ABSTRACT
Studies have been carried out at Nguruman, south-western
Kenya, on Glossina longipennis Corti, a little known member of
the fusca group of Glossina. The first objective was to
develop an efficient trap suitable for both sampling and
control purposes. Studies were then carried out on the
population dynamics of G. 1ongipennis using the newly
developed sampling methods. Lastly the trap/odour bait system
was tested in a control situation.
Replicated Latin square design experiments were used to
compare the performance of various trap designs and odour
attractants. The Zimbabwe F3 trap proved more effective than
the widely used biconical trap, especially for females. A new
trap developed at Nguruman, called the NG2B, was also very
effective and had the advantage of being cheap and easy to
construct. Acetone and cow urine together increased the
catches by 4-5X over unbaited traps, but when dispensed alone
neither of them was effective. There was no significant
difference between the attractancy of cow urine and buffalo
urine. Trap catches were further increased when l-octen-3-ol
was dispensed together with acetone and cow urine. A higher
proportion of older flies was caught by the NG2B trap compared
to the biconical but no significant difference was observed in
the age structure of flies attracted by different odour baits.
The effect of trap design on sample composition and the
potential for using odour baited traps for sampling the fusca
group of tsetse flies are discussed.
An electric screen adjacent to a baited target was used
to determine the precise activity pattern of G. longipennis
which is known to be crepuscular in behaviour. Morning
activity started at about 15 minutes before sunrise at 0630 h,
peaked at about 0615 h and ceased by 0700 h. The species was
more active in the evenings, when activity began at about 30
minutes before sunset at 1815 h, peaked at 1845 h and ended by
1900 h. Males were regularly active before females. Light
intensity was found to be the most important factor
influencing activity. The relationship between activity
pattern and cattle-fly contact is discussed.
Changes in the apparent densities of G. longipennis were
monitored simultaneously using biconical and NG2B traps in two
areas located 7 km apart. Both trap types showed similar
trends in population changes but higher apparent densities
were recorded with the NG2B trap than with the biconical trap.
Apparent densities in both sexes were regularly observed to
increase during the rainy seasons and decrease during dry
seasons. Peak catches in one area were observed to precede
those in the other area by one month. Flies spread out to more
open areas during the cool wet seasons and concentrated in the
thicker woodland during the dry seasons. The factors
influencing changes in population densities, including
movement between the two areas and between vegetation types,
are discussed.
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.X
Mortality rates estimated from ovarian age structure and
from Moran curves were observed to be highest during the hot
dry seasons and lower during the cool wet seasons. Adult
mortality rates showed a significant positive correlation with
maximum temperature and a negative correlation with minimum
relative humidity. The effect of fly movement on mortality
rate estimates and the reliability of the estimates by the two
methods are discussed.
Dissections of female flies from NG2B traps showed that
all non-teneral but nulliparous females and over 80% teneral
females were inseminated. The average percentage distribution
of the various pregnancy stages in trap samples were found to
be very close to the values expected from the duration of the
different stages, in contrast to the usual underrepresentation
of flies with third instar larvae for other
tsetse species. The average abortion rate was 6% but ranged
from 0% in the rainy seasons to 60% in the hot dry season. A
significant negative correlation was observed between abortion
rate and minimum relative humidity. A significant positive
correlation was also found between fly size and minimum
relative humidity of the previous month but one. A discussion
is given of the immediate causes of abortions and their
effects on population levels and of the factors influencing
fly size.
x l
The absolute population size of G. longipennis was
estimated through mark-release-recapture experiments. The mean
population size was estimated at 17,300 males (range 10,471 -
25,703) and 16,900 females (range 14,125 - 20,892). The trend
of changes in the absolute estimates corresponded with those
in apparent estimates from trap catches. From the peaks in the
recapture rate of marked flies, the feeding cycle of G.
longipennis was found to be 2-3 days for males whilst for
females the 9-10 day pregnancy cycle was the main factor
affecting the recapture rate. There was a considerable amount
of movement of marked flies between the two sampling areas but
the movement was shown to be greater in one direction than the
other.
A trial tsetse population suppression operation with
baited NG2B traps was started during the course of the study.
After 11 months of operation, the population levels of G.
1ongipennis were reduced by about 60% for males and about 90%
for females. Much greater reduction levels were obtained for
G. pallidipes. A discussion is given of the factors
influencing the lesser impact on the population of G.
1ongipennis with suggestions on improving methods for the
control of the species.
KYORKU, C (2021). Trapping Studies On Glossina Longipennis Corti At Nguruman, South-Western Kenya. Afribary. Retrieved from https://tracking.afribary.com/works/trapping-studies-on-glossina-longipennis-corti-at-nguruman-south-western-kenya
KYORKU, CHARLES "Trapping Studies On Glossina Longipennis Corti At Nguruman, South-Western Kenya" Afribary. Afribary, 19 Apr. 2021, https://tracking.afribary.com/works/trapping-studies-on-glossina-longipennis-corti-at-nguruman-south-western-kenya. Accessed 22 Nov. 2024.
KYORKU, CHARLES . "Trapping Studies On Glossina Longipennis Corti At Nguruman, South-Western Kenya". Afribary, Afribary, 19 Apr. 2021. Web. 22 Nov. 2024. < https://tracking.afribary.com/works/trapping-studies-on-glossina-longipennis-corti-at-nguruman-south-western-kenya >.
KYORKU, CHARLES . "Trapping Studies On Glossina Longipennis Corti At Nguruman, South-Western Kenya" Afribary (2021). Accessed November 22, 2024. https://tracking.afribary.com/works/trapping-studies-on-glossina-longipennis-corti-at-nguruman-south-western-kenya