Diapause
is a suspension of development that can occur at the embryonic, larval, pupal,
or adult stage, depending on the species. In some species, diapause is facultative
and occurs only when induced by environmental conditions; in other species the
diapause period has become an obligatory part of the life cycle. The latter
is often seen in temperate-zone insects, where diapause is induced by changes
in the photoperiod (the relative lengths of day and night). The day length when
50% of the population has entered diapuase is called the critical day length,
and it is usually quite sudden (Figure 1). Insects entering diapuse when the
day length falls below this threshold are called long day insects. Those insects
that develop normally when there are only a few hours of sunlight and that
enter diapuse when exposed to longer days are called short-day insects. The
critical day length is a genetically determined property (Danilevskii 1965;
Tauber et al. 1986).
Diapause is not a physiological response brought about by harsh conditions.
Rather, it is brought about by token stimuli that presage a change in the environment.
Diapause begins before the actual severe conditions arise. Diapause is especially
important in temperate zone insects that overwinter. Embryos of the silkworm
moth Bombyx mori overwinter as embryos, entering diapuse just before
segmentation. The gypsy moth Lymantia dispar initiates its diapause as
a fully formed larva, ready to hatch as soon as diapaus
While diapause in the embryonic stage appears to be regulated (at least in
some species) by a diapause hormone, larval diapause appears to be controlled
by the inhibition of PTTH production. This prevents the larvae
from molting and entering pupation. In many butterflies, this inhibition of
PTTH is due to a continued elevated titre of juvenile hormone. Similarly, the
lack of PTTH and ecdysone secretion once pupation has occured will cause diapause
during this part of development. Diapausing pupae can be reactivated by adding
back 20-hydroxyecdysone. However, under nomal conditions, the brain of diapausing
pupae (such as those of the moth Hyalophora) is activated by the exposure
to cold weather for a particular duration. Moth pupae kept in warm conditions
will remain in diapause until they die. The mechanism by
which these temperature and day length changes regulate hormone production remains
to be elucidated.
The ability to time one's development to season, temperature, or even tides
is a critical property of many organisms. In some species, the timing of development
has to take several ecological variables into account simultaneously. One sees
such an example in the baroque life cycle of a small midge, Clunio marinis ends. Other insects
experience diapause as eggs, pupae, or even as adults.
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