Box tree moth, Cydalima perspectalis (Figure 1), is an invasive pest of boxwood plants (Buxus spp.). It was introduced into New York in 2021 and is now reported in Michigan, Ohio, Connecticut, Massachusetts, New York, South Carolina, and Tennessee. It has not been reported in Georgia yet. The native range of the box tree moth is Asia, including Japan, China, Korea, and India. It is also reported as a serious problem in Canada, Europe, and Russia. Boxwoods are an important ornamental evergreen shrub in the southeastern U.S., widely planted in residential, commercial, and public landscapes in both urban and suburban areas.
Description and Life History
Adult box tree moths are mostly white, with a white spot in the shape of a comma on each forewing. Their head, borders of wings, and tips of the abdomen are brown (Figure 1). However, approximately 10% of the moths are entirely brown with a comma-shaped mark on both forewings (Figure 1). Their wingspan is 1.6–1.8 in. with a slight iridescence. Adults can live up to 30 days and spread over a radius of approximately 6 miles. They lay translucent, flat, yellowish eggs in groups of five to 10 on the leaf surface (Figure 2).
Eggs appear as fish scales on the surface. The eggs hatch within 3–4 days, depending on the local temperature. The neonates (newly hatched young larvae) of the box tree moth are pale brown with a black head (Figure 3).
Late-instar larvae are green with black and yellow stripes and black spots (Figures 4 and 5); the head is black. Larvae feed on the leaves for 2 weeks and pupate in silken webbing and leaves.
The young pupa appears green with brown stripes (Figure 6). After approximately 2 weeks, the moths emerge from the pupae.
Box tree moths overwinter as larvae in silken chambers built between leaves (Figure 7). As the weather warms in the spring, they emerge from the silken chambers and feed on leaves before pupating in the silk chamber.
Multiple generations are possible as all life stages may be present throughout the summer. There could be up to five generations per year. The overwintering caterpillars can tolerate temperatures as low as -22 °F and resume development when temperatures reach approximately 46 °F in the spring.
Host Plants
Boxwoods (Buxus spp.) serve as the host plants for box tree moths.
Damage
Extensive feeding by the larval stages causes defoliation of boxwoods (Figures 8 and 9). Young larvae scrape off the tissues from the underside of the foliage. The affected leaves appear bleached.
As they grow into bigger caterpillars, they can eat the entire leaf, leaving behind the midrib. Caterpillars produce extensive webbing on the foliage. Upon complete defoliation of the plant, larvae feed on the bark. Heavy infestations can result in the complete collapse of the plants.
Management
After initial confirmation in Germany, the box tree moth spread rapidly to most European countries through the movement of native boxwood species. In the United States, European boxwood cultivars are favored by the landscape industry, are actively planted in new residential and commercial developments, and are widely grown in container nurseries. Boxwood planting materials are actively moved around between states and can likely contribute to the rapid spread of this invasive pest. Since boxwood plants are not native to the United States, they are not found in natural wild habitats. Therefore, careful inspection combined with proper phytosanitary measures could prevent the spread of this non-native insect pest in the landscape.
Contact insecticides, such as pyrethroids (e.g., permethrin, cyfluthrin, deltamethrin, bifenthrin) or spinosad, should be effective against larval stages. Multiple applications during the growing season may be necessary. Bacillus thuringiensis subsp. kurstaki (Btk), widely recommended for caterpillar pest management, should also be effective against early instar larvae of the box tree moth. Multiple weekly applications may be required for effective management using Btk products.
What Should I Do if an Infestation is Suspected?
If you suspect a box tree moth infestation or damage, please collect a few moths, contact a local UGA Extension agent or the Georgia Department of Agriculture, and send the specimens for confirmation.
References
Bras, A., Avtzis, D. N., Kenis, M., Hongmei, Li., Vétek, G., Bernard, A., Courtin, C., Rousselet, J., Roques, A., & Auger-Rozenberg, M. (2019). A complex invasion story underlies the fast spread of the invasive box tree moth (Cydalima perspectalis) across Europe. Journal of Pest Science, 92, 1187–1202. https://doi.org/10.1007/s10340-019-01111-x
European Boxwood & Topiary Society (2020). Box tree moth & caterpillar. https://ebts.org/box-moth-and-caterpillar
Larson, J. L. (2022). Box tree moth - invasive pest of boxwoods (Publication No. ENTFACT-464). Kentucky Cooperative Extension. https://entomology.ca.uky.edu/ef464
Leeser, J., & Eshenaur, B. (2023). Box tree moth. Cornell Cooperative Extension. https://cals.cornell.edu/new-york-state-integrated-pest-management/outreach-education/fact-sheets/box-tree-moth
Skvarla, M. J. (2023). Box tree moth. PennState Extension. https://extension.psu.edu/box-tree-moth
Strachinis, I., Kazilas, F., Karamaouna, F., Papanikolaou, N. E., Partsinevelos, G. K., & Milonas, P. G. (2015). First record of Cydalima perspectalis (Walker, 1859) (Lepidoptera: Crambidae) in Greece. Hellenic Plant Protection Journal, 8(2), 66–72. https://doi.org/10.1515/hppj-2015-0010
Wan, H., Haye, T., Kenis, M., Nacambo, S., Xu, H., Zhang, F., & Li, H. (2014). Biology and natural enemies of Cydalima perspectalis in Asia: Is there biological control potential in Europe? Journal of Applied Entomology, 138(10), 715–722. https://doi.org/10.1111/jen.12132
Status and Revision History
In Review on Mar 20, 2025
Published on Mar 31, 2025