Abstract
There are several evolutionary grades of wing reduction in female bagworm moths of the family Psychidae. In this family, female adults of Taleporia trichopterella, Bacotia sakabei and Proutia sp. have vestigial wings, although as pupae they have small wings. Consequently, these species (usually called wingless-legged bagworm moths), are intermediate between the two extremes of females with normal wings and those with no wings. Using light and electron microscopy, the processes of wing development during the last-larval instar and wing degeneration during the pupal stage was investigated in these species. Female wing imaginal discs proliferated during the last-larval instar, but diminished due to apoptosis in the prepupal stage of the last instar. In the pupal stage, degenerate cells were observed between the epithelia of the degenerating wing discs of the female. The presence of these cells is associated with apoptotic cell death. These observations suggest that female-specific wing degeneration caused by apoptosis occurs in two steps in these bagworm moths, i.e. in the larval and pupal stages. Such a process of wing reduction has not been previously reported in holometabolous insects, and is reported here for the first time in bagworm moths.
Highlights
The acquisition of flight capability is one of the most important events in insect evolution (Roff, 1990; Sattler, 1991; Wagner & Liebherr, 1992; Andersen, 1997)
Saigusa (1962) graded species of the family Psychidae as D E J J, and G according to the degree of wing and leg reduction in the female, oviposition behaviour and morphology of the ovipositor (Fig. 1)
The three species of wingless-legged bagworm moths used in this study, Taleporia trichopterella, Bacotia sakabei and Proutia sp., reflect the taxonomic diversity of Psychidae
Summary
The acquisition of flight capability is one of the most important events in insect evolution (Roff, 1990; Sattler, 1991; Wagner & Liebherr, 1992; Andersen, 1997). Saigusa (1962) graded species of the family Psychidae as D E J J, and G according to the degree of wing and leg reduction in the female, oviposition behaviour and morphology of the ovipositor (Fig. 1). The process of wing development in holometabolous insects has been well studied, especially in Drosophilla melanogaster, Manduca sexta and Bombyx mori (Fristrom et al, 1977; Milner et al, 1984; Kawasaki & Iwashita, 1987; Nardi at al., 1987), studies on the mechanism of wing reduction in lepidopteran insects are limited (Fedotov, 1939; Nüesch, 1947; Nardi et al, 1991; Niitsu, 2001, 2003; Lobbia et al, 2003) The reason for this is partly attributable to the difficulty of rearing wild species in the laboratory
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