Effect of grain moisture content and storage time on efficacy of inert and botanical dusts for the control of Sitophilus zeamais in stored maize
Date
2012-05Author
Khakame, SK
Likhayo, Paddy
Olubayo, Florence M
Nderitu, John H
Type
ArticleLanguage
enMetadata
Show full item recordAbstract
The effect of grain moisture content and time of storage on the efficacy of inert and botanical dusts,
conventional and bacterial metabolite insectcides were evaluated in the laboratory. Maize grains at 10,
12, 14 and 16% moisture content were admixed with inert powder (diatomaceous earth Kensil
Superfine®), maize cob and bean trash ashes, and botanical (neem seed cake powder) at a dose rate of
0.9% w/w. Actellic Super® and Spintor® dusts applied at the recommended rate of 50 g/90 kg grain and
diatomaceous earth Dryacide® at 0.9% w/w were included as positive controls. Untreated maize grain
served as the negative control. Thirty (30) unsexed two –week-old Sitophilus zeamais Motsch. adults
were introduced in the treated maize. The treatments were replicated four times and held undisturbed
for 14 days at ambient conditions (26 ± 2°C and 67 ± 3% r.h.), after which mortality was assessed.
Results showed that grain moisture content significantly (p<0.05) affected efficacy of grain protectants
and superior control was achieved when it did not exceed 12% for inert dusts and 14% for pesticides.
For the evaluation of the effect of time of storage, 4 kg maize grain were admixed with each treatment
except for Spintor® dust, maize cob ash, neem seed cake powder as described earlier and put into the 5
kg capacity hessian baglets, replicated four times. Untreated grain acted as the control. Adult S.
zeamais (population of 1500) were put in the plastic Petri dish and left to infest the baglets naturally.
The potency of the protectants began to wane significantly (p<0.05) after 6 months. Dryacide® followed
by Kensil Superfine® dusts performed better than Actellic Super® with the grain weight loss of 2 and
4%, respectively, over a period of 9 months. The study demonstrates that Superfine® dust has the
potential but should be further evaluated on – farm, for the control of storage insect pests and serve as
another stored products protectant option
Citation
Journal of Stored Products and Postharvest Research Vol. 3(10), pp. 145 – 151, 16 May, 2012Publisher
Department of Plant Science and Crop Protection, University of Nairobi
Description
Journal article