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Deodar cedar, NCSU Campus
Photo: M.J. Munster, PDIC |
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Japanese black pine, Wilmington, NC.
Photo: John Wooldridge, NCCES. |
What do the two trees in the foreground of these images have in common? They are both infected with the pine wood nematode. This pest also goes by the name "pine wilt" nematode and by the jaw-breaking scientific name
Bursaphelenchus xylophilus. That's a big name for roundworms less than a millimeter long. They also are narrow and nearly transparent, making them difficult to see without a microscope. The micrograph below shows swarms of them emerging from a bit of infected wood that was placed in water. Although they are called pine wood nematodes, they can invade a number of genera of conifers in addition to pines.
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Bursaphelenchus xylophilus
Photo: NCDA&CS Nematode Assay Laboratory, Weimin Ye |
Let me back up a moment for those not familiar with the Phylum Nematoda. Nematodes in general are extremely abundant on our planet, but relatively few cause economic damage. Most species are marine - ask your children if they've seen them on "Sponge Bob." Most of the terrestrial types are not parasites but are free-living scavengers and predators. A few bad actors besmirch the nematode name by causing human and animal diseases like trichinosis, hookworm, pinworm, and canine heartworm. Most plant parasitic nematodes live in roots and soil, such as the famous root-knot nematode (
Meloidogyne species). Pine wilt nematodes are an exception. They don't inhabit the soil at any point in their life cycle and rely on a beetle to carry them around. The story is a bit complicated, but goes something like this…
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Monochamus carolinensis,a species of pine sawyer
Natasha Wright, Florida Dept. of Ag. & Consumer Services
Bugwood.org |
To get things started, you need a live or recently dead tree or log that is both loaded with pine wood nematodes and infested with one of the longhorn beetles known as pine sawyers. Inside the beetle galleries, the nematodes move into the trachea (breathing tubes) in the sides of the beetle. When the young adult beetles emerge from the wood, their first act is to do what's called a maturation feeding on the bark of healthy conifer twigs. Thus the beetle both carries the nematodes to a new tree and gives them an easy entrance by exposing the wood. There are no recorded instances of the nematodes ever saying "thank you" for this service. Once in the wood, the nematodes mature, reproduce, and colonize their new home. From there, disease progress can be slow or rapid. Tree growth slows down, and needles begin to yellow, wilt, and brown. This can happen on the whole tree or just one branch. Eventually the tree may die. Some of this information - plus the juicy details of the process, involving toxin production and "catastrophic xylem cavitation" - is found in Sinclair & Lyon's book
Diseases of Trees and Shrubs, 2nd edition.
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Austrian pine (background) and red pine, Wisconsin
USDA Forest Service – North Central Res. Station Archive
Bugwood.org |
The astute reader may have noticed something else about the trees pictured above: they aren't native to North America. This is not a coincidence. Although our native pines can become infested by pine wood nematode, most species are not seriously harmed unless they are also under drought stress. The photo at left shows healthy native red pines and pine-wilt-affected Austrian pines in Wisconsin. The native conifers, the pine sawyers, and the nematodes all "grew up together", so to speak. There's been a millennial struggle for the upper hand that's led to a sort of stalemate over the years. Any trees that were too susceptible to the nematodes have died out. Likewise any nematode that could not prosper in the trees didn't survive. We call this process "co-evolution". Newly imported nonnative hosts suffer greatly in this situation, because they never evolved defenses against the local pests. Japanese black pine is a wonderful tree for our coast because of its salt tolerance, but many are lost to pine wilt nematode. Even worse is the situation in Japan and some other parts of Asia. There native pines have been devastated following the introduction of
Bursaphelenchus xylophilus.
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Sample of Japanese black pine as
received at the NCSU PDIC |
If you have a tree that you believe might have pine wilt nematode, contact your County Cooperative Extension Service about sending a sample to the PDIC. Unfortunately, the best sample is rather destructive: a six-inch-long segment of the main stem (2-4" diam), just below the dead terminal. The picture at left shows an excellent sample we received earlier this year. We will forward the material to the NCDA&CS Nematode Assay laboratory. There is no cure for infected trees. The actions you take will be to prevent problems for healthy trees down the road, both literally and figuratively. Trees that test positive should be removed and destroyed. To prevent existing or new beetle infestations from moving the nematodes around, promptly chip the tree. After doing some investigating into the biology of the beetles, our Dr. Chuck Hodges has added the recommendation: "If feasible, it may also help to remove the stump 2-3 inches below ground line." In some quarters the idea seems to have circulated that stumps should be treated with borax. This is actually a practice used to combat annosum root rot - another occasional killer of conifers - but that will do no good against pine wilt. Much more information about pine wilt disease can be found in
US Forest Service Publication NA-FR-01-04.