The winter moth is a moth of the family Geometridae. It is an abundant species of Europe and the Near East and a famous study organism for evaluating insect population dynamics. It is one of very few lepidopterans of temperate regions in which adults are active in late fall and early winter. The adults use endothermy for movement in these cold temperatures. The female of this species is virtually wingless and cannot fly, but the male is fully winged and flies strongly. After the initial frosts of late fall, the females emerge from their pupa, walk to and up trees, there emitting pheromones in the evening to attract males. Fertilized, she ascends to lay, on average, around 100 eggs. Typically, the larger the female moth is the more eggs she lays. Winter moths are considered an invasive species in North America. Nova Scotia, Canada, experienced the first confirmed infestations in the 1930s. It was later accidentally introduced to Oregon in the 1950s and the Vancouver area of British Columbia around 1970. Defoliation by the moth was first noted in eastern states of the United States in the late 1990s, and is now well established in Massachusetts, Rhode Island, New Hampshire and Maine. Winter moth is confirmed present in British Columbia, Washington and Oregon. In Massachusetts, the moths have attracted the attention of several media outlets due to the severity of the infestation. Efforts at biological control are underway.
Description
The forewing ground colour of the winged males varies from grey-yellow to beige-brown or occasionally slightly reddish-tinted. The patterns are often band-shaped dark brownish, often indistinct. The fringe is yellowish. The hindwings are pale grey or yellow grey. The antennae are short and finely hairy. The flightless female has a brownish-grey body with rudimentary wing stubs that are brown to grey and have dark bands. Body length for both sexes approximately 1.0 centimeters. Larvae at hatching are 1/10 inch in length and will grow to 3/4 inch over a six-week period. In North America, winter moth can be confused with the related native speciesBruce spanworm. In fact, the two species hybridize.
Distribution
Native to Northern and Central Europe: In the South, its range extends to Northern Italy; in the East to the Caucasus and Asia Minor; in the North to the Baltic. The genetic populations of winter moth in Europe are a result of recolonization following the last glacial period. As an invasive species, this moth is found in Nova Scotia, coastal New England and also the Pacific northwest. In New England, expansion inland and north appears to be curtailed by cold winter temperatures, so for example, coastal Maine but not inland. Locally milder winters, as part of global climate change, may be allowing expansion of afflicted territory. A study conducted in Massachusetts documented that winter moth defoliation reduced the annual trunk diameter growth rate of oak trees by an average of 47% while not significantly impacting growth rates of the less defoliated maple trees.
Life cycle
Winter moth larvae emerge in early spring from egg masses laid near leaf buds after a series of days in which the daytime high temperatures reach into the 50s Fahrenheit. Research conducted in the Netherlands indicated that as climate warming is causing spring temperatures to become warmer sooner, some of the winter moth eggs were hatching before tree leaf buds - first food for the caterpillars - had begun to open. Early hatchlings starved. Late hatchlings survived. Because hatch timing is genetically controlled, the moths are evolving to resynchronize with bud opening by delaying the response to the temperature trigger by 5 to 10 days. The larvae, like the adults, can withstand below freezing temperatures at night. Larval dispersal is the dominant source of density-dependent larval mortality and likely regulates high density population dynamics of winter moth in New England. Larvae prefer Oak and Apple, but also feed on Maple, Birch, Hornbeam, Chestnut, Hazel, Quince, Beech, Larch, Poplar, Cherry, Pear, Rose, Raspberry, Blueberry, Willow, Elm, and other leafy trees and shrubs. Recently hatched larvae feed on expanding leaf buds, often after having burrowed inside the bud, and later on foliage, for approximately six weeks. In addition to feeding on the tree where they hatched, young larvae will also product silk strands to 'balloon' to other trees. Defoliation can approach 90%. By mid-May the larvae, green in color and about an inch long, descend to the ground. Very little mortality due to disease has been noted in winter moth larvae in North America. Pupation occurs in the soil in late May. Adults emerge from the soil in late fall to early winter, when, upon mating, the flightless female lays eggs in bark crevices and on branches. With such a long pupal period, winter moth is vulnerable to numerous pupal predators and parasitoids.
Biological control
In Europe, where winter moths are native, two parasitic species, a wasp and a fly prey on winter moth caterpillars. The wasps insert eggs into the larvae. The flies lay eggs on leaves, which the larvae ingest when eating the leaves. As a biological control, the wasp was introduced in Canada but is not being pursued in the United States because there is not sufficient evidence that the wasp would not lay eggs in larvae of other moth species. Introduction of C. albicans, which is species-specific to preying on winter moths, has proven successful in strongly reducing, although not entirely eliminating, winter moth infestation in Nova Scotia, Canada. Test introductions were begun in eastern Massachusetts in 2005. This proved successful, so more fly releases have taken place at sites from southeast Connecticut to coastal Maine. As moth densities can reach ten million larvae per acre, several years are needed before parasitism by the flies reaches 20-50%. Once this is achieved the winter moth density declines and leaf defoliation is reduced to levels not as harmful to the trees.. The delay in establishment is likely the result of heavy mortality from predators and hyperparasitoids on the pupating C. albicans. Management of winter moth in Massachusetts using biological control with C. albicans is showing positive results.
