Silkworm Moth

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The following article is from The Great Soviet Encyclopedia (1979). It might be outdated or ideologically biased.

Silkworm Moth


(Bombyx morí), a moth of the family Bombycidae. The silkworm moth has a wingspread of 4–6 cm. It has underdeveloped mouth organs and does not feed. The larva feeds on leaves of the mulberry bush or tree; less satisfactory substitutes for mulberry include viper’s-grass, dandelion, Osage orange, and paper mulberry. Various strains of the silkworm moth are univoltine, producing one generation a year, bivoltine (two generations), or polyvoltine (several generations). Incubation lasts ten to 12 days. A diapause occurs during the egg stage. Eggs that enter diapause develop in the spring of the following year, while those that do not undergo diapause develop in the same year. The hatched larva, dark in color and covered with thick hairs, measures approximately 3 mm in length and weighs approximately 0.0004 g. The silkworm passes through five instars divided by four molts. Under normal feeding conditions, at a temperature of 23°–25°C, the larval stage lasts 25–28 days. During that time the silkworm eats 20–25 g of mulberry leaves, 75 percent of them in the fifth instar, by the end of which it weighs approximately 4 g. The silk glands comprise approximately 40 percent of the silkworm’s weight. Mature silkworms do not feed; in the course of three days they spin their cocoons, which are enveloped by a continuous silken strand 1,000–1,500 m in length. On the fourth day of spinning the silkworm is transformed into a pupa. The cocoon weighs 1.7–2.3 g, and the silk covering constitutes 20 to 25 percent of its weight. The cocoons of males contain 20 percent more silk than those of the females. On the tenth day the pupae are transformed into moths, which mate immediately after emerging from the cocoon. The fertilized females deposit 500–700 eggs in two to three days, and ten to 20 days later they die.

The silkworm was domesticated in China circa 3000 B.C. By artificial selection, many strains have been developed; they differ in regard to silk productivity, as well as morphology and physiology. Modern sericulture uses hybrids that are preferred over pure strains, as they yield a higher number of cocoons with a higher quantity of silk and cocoon strands of superior quality. More than 400 hereditary strains of the silkworm have been described. Methods have been devised for eliminating the diapause of the eggs, obtaining polyploid forms, regulating sex, and facilitating reproduction by parthenogenesis and androgenesis. The most serious diseases of the silkworm moth are pébrine, polyhedrosis, flacherie, streptococcosis, and septicemia.


Poiarkov, E. F. Tutovyi shelkopriad Bombyx mori L. Tashkent, 1929.
Mikhailov, E. N. Shelkovodstvo. Moscow, 1950.
Astaurov, B. L. Tsitogenetika razvitiia tutovogo shelkopriada i ee eksperimental’nyi kontrol’. Moscow, 1968.


The Great Soviet Encyclopedia, 3rd Edition (1970-1979). © 2010 The Gale Group, Inc. All rights reserved.
References in periodicals archive ?
Eighteen silkworm strains including six inbred pure lines and 12 hybrids of the Mulberry Silkworm Moth (Bombyx mori L.) were collected from Sericulture Division, Pakistan Forest Institute, Peshawar during Autumn (September-November) Silkworm Rearing Season 2014 (Table 1).
DNA Isolation: Three silkworm moths were used for each probe for DNA isolation.
The large silkworm moths are never very plentiful and the lovely chartreuse luna moth (Actias luna), is an officially endangered species.
The better rearing conditions, environment and nutrition during larval period may leads to higher fecundity by silkworm moths (Miller, 2005; Malik and Reddy,2007).
The results on the effect of fluctuations in temperature and humidity on the fertility of silkworm moths are shown in Table III.
Larvae and cocoon exposures to 35@C or above results in poor performance of silkworm moths in relation to egg number and egg fertility and high temperature during rearing, cocooning, mating and oviposition induced unfertilized egg layings (Gowda, 1988).
The results indicated that variations in temperature and humidity during the rearing of larvae have significant effect on the fecundity and fertility of silkworm moths. The number of eggs laid by a moth decreased significantly when the larvae were exposed to increased temperature and low humidity (T1, T4 and T7).