Abstract
BackgroundMosquitoes are vectors of parasitic diseases such as malaria, lymphatic filariasis, yellow fever, and dengue fever among others. They are well known as public enemies for their noise nuisance, biting annoyance, sleeplessness, allergic reactions, and diseases transmission during the biting and feeding activities. This then necessitate the search for insecticides of plant origin which are bio-degradable, non-toxic, and readily available for man use.ResultThis study, evaluated the fumigant efficacy of the powder of P. alliacea to control the adult stage of Culex mosquito. Powder of Petiveria alliacea were administered at different dose of (1 g, 2 g, 3 g, 4 g, and 5 g), respectively. Result obtained shows the fumigant effect of the powder were effective with percentage mortality of 18.33–60.00% for the leaf powder and 23.30–71.60% for the root powder within 2 h post-treatment period (P < 0.05). The synergistic effect of the leaf and root powder was also investigated. The lethal dosage (LD50) of the leaf, root, and synergistic effect of leaf and root bark powder required to kill 50% of the adult Culex quinquefasciatus was 3.76 g, 2.86 g, and 2.63 g, respectively. However, 25.06 g, 15.25 g, and 12.94 g of the leaf, root, and leaf and root powder were required to kill 90% (LD90) after a 2-h exposure period.ConclusionThese finding suggested P. alliacea powder could be a good source of insecticide which may be used for the production of biopesticides. The present findings have important implications in the practical control of adult mosquito by using botanical insecticides. These plant powders are easy to prepare, inexpensive, and safe for use in mosquito control.
Highlights
Mosquitoes are vectors of parasitic diseases such as malaria, lymphatic filariasis, yellow fever, and dengue fever among others
Organochlorines, Carbamates, Organophosphates, and Pyrethroids have been recorded by World Health Organisation (WHO) to all have been resisted by Culex quinquefasciatus
Insecticides of plant origin have been broadly used in the control of agricultural pests, a very limited extent has been used against insect vectors of public health importance
Summary
Mosquitoes are vectors of parasitic diseases such as malaria, lymphatic filariasis, yellow fever, and dengue fever among others They are well known as public enemies for their noise nuisance, biting annoyance, sleeplessness, allergic reactions, and diseases transmission during the biting and feeding activities. Vector control is a major component of the World Health Organisation (WHO) global mosquito-borne diseases intervention strategy, and it aimed primarily at the indoor residual spraying and the use of insecticidetreated nets. These control measures have limitations, which include insecticide resistance as well as encumbrance in achieving high scope (Luz, Pinheiro, Silva, Monteiro, & Prediger, 2016). Various compounds of plant sources have been documented as insecticides and larvicides, there is still a vast scope for the discovery of more effective plant products in the indigenous flora of lesser studied countries like Nigeria
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