Eggs are 1 mm in diameter, located under green unattacked leaves. First larvae just coming out from the egg are about 1–2 mm long. Larvae development brings them in four weeks to about 35–40 mm at maximum. There is some shrinkage at the beginning of the nymphosis, pupae are 25–30 mm long, first green with browning longitudinal lines, then more and more brownish. The wingspan of the adult form is 40–45 mm. Two variants are observed, the most common one is mostly white while the other is most entirely light brown.
Life cycle
There are two or three generations per year with adults on the wing from April/May to September.. In the warmest parts of the European importation area, with cold conditions coming late in the year, there might be sometimes four generations per year. The species overwinters as a juvenile cocooned larva, protected in an hibernarium made of two leaving Buxus leaves solidly joined by silk.
Host plant
The larvae feed on the leaves and shoots of Buxus species. Young larvae only eat the upper part of the leaf, leaving the hardest inside structure. The leaves are not destroyed completely but appear as "peeled" in small parallel beats lines, or almost completely. These peeled leaves eventually die. Old larvae are the most damaging: they massively and completely eat the leaves, sometimes leaving a thin part at the contour and centre of the leaf, however. Green ball-shaped frass can usually be seen on host plants.
Natural regulation or predation
In the area of origin natural regulation occurs, as witnessed by the non-destructive behavior of C. perspectalis. In the area of Europe where the moth has been introduced, the damage is very serious because natural regulation does not occur at a significant level. However, in European areas where the Asian hornet is present prior to the introduction of C. perspectalis, some degree of predation by the wasp is observed. This is namely in the south-west of France, the first place where V. velutina was introduced to Europe in 2004. V. velutina is able to capture small larvae, and larvae preparing for the nymphosis in their cocoon. Where V. velutina has been introduced this causes other problems as it preys on honey bees and European honey bees are more vulnerable than their Asian counterparts. Further research is conducted for the suitability of C. perspectalis for parasitoid species, such as the tachinid Exorista larvarum.
Control measures
Synthetic insecticides such as cypermethrin and deltamethrin are efficient, but must be thoroughly applied inside the bush and under leaves. Natural pyrethrin insecticides, extracted from Chrysanthemum and mixed with colza oil, can also be used. Spinosad, based on chemical compounds found in a bacterium, is also efficient. Bacillus thuringiensis ssp. kurstaki is a bacterium which produces an insect-specific endotoxin which perforates the caterpillars' gut lining, leading to paralysis and death. Nematodes also have an action on the digestive system of larvae. Pheromone traps are able to prevent impregnation of adult females and therefore control the severity of the damage. A more important proportion of sterile eggs is deposited by adult females. The selectivity of the pheromone is very good and useful indigenous species are not attracted. Pheromone traps must be in place from March–April to October–November. Insecticide, Bacillus and nematode treatments must be repeated three times at an interval of about ten days, because they mostly affect young larvae. The species has become widespread in London and surrounding areas and has been ranked the top garden pest in Great Britain. Royal Horticultural Society provides an to keep track of the pest.