Ys. Xie et al., REPELLENCY AND TOXICITY OF AZADIRACHTIN AND NEEM CONCENTRATES TO 3 STORED-PRODUCT BEETLES, Journal of economic entomology, 88(4), 1995, pp. 1024-1031
Repellency and toxicity of azadirachtin (88% AZA, which contains 98% a
zadirachtin) and 3 neem extracts (48, 23, and 7% AZA) to 3 stored-prod
uct insects, the rusty grain beetle, Cryptolestes ferrugineus (Stephen
s), the rice weevil, Sitophilus oryzae (L.), and the red flour beetle,
Tribolium castaneum (Herbst), were investigated in the laboratory. Ea
ch test material repelled all 3 species in a standard repellency test
using a food preference apparatus. Significant negative correlations w
ere found between insect settling response and extract concentrations.
T. castanetsm was more sensitive to the repellent action of neem than
the other 2 species. The test materials were also toxic to the 3 pest
species, with C. ferrugineus being the most susceptible. Six-week LC(
50) values for 48, 23, and 7% AZA for C. ferrugineus were 18.8, 37.0,
and 127.3 ppm, respectively. The F-1 adults of all 3 insect species in
almost all treatments were significantly reduced compared with contro
ls. This reduction was significantly dose dependent. The relationship
between bioactivity of neem materials and their azadirachtin content w
as established and is discussed. We confirmed that azadirachtin was la
rgely responsible for both repellent (behavioral) and toxic (physiolog
ical) actions of neem on stored-product insects. However, the neem ext
racts are slightly more active than pure azadirachtin when applied at
equivalent azadirachtin concentrations, indicating that azadirachtin i
s not the only active compound in neem.