Your search keyword '"Pirimiphos methyl"' showing total 3 results

1. Effects of a new outdoor mosquito control device, the mosquito landing box, on densities and survival of the malaria vector, Anopheles arabiensis, inside controlled semi-field settings

Author

Dickson W. Lwetoijera, Edith P. Madumla, Samson S. Kiware, Emmanuel W. Kaindoa, Nancy S. Matowo, Robert D. Sumaye, Joseph P. Mgando, Arnold S. Mmbando, and Fredros O. Okumu

Subjects

Hyphal growth, Adult, Male, Insecticides, Metarhizium, Mosquito Control, Elimination, 030231 tropical medicine, Outdoor biting, Indoor residual spraying, Metarhizium anisopliae, Semi-field system, Toxicology, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Anopheles, parasitic diseases, Animals, Humans, 030212 general & internal medicine, Larva, biology, Research, fungi, Pirimiphos-methyl, biology.organism_classification, Survival Analysis, Vector control, 3. Good health, Insect Vectors, Malaria, Mosquito control, Anopheles arabiensis, Infectious Diseases, qx_650, chemistry, qx_510, Pyriproxyfen, Parasitology, Female, qx_515, Pirimiphos methyl, Mosquito landing box

Abstract

Background\ud \ud The significance of malaria transmission occurring outdoors has risen even in areas where indoor interventions such as long-lasting insecticidal nets and indoor residual spraying are common. The actual contamination rates and effectiveness of recently developed outdoor mosquito control device, the mosquito landing box (MLB), on densities and daily survival of host-seeking laboratory Anopheles arabiensis, which readily bites humans outdoors was demonstrated. \ud \ud Methods\ud \ud Experiments were conducted in large semi-field systems (SFS) with human volunteers inside, to mimic natural ecosystems, and using MLBs baited with natural or synthetic human odours and carbon dioxide. The MLBs were dusted with 10 % pyriproxyfen (PPF) or entomopathogenic fungi (Metarhizium anisopliae) spores to mark mosquitoes physically contacting the devices. Each night, 400 laboratory-reared An. arabiensis females were released in one SFS chamber with two MLBs, and another chamber without MLBs (control). Mosquitoes were individually recaptured while attempting to bite volunteers inside SFS or by aspiration from SFS walls. Mosquitoes from chambers with PPF-treated MLBs and respective controls were individually dipped in water-filled cups containing ten conspecific third-instar larvae, whose subsequent development was monitored. Mosquitoes recaptured from chambers with fungi-treated MLBs were observed for fungal hyphal growth on their cadavers. Separately, effects on daily survival were determined by exposing An. arabiensis in chambers having MLBs treated with 5 % pirimiphos methyl compared to chambers without MLBs (control), after which the mosquitoes were recaptured and monitored individually until they died. \ud \ud Results\ud \ud Up to 63 % (152/240) and 43 % (92/210) of mosquitoes recaptured inside treatment chambers were contaminated with pyriproxyfen and M. anisopliae, respectively, compared to 8 % (19/240) and 0 % (0/164) in controls. The mean number of larvae emerging from cups in which adults from chambers with PPF-treated MLBs were dipped was significantly lower [0.75 (0.50–1.01)], than in controls [28.79 (28.32–29.26)], P < 0.001). Daily survival of mosquitoes exposed to 5 % pirimiphos methyl was nearly two-fold lower than controls [hazard ratio (HR) = 1.748 (1.551–1.920), P < 0.001]. \ud \ud Conclusion\ud \ud High contamination rates in exposed mosquitoes even in presence of humans, demonstrates potential of MLBs for controlling outdoor-biting malaria vectors, either by reducing their survival or directly killing host-seeking mosquitoes. The MLBs also have potential for dispensing filial infanticides, such as PPF, which mosquitoes can transmit to their aquatic habitats for mosquito population control. \ud Keywords: Mosquito landing box; Malaria; Elimination; Anopheles arabiensis ; Pirimiphos methyl; Outdoor biting; Pyriproxyfen; Metarhizium anisopliae ; Semi-field system

Published

2015

2. Insecticide-Treated Net wall Hangings for Malaria Vector Control: An Experimental Hut Study in North-Eastern Tanzania

Author

Mark Rowland, Corine Ngufor, Robert Malima, Patrick K. Tungu, Matthew J. Kirby, and William Kisinza

Subjects

Adult, Male, Insecticide resistance, Mosquito Control, Insecticide-treated net wall hangings, 030231 tropical medicine, Indoor residual spraying, Malaria vector control, Tanzania, 03 medical and health sciences, 0302 clinical medicine, Kdr, parasitic diseases, Medicine, Animals, Humans, 030212 general & internal medicine, Netting, Insecticide-Treated Bednets, Malaria vector, biology, business.industry, Agroforestry, Research, food and beverages, Experimental huts, Organothiophosphorus Compounds, Muheza, biology.organism_classification, medicine.disease, Vector control, 3. Good health, Biotechnology, Malaria, Mosquito control, Infectious Diseases, Culicidae, Parasitology, Female, business, Pirimiphos methyl

Abstract

BACKGROUND: Alternative long-lasting, practical and effective tools for applying insecticides on home walls against malaria vectors need to be developed. The use of wall hangings made from netting on interior walls for aesthetic purposes is a common practice in rural communities. Insecticide-treated net wall hangings can be produced in a long-lasting format and used in an approach that simulates indoor residual spraying (IRS). METHODS: The efficacy of net wall hangings (NWH) treated with the residual organophosphate insecticide, pirimiphos methyl (1 g/sq m), was evaluated in experimental huts against malaria vectors in Muheza, Tanzania. To determine the optimum level of wall coverage required, NWH were tested on ceiling only, two walls, four walls, or four walls plus ceiling. Comparison was made with deltamethrin-treated NWH on two walls. RESULTS: Pirimiphos methyl (p-methyl)-treated NWH (on two walls) killed significantly higher proportions of anophelines (92% of Anopheles gambiae and 79% of Anopheles funestus) than the deltamethrin-treated NWH (15% of An. gambiae and 17% of An. funestus) (P

Published

2014

3. Radiation-Induced Degradation of Pirimiphos Methyl in Aerated Solution

Author

Winarti Andayani Lindu, Hendig Winarno, Ermin Katrin Winarno, M. Bagyo, and Agustin N

Subjects

Nuclear and High Energy Physics, pirimiphos methyl, Radiation, Chromatography, Aqueous solution, Chemistry, Chemical oxygen demand, Oxalic acid, Pirimiphos-methyl, COD, lcsh:TK9001-9401, High-performance liquid chromatography, Absorbance, chemistry.chemical_compound, 2-diethylamino-6-methyl-4-oxo-3, Nuclear Energy and Engineering, lcsh:Nuclear engineering. Atomic power, Degradation (geology), Radiology, Nuclear Medicine and imaging, Irradiation, oxalic acid, degradation, Waste Management and Disposal, 4-dihydropyrimidine

Abstract

Degradation of pirimiphos methyl (1) as an active ingredient in Minawet insecticide 250 EC formulation in aqueous solution was studied. The absorbance, pH, COD (Chemical Oxygen Demand) in aerated solution, and the analyses of degradation products at various irradiation doses with dose rate of 5 kGy/h were observed. The absorbance decreased rapidly at low doses (£ 10 kGy), while at high doses (> 10 kGy) decreased slowly. The optimum irradiation dose for pirimiphos methyl degradation in aerated solution was found to be 15 kGy at pH 3.6. At that condition, more than 99% of pirimiphos methyl has been degraded and the COD of solution decreased about 82%. The analysis of irradiated samples by GC-MS and HPLC showed that 2-diethylamino-6-methyl-4-oxo-3,4-dihydropyrimidine (3) and oxalic acid were clarified as degraded products

Published

2011