Abstract
The Asian ladybird Harmonia axyridis (Pallas) (Coleoptera: Coccinellidae) is regarded as an invasive species in many parts of the world. In a previous study we hypothesised that H. axyridis enters diapause at the end of October and then shifts to a quiescent state in December in northwestern Europe. In the present study we test this idea of a short, early period of diapause by sampling beetles from their hibernation sites immediately after their migratory flights in October, subsequently keeping them in outdoor cages, and then, after certain time-intervals, measuring the pre-oviposition time under optimal egg-laying laboratory conditions at 25°C. We did this at both short (12L) and long (16L) photoperiods, since a photoperiodic response is an indicator of true diapause, rather than quiescence. A significant, albeit small, difference in pre-oviposition period between the two photoperiods, which disappears in December, corroborates our earlier hypothesis that the ladybirds are in a state of diapause until mid-December. Compared with that of native ladybirds the diapause of H. axyridis generally is relatively short and weak; moreover, it appears to have become shorter over the last decade. This flexibility in diapausing behaviour may be an important factor that contributes to the invasive success of H. axyridis.
Highlights
Dormancy is a state in which metabolism is greatly slowed down and development and reproduction are suppressed (Tauber et al, 1986; Denlinger, 2002)
Insects stay dormant in a state of post-diapause quiescence as long as unfavourable conditions are encountered, but as soon as favourable conditions arrive they will respond and resume development and reproduction (Tauber et al, 1986)
The observed photoperiodic response until mid-December indicates that H. axyridis starts overwintering in a state of diapause
Summary
Dormancy is a state in which metabolism is greatly slowed down and development and reproduction are suppressed (Tauber et al, 1986; Denlinger, 2002). In this state, an organism is able to survive a period of unfavourable conditions, such as a prolonged period of low temperatures, and the development of active life stages is synchronised with favourable conditions (Hodek, 2012b). Modifications in physiology (e.g. arrestment of growth and ovariole development), morphology (increased fat body), and behaviour (search for protected sites) occur. This socalled diapause syndrome is species-specific (Tauber et al, 1986; Denlinger, 2002).
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