The diel vertical migration (DVM) of zooplankton has been extensively studied and
reviewed. Yet the controlling mechanisms for DVM are still uncertain, although
several hypotheses, e.g. predator evasion, hunger - satiation, light avoidance,
have been proposed. This is particularly so for krill. An important part of
understanding krill DVM depends on explaining the factors which drive krill to the
surface waters at night. lt is frequently speculated that krill migrate to the surface
layers to feed. Although there is a vast literature on krill feeding (and the pattern
of krill DVM) there has been little attempt to establish the role of feeding in DVM.
Consequently, the main aims of this thesis were to further explore the mechanisms
for krill DVM and also to explain the feeding strategy of krill in order to understand
the role of feeding in DVM, using Northern krill Meganyctiphanes norvegica as a
model system. These aims were achieved by examining the following: whether
krill are selective feeders and also whether the morphology of the feeding basket
constrains the food types that can be handled by krill; whether krill feed throughout
DVM; the relationship between krill metabolism and feeding during DVM. Krill
showed significantly greater feeding rates with larger food types compared with
smaller food types and this size selection appeared to be at least in part related to
the morphology of the feeding basket. Above all it seemed that krill were
opportunistic omnivores and the food types handled by krill were affected by the
morphology of the feeding basket. Krill also showed significantly greater feeding
rates when offered food types available during the night compared with during the
day. Gut contents from field caught individuals supported that krill did not feed
extensively during the day as day caught individuals had significantly less stomach
pigment content compared with night caught individuals. As krill appeared to not
feed extensively on day time available food types it raised the question 'is there a
cost to not feeding extensively during the day'. There did appear to be a cost to
the lower daytime feeding than compared with the greater feeding shown both with
night time available food types and from night captured individuals. It was
hypothesized that krill may break down their respiratory pigment, haemocyanin
(Hc) possibly for nutrition during these periods of low feeding during the day. In a
field experiment, day captured krill had significantly lower He concentrations ([Hc])
than individuals captured at night. There was a clear cost to the lower [Hc] of day
caught krill as concentrations of lactic acid in the haemolymph (indicating an O2
debt) were significantly greater in these day captured krill than compared with
night captured krill. Consequently it seems that krill break down Hc during the day
probably for nutrition because, for whatever reason, they do not feed extensively
on the food types available to them in the deeper depths they reside within during
the day. As they ascend to the surface layers at night, where they feed to
significantly greater levels on the available food types, they appeared to rebuild
their [Hc] and recover from the O2 debt they incurred during the day. Feeding
experiments examining the recovery of [Hc] with food types available during either
the day or night showed that after starvation krill recovered their [Hc] significantly
quicker (and possibly to higher levels) with night available food types compared
with day available food types. As they appear to be opportunistic omnivores it is
proposed that this feeding strategy would facilitate the recovery of their daytime
incurred debts. Krill appeared to show an asynchronously DVM and in particular
female krill appeared to ascend to the surface layers of the water column earlier
than males. In fact female krill showed a more extreme pattern of metabolism
during DVM, with significantly greater [Hc] (ea. twice that of males) but also
greater lactate debts with the breakdown of their Hc during the day. The earlier
ascent to the surface layers and also the much greater [Hc] of females may
indicate that they have greater metabolic demands than males. The asynchronous
pattern of krill DVM supports the hunger - satiation hypothesis for DVM. If
satiation is modified to also include the recovery of daytime incurred debts the
findings of this thesis do indeed fit this hypothesis. A tentative model is proposed
for krill DVM where krill break down their Hc during the day and then recover at
night with feeding in the surface layers of the water column.
Date of Award | 2004 |
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Original language | English |
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Awarding Institution | |
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Diel vertical migration and feeding by krill Meganyctiphanes norvegica
Dawdry, N. E. (Author). 2004
Student thesis: PhD