This study of a population of C.virgo at Burrator, Dartmoor
looks for signs of a population regulation mechanism acting
through the effects of larval density on larval growth. The
consequences of adult body size and emergence time for
survival and reproductive success are also examined to look
for further regulation mechanisms, and opportunities for
natural and sexual selection; in particular the importance of
body size to territorial males.
Although there were significant differences in patterns of
growth and body size within and between year classes of
larvae, the differences were were not related to density.
Smaller, later developing larvae were present, and the
possibility that this was related to late hatching is
discussed. Smaller, later developing larvae emerged later as
smaller sized adults. Survival to maturity was not influenced
by body size. Density-triggered bird predation was a regular
feature of the population, and could result in early emergers
experiencing higher survival to maturity. The advantage of
early emergence could, however, easily be countered by
adverse weather patterns.
A field experiment showed that ovipositing females were
highly aggregated, and that mature males were able to predict
and profit from the aggregated distribution of females.
Consequently male daily reproductive success was very
variable, and was by far the most important component of
their lifetime reproductive success. A large body size was an
advantage to mature males when levels of competition were
high, but not when competition was reduced as a result of
bird predation and poor weather. Mature females produced
between 85 and 1,615 eggs in their lifetime. The number of
sunny days females survived to see was the most important
component of their lifetime reproductive success, and was
influenced by random predation and weather patterns. Body
size was not related to either survival or clutch size. Early
emerging females had higher lifetime reproductive success,
but only as a result of the timing of the density-triggered
bird predation, and this advantage could easily be lost
through random weather patterns.
The lack of evidence for density dependent feeding
competition in larvae, and for a relationship between female
body size and fecundity in adults, suggests that feeding
competition is not a regulatory mechanism in this population.
The difficulties of detecting density dependence in short
term studies is discussed. The strong influence of
environmental variables on the importance of adult body size
and emergence time indicates that the opportunity for
selection of these characteristics would be variable and
hence weak in the short term. Over the long term, however,
there would be a persistent selective pressure, and the
possible consequences for larval growth are discussed.
Date of Award | 1994 |
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Original language | English |
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Awarding Institution | |
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THE INFLUENCE OF LARVAL DENSITY ON LARVAL GROWTH, AND THE CONSEQUENCES FOR ADULT SURVIVAL AND REPRODUCTIVE SUCCESS IN THE DAMSELFLY CALOPTERYX VIRGO (ODONATA)
LAMBERT, C. L. (Author). 1994
Student thesis: PhD