Schinus terebinthifolius essential oil and fractions in the control of Aedes aegypti

Wanessa De Campos Bortolucci,Caio Franco De Araújo Almeida Campo,Eloísa Schineider Silva,Nelson Barros Colauto,Zilda Cristiani Gazim,Herika Line Marko De Oliveira,Giani Andrea Linde,Ranulfo Piau Junior,José Eduardo Gonçalves

doi:10.14393/bj-v35n5a2019-41999

Wanessa De Campos Bortolucci, Caio Franco De Araújo Almeida Campo + Show 7 more

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https://doi.org/10.14393/bj-v35n5a2019-41999

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Abstract

Several technologies have been developed to control Aedes aegypti, mainly studies on isolated plant molecules. The Schinus terebinthifolius (Raddi) (Anacardiaceae), popularly known as pink pepper is a plant widely used in reforestation of degraded areas and its fruits are used as condiments. The objective of this work was to investigate the potential of essential oils (EOs) and fractions (FRs) obtained from fresh fruits and leaves of S. terebinthifolius. The EOs were obtained by hydrodistillation (2 hours), fractionated on a chromatographic column using as the stationary phase silica gel 60 (0.063-0.2mm), mobile phases: n-hexane, dichloromethane, ethyl acetate and methanol and chemically evaluated by gas chromatography coupled to mass spectrometer (GC/MS). EOs and FRs were tested against larvae of the third stage and pupae of Ae. aegypti by Immersion Test at concentrations ranging from 500.00 to 0.003 mg mL-1 (v/v). The hexane FRs obtained from fruits and leaves were the ones that showed the greatest activity on the larvae (LC99.9= 0.60 mg mL-1 and LC99.9 0.64 mg mL-1, respectively) and pupae (LC99,9 = 2.51 mg mL-1 and 2.61 mg mL-1, respectively). These results were confirmed by the anticholinesterase activity where the hexane (fruit and leaf) FRs presented the highest inhibitory potential on the acetylcholinesterase enzyme (0.156 mg mL-1 and 0.312 mg mL-1, respectively), suggesting the likely mechanism of action. The larvicidal potential can be explained by the presence of the major compounds bicyclogermacrene and germacrene D in the hexane FRs, indicating in this way that they may replace or even act in synergisms with conventional chemical larvicides. In this way the present study opens the field for new researches, aiming the development of products with the compounds bicyclogermacrene and germacrene D, as an alternative in the control of this culicide.

Highlights

Aedes aegypti L. has been responsible for epidemics of dengue, chikungunya and microcephaly related to the infection by Zika virus (DINIZ et al, 2014) in South America and tropical countries, and it has become a worldwide public health problem with high rate of morbidity and mortality (BRASIL, 2016; TEIXEIRA et al, 2016)
The results found for the physical and chemical characteristics of essential oils (EOs) from fruits and leaves indicate that the EO from S. terebinthifolius fruits has transparent color and characteristic odor of the species whereas the EO from fruits had light yellow color and strong terebintine odor
The results are in agreement with the ones by Jeribi et al (2012) who found a yield of 5.03% (v/p) for fruit oil, and Barbosa et al (2007) and El-Massry et al (2009) who found 0.44% and 0.50% (v/p) for rose pepper leaves, respectively

Summary

Introduction

Aedes aegypti L. has been responsible for epidemics of dengue, chikungunya and microcephaly related to the infection by Zika virus (DINIZ et al, 2014) in South America and tropical countries, and it has become a worldwide public health problem with high rate of morbidity and mortality (BRASIL, 2016; TEIXEIRA et al, 2016).In Brazil, 251,711 million cases of dengue were recorded in 2017, of which 44,915 cases were registered by March 2018 (21.6 cases/100 thousand inhabitants), 12,102 cases of chikungunya (5.8 cases/100 thousand inhabitants) and 705 cases of people infected with zika virus (0.3 cases/100 thousand inhabitants) (BRASIL, 2018). Aedes aegypti L. has been responsible for epidemics of dengue, chikungunya and microcephaly related to the infection by Zika virus (DINIZ et al, 2014) in South America and tropical countries, and it has become a worldwide public health problem with high rate of morbidity and mortality (BRASIL, 2016; TEIXEIRA et al, 2016). The authorities have shown efforts to combat this vector through awareness programs to eradicate reproduction sites, the incidence of these pathologies is still alarming regarding the number of cases and seriousness (NASCIMENTO et al, 2008). The control of this vector is done by utilizing chemical insecticides from organophosphates and pyrethroids.

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