Quesia Amorim scite author profile

Quesia Amorim

3Publications

12Citation Statements Received

86Citation Statements Given

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Oswaldo Cruz Foundation, Instituto de Biologia do Exército

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First national-scale evaluation of temephos resistance in Aedes aegypti in Peru

et al. 2022

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Background The development of resistance against insecticides in Aedes aegypti can lead to operational failures in control programs. Knowledge of the spatial and temporal trends of this resistance is needed to drive effective monitoring campaigns, which in turn provide data on which vector control decision-making should be based. Methods Third-stage larvae (L3) from the F1 and F2 generations of 39 Peruvian field populations of Ae. aegypti mosquitoes from established laboratory colonies were evaluated for resistance against the organophosphate insecticide temephos. The 39 populations were originally established from eggs collected in the field with ovitraps in eight departments of Peru during 2018 and 2019. Dose–response bioassays, at 11 concentrations of the insecticide, were performed following WHO recommendations. Results Of the 39 field populations of Ae. aegypti tested for resistance to temephos , 11 showed high levels of resistance (resistance ratio [RR] > 10), 16 showed moderate levels of resistance (defined as RR values between 5 and 10) and only 12 were susceptible (RR < 5). The results segregated the study populations into two geographic groups. Most of the populations in the first geographic group, the coastal region, were resistant to temephos, with three populations (AG, CR and LO) showing RR values > 20 (AG 21.5, CR 23.1, LO 39.4). The populations in the second geographic group, the Amazon jungle and the high jungle, showed moderate levels of resistance, with values ranging between 5.1 (JN) and 7.1 (PU). The exception in this geographic group was the population from PM, which showed a RR value of 28.8 to this insecticide. Conclusions The results of this study demonstrate that Ae. aegypti populations in Peru present different resistance intensities to temephos, 3 years after temephos use was discontinued. Resistance to this larvicide should continue to be monitored because it is possible that resistance to temephos could decrease in the absence of routine selection pressures. Graphical Abstract

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Evaluation of the Persistence of Three Larvicides Used To Control Aedes aegypti In Arapiraca, Northeastern Brazil

Amorim

Bauzer

Braga

et al. 2019

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The chemical control of the mosquito Aedes aegypti is a great challenge worldwide, since several populations of this species are already resistant to traditional insecticides, such as temephos. In Brazil, alternative larvicides, such as Bacillus thuringiensis israelensis ( Bti) and pyriproxyfen, have been used more recently. In this study we evaluated the persistence of pyriproxyfen (Sumilarv 0.5%G), 2 commercial formulations of Bti (Vectobac WDG and Vectobac G), and temephos (Fersol 1G) under field and simulated field conditions with treatments exposed to sun and shadow. In the field tests, the 2 formulations of Bti presented less persistence in the 8th wk of evaluation (46% and 37% positivity) compared with temephos (3.6% and 6.8% positivity) and Sumilarv (6.6% and 3.8% positivity) in containers exposed to the sun and shadow, respectively. In the simulated field trial, temephos and the 2 formulations of Bti presented high persistence (100% mortality at 8th wk) when applied in the water box and in deposits placed in the shade. In containers exposed to the sun, the persistence of these products was lower (>80% mortality by temephos after 4 wk, Bti formulations for 3 wk, and Sumilarv for 6 wk). Based on these data, however, Sumilarv presented better performance in the containers exposed to the sun than the 2 formulations of Bti (Vectobac G and Vectobac WDG), which were affected by the sun.

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First National-Scale Evaluation of Temephos Resistance in Aedes Aegypti in Peru.

Palomino

Pinto²,

Yañez³

et al. 2022

Preprint

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Background: Resistance of Aedes aegypti to insecticides can lead to operational failures in control programs. Knowledge of the spatial and temporal trends of this resistance is needed for effective monitoring, on which vector control decision-making should be based.Methods: The organophosphate insecticide temephos was evaluated in L3 larvae in dose-response bioassays with eleven concentrations of the insecticide, following WHO recommendations. The mosquitoes tested were Ae. aegypti larvae of F1 and F2 generations from eggs collected with ovitraps during 2018 and 2019.Results: The results segregated into two geographic groups. The first group, from the coast, was mostly resistant to temephos (RR > 10), with three populations (AG, CR and LO) showing RR values greater than 20 (AG 21.5, CR 23.1, LO 39.4). The populations in the second group, from the jungle of the Amazon and high jungle, showed moderate levels of resistance (defined as RR values between 5 and 10) with values ranging between 5.1 in JN and 7.1 in PU. Exception in this region was the population of PM, which showed a RR value of 28.8 to this insecticide.Conclusions: The results demonstrate that Ae. aegypti populations in Peru present different resistance intensities to temephos, even after the suspension of its widespread use. Resistance to this larvicide should continue to be monitored because it is possible that resistance to temephos could decrease in the absence of routine selection pressures.

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Quesia Amorim

First national-scale evaluation of temephos resistance in Aedes aegypti in Peru

Evaluation of the Persistence of Three Larvicides Used To Control Aedes aegypti In Arapiraca, Northeastern Brazil

First National-Scale Evaluation of Temephos Resistance in Aedes Aegypti in Peru.

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