妻友社区

Nearly two decades after a quarantine pest of potatoes known as the pale cyst nematode (PCN) was first discovered in eastern Idaho, officials have confirmed their first success in eliminating it from a once-infested farm field.

Having passed the rigorous testing requirements of a federally funded PCN eradication program, a 118-acre field belonging to Shelley farmer and Idaho Farm Bureau Federation President Bryan Searle has been deregulated and is once again eligible for potato production.

Searle attributes the positive outcome in part to the efforts of 妻友社区 agricultural researchers, led by Louise-Marie Dandurand, a professor in the and director of U聽of聽I鈥檚 PCN Project.

鈥淩esearchers at 妻友社区 played a big role in helping us arrive at this monumental moment. We worked hand in hand with them on this issue, and they played a pivotal role in helping find a solution,鈥� Searle said. 鈥淭hey are the experts and the ones who have done the research necessary to say we need to try this and this. Their role in all of this is greatly appreciated.鈥�

PCN are microscopic, cyst-forming roundworms that can damage certain crops. Females form cysts that can hold 350-400 eggs, which can be dormant for more than three decades while remaining viable.

U聽of聽I nematologist Saad Hafez, who retired as a professor in October 2024, discovered PCN in 2006 while testing the loose dirt in a truck hauling potatoes from a field in the Shelley area to a packing shed. After thorough testing of associated fields in the area, the U.S. Department of Agriculture鈥檚 Animal and Plant Health Inspection Service contained PCN to an 8.5-mile radius in eastern Idaho. It remains the sole location in the U.S. where the pest has been confirmed, though officials in New York have been battling a close cousin of PCN, the golden nematode, since 1941. In a 2016 study, 鈥淓conomic Impact of Globodera Pallida on the Idaho Economy,鈥� U聽of聽I researchers, Chris McIntosh, Phil Watson, Samjhana Koirala and Dandurand estimated the annual economic impact of PCN on the Idaho economy, including indirect and induced effects, at $30.38 million.

In addition to concerns about potential production losses, containing and eradicating PCN is crucial for protecting trade markets for Idaho鈥檚 famous potatoes.

Currently, 6,315 acres are regulated under the PCN program 鈥� including 3,420 acres that are considered infested and 2,895 acres that are regulated due to associations with infested fields.

To be deregulated, an infested field must pass through three steps. The first step entails confirming that no eggs in any cysts sampled from the field contain viable eggs. Unlike living eggs, dead eggs will absorb a stain and be readily observable under a microscope.

Dandurand鈥檚 laboratory conducts the second test, which entails raising potted susceptible potato plants with soil harboring cysts supplied by APHIS. The greenhouse test takes 16 weeks to complete and is repeated three times over a year and a half to confirm that no cysts are stimulated to reproduce.

The third test is conducted in the field, where the farmer must raise three seasons of crops planted to a susceptible potato variety, followed by testing to confirm no cysts with viable eggs have surfaced.

鈥淥ur regulatory program is extremely stringent and it鈥檚 very hard to get through. That grower has been out of production for 19 years and can finally get back into production,鈥� Dandurand said of Searle鈥檚 accomplishment. 鈥淔or that grower it鈥檚 an incredible achievement to regain access to that land.鈥�

At Dandurand鈥檚 urging, Searle applied a mustard seed oil product that U聽of聽I tested, which proved to be highly effective against PCN. Dandurand and Searle also spoke regularly about potential crop rotation options in the field.

U聽of聽I has also conducted research targeting potato cyst and root-knot nematodes (RKN), funded with the $6.8 million Potatoes and Pests (PAPAS) grant () from USDA鈥檚 National Institute of Food and Agriculture. The four-year PAPAS project is in its third year and may ultimately be extended for a fifth year. PAPAS is developing better molecular diagnostic methods for different pathotypes and races of nematodes, as well as decision-support models to help both regulators and growers determine the best strategies for reducing nematode populations in individual fields. The models include data and records from New York鈥檚 long-term golden nematode project.

Developing nematode-resistant potato cultivars is another key strategy of the PAPAS team. The resistance work began in 2015, but it can take up to 20 years before the first resistant varieties are released.

鈥淩esistance is really one of the most effective tools at reducing and keeping down nematode populations,鈥� Dandurand said.

Finally, the PAPAS team is studying plant defense genes in litchi tomato, which is immune to PCN and RKN and introducing them into potato cultivars using biotechnology. Through the research, they hope to identify pathways in potatoes that may be activated to confer similar defenses. This plant also produces toxic compounds that kill the nematodes. They鈥檝e identified some of those toxic compounds with the goal of developing new nematocidal chemistries.

Dandurand emphasized that researchers from USDA, Oregon State University and Washington State University, and Cornell University have also been key contributors in the PCN eradication effort.

Published in Catching Up with CALS