The study aimed to estimate the dispersal rate of wild cabbage
root flies in agricultural systems, to test a migration hypothesis
and the predictions of a computer simulation model.
The dispersal rate was determined by a new method, from the
age-grouping of wild flies instead of releasing marked culture flies.
The mean distance dispersed was calculated from-the slope of density
of captured flies on distance; the mean age was calculated from
laboratory measurements of development at constant temperatures.
A new method of male age determination was developed, based on
the changes in pupal fat and testes colour. The published method of
female age determination was improved to allow more rapid separation
of nulliparous and parous flies.
The values of the slope and intercept fitted to the-density-
distance data were strongly correlated. A computer simulation
demonstrated that random noise causes a progressive underestimation
of the slope, as the catch decreases. The slope for gravid females
reaches a limiting value of approxiamately 0.2, indicating a mean
distance dispersed of 500m. A numerical integration suggests that
95% of the flies move less than 580m. There was no evidence of the
female migratory phase, proposed by Finch & Skinner(1975), which was
probably an artefact of the use of ANCS attractant. The dispersal rate
was estimated at 49-165 m/day, compared with 29-87 m/day predicted
by the simulation model.
There was little evidence that dispersal alters with agricultural
practice. A proportion of the first generation were found to delay
emergence on one site, which may be connected with the planting of fodder
brassica crops at midsummer.
Date of Award | 1983 |
---|
Original language | English |
---|
Awarding Institution | |
---|
THE DISPERSAL OF CABBAGE ROOT FLY IN RELATION TO AGRICULTURAL PRACTICE
ALEXANDER, K. I. (Author). 1983
Student thesis: PhD