Juvenile hormone - Its effect on aggregation behaviour and central nervous processing of aggregation pheromones in the desert locust
Juvenile hormone (JH)
was shown to effect the central nervous processing of aggregation
pheromones in the antennal lobe (AL) of the desert locust,
Schistocerca gregaria resulting in changes in the aggregation
behaviour. The aggregation behaviour of gregarious male and female
desert locusts was monitored for individual control insects or
insects subjected to either of three treatments; allatectomy,
sham-operation and JH-injection. Two parameters were recorded to
characterise aggregation behaviour (a) tendency to aggregate and
(b) changes in behavioural activity, in a two-choice bioassay
applying the main adult aggregation pheromone component
phenylacetonitrile (PAN) in the treatment arena. Individual
locusts were monitored at days 1, 8, 15, 22 and 29 after adult
emergence in order to evaluate behavioural changes over time. Both
male and female control and sham-operated locusts displayed
behavioural changes coinciding with the naturally fluctuating
JH-titre. Locusts generally displayed an increase in aggregation
tendency and in behavioural activity up to days 8 and 15, which
coincided with a low titre of JH. At days 15, 22 and 29,
coinciding with a high JH titre, locusts displayed an initial
(days 15 and 22) increase in behavioural activity and a tendency
to avoid the treatment area followed by a low behavioural activity
and no apparent attraction or repellency (at day 29). Locusts that
were deprived of (allatectomised) or injected with JH either
displayed a high behavioural activity and a high tendency to
aggregate or did not show any specific behavioural response
respectively. Intracellular recordings from projection neurons (PNs)
in the antennal lobe of 8 and 29 days old control, allatectomised
and JH-injected locusts revealed differences in the central
olfactory processing; low JH-level (young and allatectomised)
locusts displayed a fully functional olfactory system whereas high
JH-level locusts displayed impairments in the olfactory system. In
order to exclude the possibility of a diminished sensory input to
the AL, electroantennograms (EAG) were performed. No significant
differences in EAG amplitude between the three groups were
observed. We conclude that the observed changes in aggregation
behaviour may be regulated through a direct or an indirect effect
of JH on the central nervous processing. We postulate that the
observed behavioural indifference to PAN in high JH-level locusts
arise due to a significant changes in the central nervous
processing of aggregation pheromone components.
Index terms:
Schistocerca gregaria, aggregation pheromone, electrophysiology
Copyright: The copyrights of
this original work belong to the authors (see right-most box in
title table). This abstract appeared in Session 4 – CHEMICAL AND
PHYSIOLOGICAL ECOLOGY Symposium and Poster Session, ABSTRACT
BOOK I – XXI-International Congress of Entomology, Brazil,
August 20-26, 2000.
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