AERIAL SPRAY TRIALS IN 1992 AND 1993 AGAINST GYPSY-MOTH, LYMANTRIA-DISPAR (LEPIDOPTERA, LYMANTRIIDAE), USING NUCLEAR POLYHEDROSIS-VIRUS WITH AND WITHOUT AN OPTICAL BRIGHTENER COMPARED TO BACILLUS-THURINGIENSIS
Jc. Cunningham et al., AERIAL SPRAY TRIALS IN 1992 AND 1993 AGAINST GYPSY-MOTH, LYMANTRIA-DISPAR (LEPIDOPTERA, LYMANTRIIDAE), USING NUCLEAR POLYHEDROSIS-VIRUS WITH AND WITHOUT AN OPTICAL BRIGHTENER COMPARED TO BACILLUS-THURINGIENSIS, Crop protection, 16(1), 1997, pp. 15-23
Aerial spray field trials were conducted in 1992 and 1993 to evaluate
the feasibility of reducing the dosage of nuclear polyhedrosis virus a
pplied against gypsy moth, Lymantria dispar (L.), larvae from a double
application of 5 x 10(11) polyhedral inclusion bodies (PIB) ha(-1) (t
otal 10(12) PIB ha(-1)) to double applications of 5 x 10(10) PIB ha(-1
) (total 10(11) PIB ha(-1)) or single applications of 5 x 10(10) or 10
(11) PIB ha(-1). The reduced dosages were applied with a virus enhance
r, Blankophor BBH, in conjunction with a wettable powder formulation d
eveloped by American Cyanamid Co. Replicated virus treatments were com
pared to double applications of Bacillus thuringiensis (B.t.) at 50 BI
U ha(-1) (Foray 76B) in 1992 and 30 BIU ha(-1) (Foray 48B) in 1993. In
1992, three double applications of nuclear polyhedrosis virus at 5.0
l ha(-1) application(-1), 5 x 10(11) PIB ha(-1) in water with 25% mola
sses, 6.0% Orzan LS and 2.0% Bond sticker, 5 x 10(11) PIB ha(-1) Ameri
can Cyanamid Co. wettable powder and 5 x 10(10) PIB ha(-1) American Cy
anamid Co. wettable powder plus 1.0% Blankophor BBH, were applied to 1
3 plots with a combined area of 91.1 ha. One B.t. treatment, a double
application of Foray 76B at 50 BIU ha(-1) in 2.5 l ha(-1), was applied
to three plots with a combined area of 37.0 ha, and four plots with a
combined area of 62.0 ha were used as untreated check plots. The redu
ction in egg mass densities in all treatments was considerable and all
postspray counts were less than the treatment target threshold of 125
0 ha(-1). Egg mass densities for pre-spray and post-spray counts were
similar in the untreated check plots. Corrected population reductions
(Abbott's formula) for the three virus treatments were 66, 74 and 84%,
respectively, and 95% for the Foray 76B treatment. However, defoliati
on of red oak, Quercus rubra L., and white oak, Q. alba L., was light
and there were no significant differences in defoliation of oak trees
between the treated and untreated check plots. In 1993, there were thr
ee nuclear polyhedrosis virus treatments using the American Cyanamid C
o. wettable powder formulation plus 1.0% Blankophor BBH at 5.0 l ha(-1
); a double application at 5 x 10(10) PIB ha(-1) (total 10(12) PIB ha(
-1)), a single application at 5 x 10(10) PIB ha(-1), and a single appl
ication at 10(11) PIB ha(-1), were applied to 15 10-ha plots, and a do
uble application of Foray 48B at 30 BIU in 2.4 l ha(-1) was applied to
five 10-ha plots. Five untreated 10-ha plots served as checks. Overwi
nter mortality of eggs caused a major population decline in the area,
and egg mass counts in check plots declined by 77%. Nevertheless, all
treatments had a significant impact on the gypsy moth population and c
orrected population reductions were 68, 63 and 61% for the three virus
treatments, respectively, and 63% for the Foray 48B treatment. Mean d
efoliation was 50% in the check plots, but significantly less in all t
he treatments. In addition to egg mass counts and defoliation estimate
s, pupae in burlap traps and male moths in pheromone traps were sample
d in both the 1992 and 1993 studies and these results are discussed. C
opyright (C) 1996 Elsevier Science Ltd.