Watch for wireworms in potatoes

If wireworm is not on Prairie potato growers' radar yet, it will be in the near future

According to Bob Vernon, a research scientist with Agriculture and Agri-Food Canada in Agassiz, B.C., since the organophochlorine pesticide Lindane was banned in Canada in 2004, followed by the organophosphate insecticide Thimet last year, populations of wireworm have been slowing in some areas and “booming” in others.

Vernon was in Brandon, Man., to present a talk titled “Wireworm Control in Potatoes and Strategic Rotational Crops in Canada” at Manitoba Potato Production Days this January.

Vernon is heading up a 15-year national wireworm study, one part of a Canadian Horticultural Council (CHC) project that aims to survey major potato pest species occurring in different agricultural regions across Canada.

Wireworms, the offspring of click beetles, can cause severe damage to potatoes by putting holes in tubers that render them unmarketable.

Along with AAFC technician Wim Van Herk, Vernon is building a “wireworm map” of Canada, based on wireworm and click beetle samples sent to their lab annually from growers and entomologists across the country. Vernon’s team has identified roughly 20 species that are economically important for potato.

“In Manitoba, we found three or four different species, but one species, Hypnoidus bicolor, a very small wireworm, is by far the most predominant,” he said. “It’s found in probably 75 per cent of the samples we received from Manitoba.”

The second most numerous species of wireworm in the Prairie provinces is Selatosomus destructor, a species which — like H. bicolor — prefers non-irrigated fields.

Even though populations are growing, Manitoba doesn’t have the worst of it. Yet. “In some areas of Canada wireworm populations are going absolutely through the roof — certain areas of B.C., Alberta and P.E.I.,” said Vernon.

His team aims to find replacements for Thimet. “We’ve been left with the new arsenal of insecticides, such as the neonicotinoids and diamides,” he says. “But what we’re finding is that many of these new insecticides don’t kill. For example, the neonics will intoxicate the wireworms for a long period, so you end up with a good crop, but you don’t kill any wireworms, and they can increase year by year.”

Wireworm Control

Another aspect of Vernon’s project is management. Because there are so many species of wireworm in Canada, and each species responds differently to the various pesticides registered for their control, management strategies necessarily vary by region.

“That’s the reason why we’re doing these surveys — to find out which species we have, and try and figure out how we can deal with these different species,” said Vernon. “We’ll deal with them differently in B.C. than in Atlantic Canada.”

There are some chemical controls available for wireworm control, including Thimet 20G, but it can only be applied using specific application machinery called a SmartBox, which is still under development.

Bifenthrin — labelled as Capture — is also registered in Canada as of 2014, and can be sprayed into the furrow at planting.

Vernon and colleague Todd Kabaluk are working on developing biological controls with fungi to control wireworms and click beetles. Last year, they developed a new pheromone trap for monitoring the European species of wireworm causing huge problems in P.E.I. “These work extremely well. We tested them out last year and caught in three fields just under a million click beetles, which is a huge number,” he says.

The pheromone trap is primarily for monitoring, but can also be used as a mass trapping tool. In 2016, the team plans to conduct formal studies in their use. In addition, Vernon is studying both chemical and biological methods of killing adults before they lay their eggs.

While Vernon was hesitant to recommend rotational strategies to growers, he did confirm that cereals and grasses are the number one preferred host for click beetles laying eggs.

“So if you rotate potatoes with cereals or grasses, you’ll get egg laying in those fields, and because nothing registered on those crops will kill them, you’ll have a population there the next year,” he said. “In the case of the small species in Manitoba, it takes them two to three years to go from egg back to adult, so you have a problem for the next two to three years. Growers can do with that information what they will.”

If growers choose to plant brassica crops such as canola, they’ll see fewer eggs in potatoes in the following year, said Vernon.

The survey will offer much-needed information to growers across the country when it concludes next year, but Vernon says there’s much work still to be done — and not many researchers working on wireworm.

He recommends that growers contact their provincial entomologist if they encounter problems with wireworm, and send samples to his lab so the team can refine results by province.

“Knowledge is power: the more you know about wireworms the better you can control them,” he said.

About the author


Julienne Isaacs

Julienne Isaacs is a Winnipeg-based freelance writer and editor. Contact her at [email protected]

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