dc.description.abstract |
The present investigation was undertaken to develop
an artificial diet to rear the Tea Tortrix, Romona coffearia
Nietner in vi~o, and to: (a) study the biology of this insect
in detail under defined conditions, (b) determine the critical
dietary ingredients that are essential for normal development
and growth, and (c) screen various compounds that are likely
to act as metabolic disruptors, interfering with the uptake
of such critical dietary ingredients.
Initial attempts were made to develop an oligidic diet
to mass-rear the Tea Tortrix and a simplified diet consisting of
only minced tea leaves and brewer's yeast was found adequate for
successful growth and development. Detailed observations on the
biology of this insect were made at 240 and 75% R.R. under a
14 h light - 10 h dark photoperiod. A definite rhythm for pupation and adult emergence was observed; pupation was observed in
the mornings between 6.00 - 9.00 h and adult emergence between
16.00 - 18.00 h. The average fecundity of females under these
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conditions was estimated to be 4.15 - 3.2 egg masses per female.
Fecundity was also found to be influenced by the composition of
the adult diet and maximum egg lay was observed when fed with
a mixture of 5% sucrose and 2% bee's honey.
A meridic diet without any leaf components was also perfected to rear this insect in vitro. This study revealed that
this insect was unable to utilize cholesterol and that it needed
a dietary source of a ~ 7 sterol. The fatty acids linoleic and
linolenic acids have also been found to be essential dietary
supplements for successful adult development and emergence.
These
two fatty acids seem to be the main critical dietary supplements
offered by tea leaf in oligidic diets.
The very simplified diet consisting of brewer's yeast
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and the fatty acids linoleic and linolenic acids, was found to
be the most suitable meridic diet to grow this insect in vitro.
Further enrichment of this diet with additional ingredients
seemed to bring about an imbalance in the uptake of essential
dietary ingredients.
It was not possible to perfect a completely defined
(holidic) diet to successfully grow this insect to the adult
stage. Some of the tested holidic diets appeared to be very
promising since the larvae developed up to the final instar and
showed pre-pupating behavioral signs, but failed to pupate.
Of the various tested metabolic disruptors, the
saponins from tea seeds and the seeds of Cyclamen europaeum
were found to suppress development in oligidic diets, only in
the absence of brewer's yeast in the diet.
Metabolic inhibitors like the azasterol, 25-azacoprastane
and the nonsteroidal amine, N,N dimethyltetradecanamine, in minute
amounts very significantly suppressed development. This suppression appeared to be due to the possible blockage of the availability
of an adequate amount of dietary sterol and consequently, interfereing in the formation of ecdysteroids. Since a ~ 7 sterol is
a critical dietary requirement for this insect, it now seems possible to disrupt the normal development of this insect by using the
above compounds in trace amounts.
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Copper in the form of cuprous oxide was also found to very
significantly suppressed development, even at low concentrations
of 100 ppm of cuprous oxide. Copper suppressed pupation and adult
emergence very strongly and the few adults that emerged were deformed with naked wings, showing characteristic fatty acid deficiency
symptoms. Since the fatty acids linoleic and linolenic acids havej
been found to be very critical dietary ingredients for this insect,
copper ions hold very good promise as suppressing agents.
These findings have thus opened up an entirely new approach
of managing this insect pest, by resorting to control at the physiological level and consequently avoiding the use of lethal insecticides which are, in general, ecological disruptors. |
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