatoes. Post harvest sprouting is typically controlled during storage with chemicals that inhibit the process.

The long-term goal of Suttle’s program is to find less costly, nonchemical solutions to the problem by identifying the genetic cause for these early-sprouting tubers. The researchers have identified internal mechanisms that signal sprouts to grow, and they are currently isolating the genes responsible for these signals.

Read more about this research in the May/June 2010 issue of Agricultural Research magazine.