Aestival dormancy in the Cabbage Moth Mamestra brassicae L. (Lepidoptera : Noctuidae). 2. Geographical variation in two traits : day length thresholds triggering aestival dormancy and duration of aestival dormancy
Auteurs : Sauer (Klaus Peter) et Grüner (Cornelia)
Année de publication : 1988
Publication : Oecologia
Volume :
76
Fascicule : 1
Pagination : 89-96
Résumé :
In a geographically wide distribution the life cycles of different populations of the cabbage moth Mamestra brassicae are adapted to a remarkable diversity of climatic conditions. This is undoubtedly a proof of its success in adaptation. Some populations living in regions characterized by a drought period interrupting the growth season are capable of distinguishing between one critical day length signalling the onset of the drought period and another signalling the end of the growth season. This study, therefore, is primarily concerned with the geographical patterns in the variability of the adaptional responses of populations exposed to environmental conditions requiring different strategies and tactics in synchronizing individual life cycles. It is also a contribution to our understanding of evolutionary mechanisms maintaining median responses to photoperiodically inductive day lengths in geographically different populations. The populations investigated originated from regions differing in predictability of the incidence, onset and duration of a drought period: Freiburg (48.0.degree. N, Southern Germany), Avignon (44.0.degree. N, Southern France), and Argeles (42.5.degree. N, Southern France). Geographical variation with respect to both onset and duration of a drought period consequently results in clinal variation of the variability of innate day length thresholds triggering aestival dormancy and of innate duration of aestivation. In this paper we considered the influence of geographically changing temperatures on aestival dormancy induction. Even in southern populations of M. brassicae a temperature dependent "switch off"-mechanism exists which prevents aestival dormancy under certain environmental conditions. The effective temperatures vary geographically, too. What the geographical patterns in adaptive responses really are, is discussed