OLFACTORY RECEPTION OF CONSPECIFIC AGGREGATION PHEROMONE AND PLANT ODORS BYNYMPHS OF THE PREDATOR PODISUS MACULIVENTRIS (SAY) (HEMIPTERA, HETEROPTERA:PENTATOMIDAE)

Authors: SANT' ANA, JOSUE - UNIV. RIO GRANDE, BRAZIL; DA SILVA, ROGERIO - UNIV. RIO GRANDE, BRAZIL; Dickens, Joseph

Submitted to: Journal of Chemical Ecology
Publication Type: Peer Reviewed Journal
Publication Acceptance Date: 2/12/1999
Publication Date: N/A
Citation: N/A

Interpretive Summary: Insect predators may be used to manage insect pests. Chemical
signals used by immature and adult stages of predators could
coordinate their activities with those of their prey; thus
increasing their effectiveness. Until now little was known
about chemical signals important to behavior of the immature
stages of insect predators or how these signals were detected
by them. We investigated olfactory sensitivity of immature
stages of the spined soldier bug, a predator of the Colorado
potato beetle. Immature stages were sensitive to both the
adult aggregation pheromone and chemicals released by plants
(both at the wound site and systemically over several hours)
in response to insect feeding (i.e. potential prey).
Different immature stages responded distinctly to pheromone
and plant odors suggesting differing behavioral roles for
specific chemicals. Receptors for these chemicals were
localized to the terminal antennal segment. This new
knowledge of chemical communication in immature stages of
predaceous bugs will be used by entomologists interested in
biological control to formulate improved control strategies,
and chemical ecologists as a guide to discovery of new
chemical signals.

Technical Abstract: Olfactory reception of 23 odorants, including plant volatiles and
male-produced aggregation pheromone, by third and fifth instars
of the spined soldier bug (SSB) Podisus maculiventris (Say) was
investigated using electroantennograms (EAGs). Both nymphal
stages were sensitive to male-produced aggregation pheromone
components (E)-2-hexenal, benzyl alcohol and à-terpineol. The
plant volatile, (E)-2-hexen-1-ol (a chemical known to be released
by plants in response to prey feeding over the short-term),
elicited the largest EAGs of all volatiles tested. While third
instars were sensitive to nonanal, only fifth instars responded
to both nonanal and (ñ)-linalool, both compounds released
systemically by plants in response to feeding by potential prey.
Antennal extirpation experiments showed that sensilla responsive
to hexan-1-ol, (E)-2-hexenal and alpha-terpineol are situated
mainly on the terminal antennal segment. The results support the
hypothesis that P. maculiventris nymphs use both plant volatiles
and pheromone components in locating potential prey and other
behaviors.