Abstract
The marine copepod Calanus finmarchicus is known to overwinter at depth in a state
analogous to diapause in terrestrial insects, but the cues which cause individuals to enter and leave this
state are the subject of speculation. In this paper we use a simple demographic model, driven by environmental
data from 4 distinct locations in the organism's eastern range, to test the plausibility of a
number of candidate mechanisms. We start from Miller et al.'s (1991; Mar Ecol Prog Ser 72:79-91)
hypothesis that diapause is controlled by photoperiod, and show that thls leads to unrealistic patterns
of reproductive activity in northern waters. We extend the model to include the recently reported phenomenon
(Hirche 1996a; Ophelia 44:lll-128) of delayed gonad maturation in females experiencing
low food concentrations. This ylelds more plausible annual patterns, but falls to reproduce observed
geographical variation in the timing of the yearly onset of reproductive activity. Our final model dispenses
with photoperiodic control and assumes that diapause duration is controlled by the normal
development processes operating at a reduced rate. This model reproduces all the qualitative features
of the patterns of reproductive activity observed at our 4 test sites, thus demonstrating that photoperiod
cueing is not a necessary prerequisite for the regular re-ascension of C. finmarchicus into surface waters
Original language | English |
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Pages (from-to) | 95-107 |
Number of pages | 12 |
Journal | Marine Ecology Progress Series |
Volume | 193 |
Publication status | Published - 28 Feb 2000 |
Keywords
- calanus
- diapause
- overwintering
- life-cycle modelling