Lp. Schouest et Ta. Miller, AUTOMATED PHEROMONE TRAPS SHOW MALE PINK-BOLLWORM (LEPIDOPTERA, GELECHIIDAE) MATING RESPONSE IS DEPENDENT ON WEATHER CONDITIONS, Journal of economic entomology, 87(4), 1994, pp. 965-974
The mating response of male pink bollworm, Pectinophora gossypiella (S
aunders), based on time of capture, was monitored in cotton (Gossypium
hirsutum) with an automated pheromone trap. Weather parameters were r
ecorded automatically at the same trapping site. Data were accumulated
and transmitted via an infrared telemetry link to a base-station comp
uter located on farm property. The collected data were accessed and do
wnloaded via a telephone modem. As the growing season progressed, the
time of peak trap catch gradually shifted from early in the evening to
late in the evening. The time interval of male flight activity was de
fined widely both early and late in the season and was defined more na
rrowly in midseason. The major factors affecting the number of males c
aught and the time of peak catch were temperature, wind speed, and tim
e of sunset. As previously reported, wind speeds >2.5 m/s and temperat
ures below 20-degrees-C suppressed flight activity. The number of male
moths captured was suppressed after insecticide applications and rain
. A model predicting peak flight times was validated, and modification
s were suggested. The results suggest that the use of automated traps
that incorporate weather information would be invaluable in predicting
optimal times of insecticide application for control of pink bollworm
adults and, more importantly, would prevent applications at times tha
t would be ineffective.