Dealing with Lymantria Dispar Around Your Home or Property

Lymantria dispar, formerly gypsy moth, is an important invasive pest of many forest and shade trees in Michigan and across much of the northeastern United States. This foliage-feeding insect, which is native to Europe, was introduced into Massachusetts in 1869 by a misguided naturalist. Lymantria dispar has been slowly spreading across the U.S. and Canada. The first Lymantria dispar outbreaks in Michigan occurred in the mid-1980s in Midland and Clare counties in the central part of Lower Michigan. Since then, Lymantria dispar has become established in all Michigan counties and most of the state has experienced one or more Lymantria dispar outbreaks.

The Lymantria dispar can be an annoying pest in residential, urban and rural areas as well as forests. Lymantria dispar caterpillars, the immature “larval” stage, feed on the leaves of more than 300 species of trees. They especially like oaks but many other trees are also good hosts. During an outbreak, the density of Lymantria dispar caterpillars can be so high that many host trees are heavily or even completely defoliated. The abundance of large, hairy caterpillars and the resulting rain of frass (fecal pellets) from infested trees is unpleasant and can be distressing, especially for people who have not experienced a Lymantria dispar outbreak before.

Here are frequently asked questions and answers by residents during Lymantria dispar outbreaks.

How do I know if I have Lymantria dispar feeding on my trees?

Many insects will feed on tree leaves, but there is only one Lymantria dispar. Lymantria dispar caterpillars have pairs of red and blue spots along the back and long, dark hairs. They feed on leaves of oaks and other preferred host trees including aspen, apple, basswood, birch, crabapple, willow and many other types of trees in early and mid-summer, usually from mid- or late May until early July.

Gypsy moth larva
Lymantria dispar larva. Photo by Jon Yuschock, Bugwood.org.

Eastern tent caterpillar (Malacosoma americana F), for example, is a native insect that makes silk tents in apple, crabapple and cherry trees. It feeds early in spring but rarely causes severe defoliation.

Eastern tent caterpillar
Eastern tent caterpillar. Photo by Robert F. Bassett, USDA Forest Service, Bugwood.org.

Fall webworm (Hyphantria cunea F), another native insect, feeds in late summer and fall on many different species of hardwood trees. The light colored caterpillars wrap silk webbing around leaves as they feed. Although the large webs can be unsightly, the late summer defoliation does not affect the tree’s health.

Fall webworm
Fall webworm. Photo by Eric Rebek, Oklahoma State University, Bugwood.org.

Lymantria dispar caterpillars spin reddish brown cocoons in late June or July. Over the next one to two weeks, the caterpillars develop into moths, a process called pupation. Many other insects feed on oak trees and are sometimes mistaken for Lymantria dispar.

Gypsy moth larva and feeding damage
Lymantria dispar larva and feeding damage. Photo by Bill McNee, Wisconsin Department of Natural Resources, Bugwood.org.
Gypsy moth pupate in reddish brown cocoons
Lymantria dispar pupate in reddish brown cocoons. Photo by USDA APHIS PPQ, Bugwood.org.

Adult moths emerge from cocoons, usually in July or early August. The moths live only a few days and do not feed. Adult males are brown with dark markings on the wings and are active fliers. Adult females have white wings with black chevron markings, but do not fly. Each female lays one tan egg mass, which she covers with a dense mat of tiny hairs from her body. Egg masses may be small, about the size of a quarter, or up to 3 inches long. Egg masses are laid in July or August, overwinter and hatch the following April or May.

View the MSU Enviroweather Lymantria dispar Egg Hatch Prediction Model

Female moth & cocoons
Female moth and egg mass. Photo by Karla Salp, Washington State Department of Agriculture, Bugwood.org.

 


Has Lymantria dispar killed my tree?

An oak or other hardwood tree that is completely defoliated by Lymantria dispar caterpillars may look as if it's dead. However, most of these trees will “re-flush” and produce a second set of leaf buds, usually by late July. This second set of leaves will provide enough energy for the tree to survive winter. Severe defoliation does stress the tree, but trees can usually tolerate even complete defoliation for a few years. If trees are affected by other stress factors such as severe drought, disease or poor growing conditions, there is a greater chance severe defoliation will lead to mortality.

Also, when conifer trees such as spruce, pine, fir and Douglas-fir are severely defoliated, they will probably die. Conifer trees produce buds in late summer and have no ability to re-flush if they are defoliated. Lymantria dispar caterpillars seldom feed on conifers unless populations are high and most of the leaves on oaks and other preferred hosts have already been consumed.

Defoliated trees
Defoliated trees. Photo by Bill McNee, Wisconsin Department of Natural Resources, Bugwood.org.

How can I keep my trees healthy?

Drought stress can be a problem for trees that are heavily defoliated. The best thing you can do for your trees is to water them once a week during dry periods in the summer and fall. Let a hose run slowly near the base of the tree for a few hours once a week. Alternatively, place a sprinkler between the trunk and the drip line of the canopy. Set an empty can or plastic container near the sprinkler and let the sprinkler run until an inch of water has accumulated in the container. Avoid compacting the soil or damaging the root system of trees, which can affect water uptake.

Also, be careful with lawn mowers, weed whips, snow shovels and other equipment. Wounds increase the risk that trees will become infected by disease.

Is there anything I can do to help reduce Lymantria dispars in my yard?

You bet! Search for Lymantria dispar egg masses on trees, firewood and outdoor furniture. Scrape egg masses into a bucket or similar container filled with soapy water, or burn or bury the egg masses. Don’t leave the eggs or bits of egg mass on the ground – those eggs can often hatch the following spring.

Egg masses on bark
Lymantria dispar egg masses on a tree trunk. Photo by Karla Salp, Washington State Department of Agriculture, Bugwood.org.

Will Lymantria dispar pheromone traps help prevent or reduce defoliation?

No! Pheromone traps are used by scientists and pest managers to detect new Lymantria dispar populations in uninfested areas. These traps, which are baited with the sex pheromone produced by female Lymantria dispars, only capture male moths and will have no effect on the current or future Lymantria dispar populations. Setting pheromone traps in Michigan, where Lymantria dispar has been established for decades, will not affect the abundance of caterpillars, nor reduce defoliation this year or in future years.

Red Delta trap on tree
Red Delta trap on tree. Photo by USDA APHIS PPQ, Bugwood.org.
Green Delta trap on tree
Green Delta trap on tree. Photo by Chris Evans, University of Illinois, Bugwood.org.

Many natural enemies including mice, some birds and predatory insects feed on Lymantria dispars at various life stages. Several insect parasitoids, which are highly specialized types of wasps or fly species, attack Lymantria dispar eggs, caterpillars or pupae. You can encourage these natural enemies by avoiding the use of broad-spectrum insecticides and providing habitat for birds and predators.

the gypsy moth hunter
Calasoma sycophanta, the Lymantria dispar hunter. Photo by Pennsylvania Department of Conservation and Natural Resources, Bugwood.org.

A virus disease (nucleopolyhedrosis virus, or NPV) that affects caterpillars usually causes Lymantria dispar outbreaks to collapse after two or three years of heavy defoliation. The Lymantria dispar fungus Entomophaga maimaiga can also kill large numbers of caterpillars in some years.

Some residents use Bt (Bacillus thuringiensis var. kurstaki) to protect landscape trees from severe defoliation. Bt is applied by spraying leaves on the host trees one to two weeks after eggs have hatched. Young caterpillars are more vulnerable to Bt and controlling these early stages will protect trees from severe defoliation. Caterpillars must consume leaves that have been recently sprayed for the Bt to be effective; simply coming into contact with sprayed leaves will have no effect.

Bt is not harmful to humans or other mammals, birds, fish or other animals. Bt products, which are approved for organic farms and gardens, also have little impact on beneficial insects, including predators, parasitoids and pollinators. You can spray Bt yourself or hire a professional arborist or tree care service to spray trees. If your trees are large, it is often a good idea to hire professionals who have equipment to get the Bt into the canopy where the caterpillars will feed. For more information about using Bt, see our publication “Btk: One management option for Lymantria dispar.”

View the MSU Enviroweather Lymantria dispar Egg Hatch Prediction Model

 

Several types of conventional insecticides can be used to control Lymantria dispar caterpillars on landscape trees. It is best to apply any insecticide when caterpillars are young to limit defoliation. Many conventional insecticide products are applied by spraying the host trees where the caterpillars are feeding. This can be effective but will likely affect non-target species including beneficial insect predators, pollinators and parasitoids.

Other types of insecticides are injected into the base of the trunk of a tree. Trees transport the insecticide up the trunk to the leaves where the Lymantria dispar caterpillars are feeding. Insecticide products with the active ingredient emamectin benzoate, for example, should effectively control Lymantria dispar. Check with MSU Plant & Pest Diagnostics if you have questions about whether a specific insecticide product will control Lymantria dispar.

Will I have to deal with Lymantria dispar next year?

Lymantria dispar populations typically remain high for two to three years then collapse and return to low levels. This population collapse usually is the result of a virus disease called NPV that affects Lymantria dispar caterpillars. When populations are high, the caterpillars compete with one another for food and resting spots. Stressed caterpillars become more susceptible to the NPV disease. After a year or two of heavy defoliation, the NPV disease, in combination with a fungal disease and other natural enemies, will generally control the outbreak. Lymantria dispar populations usually remain at low levels for five to 10 years and sometimes longer. Eventually, some factor triggers another outbreak and a new cycle begins.

For more information, see the page: A Virus and a Fungal Disease Cause Lymantria dispar Outbreaks to Collapse.

larval cadaver
NPV larval cadaver. Photo by Steven Katovich, Bugwood.org.

Can't we just get rid of ALL the Lymantria dispars?

Nope. Lymantria dispar is here to stay and is a part of Michigan's forest and urban forest ecosystems. You can, however, help keep Lymantria dispar from spreading into states that are not yet infested. Lymantria dispar females like to lay their egg masses in dark, protected locations such as the underside of lawn chairs or picnic tables or on firewood. Egg masses may also be found on recreational vehicles or trailers or in the wheel wells of cars.

Accidentally transporting egg masses to a new location can result in a new Lymantria dispar population that will cause headaches for other people. Be sure you know what a Lymantria dispar egg mass looks like. Inspect firewood, vehicles, lawn furniture and other outdoor items that might have egg masses before moving them out of state. If you find egg masses, scrape them off into a bucket of soapy water or burn or bury them.

Tree Defoliation
Tree defoliation. Photo by Karla Salp, Washington State Department of Agriculture, Bugwood.org.