Abstracts
This research aimed to evaluate the insecticide potential of the leaves extract of Piper aduncum (L.) (Piperaceae) on development of brown stink bug, Euschistus heros (F.), major pest in soybean crop in Mato Grosso State. For this a bioassay was conducted with eggs, nymphs and adults of this stink bug, using the concentrations 0.5; 1.0; 2.0; 4.0 and 8.0%, of the extract acetonic of P. aduncum and acetone for control. It was evaluated the numbers of unviable eggs, nymphs death and longevity, fecundity and fertility of the adults. In the immersing eggs bioassay, all concentrations greater than 1% unviable more than 70% of the eggs, while in the contact bioassay only 19% of the eggs were unviable in 8% concentration, differing of control. In nymphs bioassay the concentrations of 8% and 4% caused death of 72% and 52%, respectively. In adults bioassay all concentrations tested reduced significantly the survival and reproduction of the insects. Thus is evidence that P. aduncum is a potential plant for stink bug control, because it had deleterious action in all development phases on E. heros.
pimenta-de-macaco; Euschistus heros; pest soybean; phytoinsecticide.
Esta pesquisa avaliou o potencial inseticida do extrato de folhas de Piper aduncum (L.) (Piperaceae) sobre o desenvolvimento do percevejo marrom, Euschistus heros (F.), a principal praga da soja no Mato Grosso. Para este estudo, foram realizados bioensaios com ovos, ninfas e adultos do percevejo, utilizando as concentrações de 0,5; 1,0; 2,0; 4,0 e 8,0%, do extrato acetônico de P. aduncum e como controle acetona P.A. Foram avaliados o número de ovos inviáveis, a mortalidade de ninfas e a longevidade, fecundidade e fertilidade dos adultos. No bioensaio de imersão dos ovos, todas as concentrações maiores que 1% tornou inviável mais de 70% dos ovos, enquanto, no bioensaio de contato, apenas 19% dos ovos foram inviabilizados na concentração 8%, diferindo do controle. No bioensaio com ninfas, as concentrações de 8% e 4% ocasionaram morte de 72% e 52%, respectivamente. No bioensaio com adultos, todas as concentrações testadas reduziram significativamente a sobrevivência dos insetos e a reprodução dos insetos. Assim, ficou evidente que P. aduncum é uma planta com potencial para o controle do percevejo marrom, pois teve ação deletéria em todas as fases de desenvolvimento de E. heros.
pimenta-de-macaco; Euschistus heros; pragas da soja; fitoinseticida.
INTRODUCTION:
In Brazil, the Neotropical brown stink bug Euschistus heros (F.)
(Hemiptera: Pentatomidae) is considered a key pest in soybean crops. The
damage caused by this insect is due to its feeding habit, since it feeds directly on the
soybean pods, decreasing yield and grain quality (commercial product) (PANIZZI et al., 2012). PANIZZI, A.R. et al. Insetos que atacam vagens e grãos. In:
HOFFMANN-CAMPO, C.B.; et al. Soja: manejo integrado de pragas e outros
Artrópodes-pragas. Brasília: EMBRAPA, 2012. Cap.5. p.335-420.In Mato Grosso, the state
responsible for 28.83% of the national production of soybean (CONAB, 2013CONAB (COMPANHIA NACIONAL DE ABASTECIMENTO). Safra 2012/2013: oitavo
levantamento maio/2013. Brasília 2013. Available from: <www.conab.gov.br>.
Accessed: May 20, 2013.
www.conab.gov.br...
), this insect can cause losses in production of up to
30% (VIVAN & DEGRANDE, 2011VIVAN, L.M.; DEGRANDE, P.E. Pragas da soja. Fundação MT Boletim de
Pesquisa de Soja, v.11, p.239-297, 2011.) and
synthetic insecticides are often used for its control. However, the indiscriminate use
of these products has contributed to environmental contamination and the selection of
resistant populations of stink bugs (SOSA-GOMES
& SILVA, 2010SOSA-GÓMEZ, D.R.; SILVA, J.J. Neotropical brown stink bug (Euschistus
heros) resistance to methamidophos in Paraná, Brazil. Pesquisa Agropecuária
Brasileira, v.45, n.1, p.767-769, 2010. Available from:
<http://dx.doi.org/10.1590/S0100-204X2010000700019>. Accessed: Mar. 23, 2013.
doi: 10.1590/S0100-204X2010000700019.
http://dx.doi.org/10.1590/S0100-204X2010...
; BELO et al.,
2012BELO, M.S.S.P. et al. Uso de agrotóxicos na produção de soja do estado
do Mato Grosso: um estudo preliminar de riscos ocupacionais e ambientais. Revista
Brasileira de Saúde Ocupacional, v.37, n.125, p.78-88, 2012. Available from:
<http://dx.doi.org/10.1653/024.095.0449>. Accessed: Mar. 20, 2013. doi:
10.1653/024.095.0449.
http://dx.doi.org/10.1653/024.095.0449...
).
In contrast, plants with insecticidal activity have been studied in control for insect
pests because they generally present environmental non-persistence and a low risk of
contamination in mammals (ISMAN, 2006ISMAN, M.B. Botanical insecticides, deterrents, and repellents in modern
agriculture and an increasingly regulated world. Annual Review of Entomology, v.51,
n.1 p.45-66, 2006. Available from:
<http://www.annualreviews.org/doi/pdf/10.1146/annurev.ento.51.110104.151146>.
Accessed: Oct. 10, 2012. doi:10.1146/annurev.ento.51.110104.151146.
http://www.annualreviews.org/doi/pdf/10....
; SANTIN et al., 2011SANTIN, J.R. et al. Evaluation of the acute toxicity, genotoxicity and
mutagenicity of ethanol extract of Piper aduncum. Journal of Medicinal Plants
Research, v.18, n.5, p.4475-4480, 2011. Available from:
<http://www.academicjournals.org/jmpr/pdf/pdf2011/16Sept/Santin%20et%20al.pdf>.
Accessed: Mar. 26, 2013.
http://www.academicjournals.org/jmpr/pdf...
). In this context, plants of the
family Piperaceae have been investigated, mainly because of their bioactive compounds
that are toxic by contact, ingestion and fumigation on insects (COITINHO et al., 2011COITINHO, R.L.B.C. et al. Toxicidade por fumigação, contato e ingestão
de óleos essenciais para Sitophilus zeamais Motschulsky, 1885 (Coleoptera:
Curculionidae). Ciência e Agrotecnologia, v.35, n.1, p.172-178, 2011. Available from:
<http://dx.doi.org/10.1590/S1413-70542011000100022>. Accessed: Nov. 11, 2013.
doi: 10.1590/s1413-70542011000100022.
http://dx.doi.org/10.1590/S1413-70542011...
).
The species Piper aduncum (L.) (Piperaceae) stands out for
having compounds with proven insecticidal action on different orders of insects. The
toxicity of this plant has been reported for insect vectors such as Aedes
aegypti (L.) and Aedes albopictus Skuse (Diptera:
Culicidae) (MISNI et al., 2011MISNI, N. et al. The effect of Piper aduncum Linn. (Family: Piperaceae)
essential oil as aerosol spray against Aedes aegypti (L.) and Aedes albopictus Skuse.
Tropical Biomedicine, v.28, n.2, p.249-258, 2011.),
in leaf-cutting ants such as Solenopsis saevissima (Smith) (Hymenoptera:
Formicidae) (SOUTO et al., 2012SOUTO, R.N.P. Insecticidal activity of Piper essential oils from the
amazon against the fire ant Solenopsis saevissima (Smith) (Hymenoptera: Formicidae).,
Neotropical Entomology v.41, n.6, p.510-517, 2012. Available from:
<http://link.springer.com/article/10.1007%2Fs13744-012-0080-6>. Accessed: Apr.
16, 2013. doi: 10.1007/s13744-012-0080-6.
http://link.springer.com/article/10.1007...
),
in coleopteran pests such as Sitophilus zeamais Motsch (Coleoptera:
Curculionidae) (ESTRELA et al.,
2006ESTRELA, J.L.V. et al. Toxicidade de óleos essenciais de Piper aduncum e
Piper hispidinervum em Sitophilus zeamais. Pesquisa Agropecuária Brasileira, v.41,
n.2, p.217-222, 2006. Available from:
<http://www.scielo.br/pdf/pab/v41n2/a05v41n2.pdf>. Accessed: Oct. 10, 2012.
doi: 10.1590/s0100-204x2006000200005.
http://www.scielo.br/pdf/pab/v41n2/a05v4...
) and in Hemiptera such as Aetalion sp. (Hemiptera:
Aetalionidae) (SILVA et al.,
2007SILVA, W.C. et al. Atividade inseticida de Piper aduncum L. (Piperaceae)
sobre Aetalion sp. (Hemiptera: Aetalionidae), praga de importância econômica no
Amazonas. Acta Amazônica, v.37, n.2, p.293-298, 2007. Available from:
<http://dx.doi.org/10.1590/S0044-59672007000200017>. Accessed: Mar. 15, 2013.
doi: 10.1590/s0044-59672007000200017.
http://dx.doi.org/10.1590/S0044-59672007...
).
However, despite showing promising results in controlling various insects, little is known about the potential of this plant in controlling soybean pests. Thus, the present study aimed to evaluate the potential of the acetonic extract from leaves of P. aduncum on the control of E. heros in all its stages of development (egg - nymph - adult).
MATERIAL AND METHODS:
Eggs, nymphs and adults of E. heros used in the bioassays were obtained from a colony established at the laboratory of entomology in the "Centro de Pesquisas, Estudos e Desenvolvimento Agroambiental" (CPEDA) of the "Universidade do Estado de Mato Grosso" (UNEMAT). To obtain the extract, P. aduncum plants were collected in Tangará da Serra, state of Mato Grosso (14° 29'S and 57° 54'W), in December (2011) and January (2012). These plants were identified and deposited in the Tangará herbarium (TANG) (Registration no. 1738).
For the preparation of the extract, the leaves of P. aduncum were dried in a drying oven with forced air circulation for 96 hours at 37°C, following the methodology of PRISTA et al. (1981)PRISTA, L.N. et al. Técnica farmacêutica e farmácia galênica. Lisboa: Calouste Gulbenkian, 1981. V.1. 147p.. After drying, the leaves were ground to a vegetable powder using a knife mill with a sieve with an aperture of 1mm in diameter. This powder was added to the solvent (acetone P.A.) at a ratio of 500g to 1500mL and allowed to percolate for seven days. Thereafter, the mixture (solvent + powder) was filtered and the solvent was evaporated by rotative evaporator to obtain the crude extract of leaves of P. aduncum.
Bioassays were conducted in a completely randomized design at concentrations of 0.5%, 1.0%, 2.0%, 4.0%, and 8.0% of the leaf extract of P. aduncum and acetone P.A. (control) with 10 replications per treatment. For bioassays with eggs, 30 eggs up to 24 hours old were used per repetition (n=300 eggs treatments-1); for the bioassay with nymphs, five 3rd instar individuals were used per repetition (n=50 nymphs treatments-1); and for the bioassay with adults, one pair of E. heros up to 24 hours old was used per repetition (n=20 adults treatments-1). All bioassays were conducted in a temperature-controlled room at 25.8°C±3.2°C, RH of 55.2%±13.8%, and photophase of 12 hours.
Bioassays with eggs were conducted using two methods. The first was by immersion where the eggs were dipped into the treatments for 10 seconds using an organza mesh sieve and then placed to dry on a glass surface at room temperature for 30 minutes. For the bioassay by contact, six filter paper discs of 6cm in diameter were soaked with 5mL of each treatment and maintained at room temperature for 30 minutes to dry. After drying, the filter paper discs impregnated with extract were individualized in Petri dishes, on which the eggs were placed. In both bioassays the number of unviable eggs in each treatment was evaluated, for a period of 10 days.
In the bioassays with nymphs and adults of E. heros, lμL (nymphs) and 5μL (adults) of the treatments were applied on the tergites of each individual kept in plastic pots (145mL) with the opening sealed with organza. The pots were lined with filter paper and green-bean pods (Phaseolus vulgaris) were used for feeding the insects (COSTA et al., 1998COSTA, M.L.M; et al. Biologia reprodutiva de Euschistus heros (F.) (Heteroptera: Pentatomidae). Anais da sociedade entomológica do Brasil, v.27, n.4 p.559-568, 1998.) and changed every two days. The number of dead nymphs was recorded daily for 15 days. For adults, the survival, fecundity and fertility of females were evaluated.
Statistical analysis: The number of unviable eggs, number of dead nymphs, fertility and fecundity were submitted to a normality test (Shapiro-Wilk) and homoscedasticity of variances (Barllet). These were then subjected to a Kruskal-Wallis one-way analysis of variance by ranks and, when significant, a multiple comparison was carried out with the Kruskal-Wallis test. For adult longevity data, the Kaplan-Meier survival analysis was performed (Gehan-Breslow) and, for the multiple comparison between the curves of each treatment, the Holm-Sidak method was used. All tests were performed at 5% significance level.
RESULTS:
It was observed that leaves extract of P. aduncum, affected all development phases on stink bug. In the bioassay using immersion of eggs, the concentrations of 8.0%, 4.0%, 2.0% and 1.0% differed from the control resulting, respectively, in 98.0%, 82.7%, 74.3% and 16.7% of unviable eggs. In the bioassay via contact with the impregnated surface, only 19% of the eggs of E. heros were unviable at the highest concentration, while the other concentrations did not differ from the control (Table 1).
In the bioassay with nymphs, after 15 days of evaluation, the extract of P. aduncum led to the death of 72% and 52% of the nymphs of E. heros at concentrations of 8.0% and 4.0%, respectively, while the other concentrations did not differ from the control (Table 1). With adults, the extract reduced longevity and affected the reproductive potential of female E. heros at all concentrations tested, especially for concentrations of 8.0% and 4.0%, in which fertility was drastically affected by the application of the extract (Table 2).
Survival analysis indicated a significant difference between the survival curves of adults (K-M=109.91, d.f.=5 and P>0.001). The survival of adults at a concentration of 8% shows the efficiency of the extract in reducing the longevity of E. heros, since only 40% of the insects survived in less than 10 days and there was 100% mortality rate at 16 days of age. At a concentration of 4%, survival was approximately 55 days but, despite this increased lifespan, females did lay eggs, indicating the direct effect of leaf extract of P. aduncum on the reproduction of this insect (Figure 1). In other concentrations, survival varied from 86 to 92 days at low concentrations (Figure 1) and, in these, a significant reduction was also observed in the reproductive potential of these stink bugs (Table 2).
DISCUSSION:
The smaller number of viable eggs in the bioassay by contact, compared to the bioassay by immersion, is probably related to the protective effect of the chorion layers, which act as a barrier to foreign substances. The greater number of unviable eggs observed in the bioassay by immersion leads us to believe that the micropyle (structure responsible for the respiratory process in the egg) facilitates entry of the solution, thus preventing the formation of the embryo.
This hypothesis is supported by BEAMENT (1948,
1952)BEAMENT, J.W.L. The role of cuticle and egg-shell membranes in the
penetration of insecticides. Annals Applied Biology, v.39, p.142-143,
1952., who reported the role of the micropyle in transporting insecticides to
the interior of the egg, since the chorion is an impermeable structure for toxic
substances. Although this hypothesis was not discussed by KOPPEL et al. (2011)KOPPEL, A.L. et al. Efficacy of selected insecticides against eggs of
Euschistus servus and Acrosternum hilare (Hemiptera: Pentatomidae) and the egg
parasitoid Telenomus podisi (Hymenoptera: Scelionidae). Journal of Economic
Entomology, v.104, n.1, p.137-142, 2011. Available from:
<http://dx.doi.org/10.1603/EC10222>. Accessed: Jan. 18, 2013. doi:
10.1603/EC10222.
http://dx.doi.org/10.1603/EC10222...
and BROWN et
al. (2012)BROWN, S.A. et al. Efficacy of Foliar Insecticides on Eggs of Nezara
viridula (Hemiptera: Pentatomidae). Florida Entomologist, v.95, n.4 p.1182-1186,
2012. Available from: <http://dx.doi.org/10.1653/024.095.0449>. Accessed: Mar.
20, 2013. doi: 10.1653/024.095.0449.
http://dx.doi.org/10.1653/024.095.0449...
in their research with immersion of eggs of Euschistus
servus (Say), Acrosternum hilare (Say) and Nezara
viridula (L.) (Hemiptera: Pentatomidae) in an insecticide
solution, the authors found more than 90% of the eggs to be unviable in all chemical
groups tested, indicating that these substances penetrate inside the egg and prevent
development of the embryo. This effect has also been reported in eggs of
Reduviidae, where the application directly on the chorion was the most
successful ovicidal action in bioassays conducted by CARNEIRO et al. (2011)CARNEIRO, A.P. et al. Efeito biocida de Annona coriacea Mart 1841 sobre
ovos e ninfas do vetor Rhodnius neglectus Lent 1954. Neotropical Biology and
Conservation, v.6 n.2, p.131-136, 2011. with Annonaceae extract on eggs of
Rhodnius neglectus (Lent.) (Hemiptera: Reduviidae) with
unviability of 90% of the eggs.
In this research the formation of the embryo was observed in eggs of E.
heros that did not hatched, but the development was prevented by the action of
the extract. This was also observed in eggs of Dysdercus cingulatus (F.)
(Hemiptera: Pyrrhocoridae) treated with the extract of Padina
pavonica (L.) (Phaeophyceae), in which embryogenesis was
interrupted after the third day of embryonic development, due to the action of the
extract (SAHAYARAJ & KALIDAS, 2011SAHAYARAJ, K.; KALIDAS, S. Evaluation of nymphicidal and ovicidal effect
of a seaweed, Padina pavonica (Linn.) (Phaeophyceae) on cotton pest, Dysdercus
cingulatus (Fab.). Indian Journal of Marine Sciences, v.40, n.1, p.125-129, 2011.
Available from:
<http://nopr.niscair.res.in/bitstream/123456789/11381/1/IJMS%2040%281%29%20125-129.pdf>.
Accessed: Mar. 23, 2013.
http://nopr.niscair.res.in/bitstream/123...
). It
is believed that the leaf extract of P. aduncum has this same effect on the
process of embryogenesis of E. heros, however, a more detailed study is
necessary to determine at what stage embryogenesis is interrupted.
In nymphs of Hemiptera, despite the few studies, Piperaceae species have
shown promising results, such as in Aetalion sp. treated with extract of
P. aduncum which, at a concentration of 30mg ml-1 (0.3 %),
resulted in a mortality rate of 72% of the nymphs (SILVA
et al., 2007SILVA, F.A. et al. Survivorship and egg production of phytophagous
pentatomids in laboratory rearing., Neotropical Entomology v.40, n.1, p.35-38, 2011.
Available from: <http://dx.doi.org/10.1590/S1519-566X2011000100005>. Accessed:
Mar. 15, 2013. doi: 10.1590/S1519-566X2011000100005.
http://dx.doi.org/10.1590/S1519-566X2011...
), indicating a greater susceptibility of this insect to the
extract of P. aduncum when compared to E. heros. Besides
Piperaceae, other plants with insecticidal properties have been
efficient in controlling stink bug nymphs. CARNEIRO et
al. (2013)CARNEIRO, A.P. et al. Biocide activity of Annona coriacea seeds extract
on Rhodnius neglectus (Hemiptera: Reduviidae). Revista de Biologia Tropical, v.61,
n.1, p.419-427, 2013. Available from:
<http://www.scielo.sa.cr/pdf/rbt/v61n1/a34v61n1.pdf>. Accessed: Mar. 18,
2013.
http://www.scielo.sa.cr/pdf/rbt/v61n1/a3...
, when using the crude extract of A. coriacea on nymphs
of R. neglectus, obtained a mortality rate of 80% to 93.3% in the
concentrations of 100mg ml-1 and 200mg ml-1, respectively. ABUDULAI et al. (2003)ABUDULAI, M. et al. Antifeedant and toxic effects of a neem (Azadirachta
indica A. Juss) based formulation Neemix against Nezara viridula (L.) (Hemiptera:
Pentatomidae). Journal of Entomological Science, v.38, n.3, p.398-408,
2003., when testing a commercial
product based on neem (4.5% of azadirachtin) on the southern green stink bug N.
viridula, observed a mortality rate of 17% and 87% of 5th instar
nymphs at concentrations of 0.5% and 5%, respectively.
The toxic effect of P. aduncum on nymphs of E. heros, is
probably associated to the action of bioactive compounds present in this plant there
being, among the compounds, a strong indication that dilapiolle is responsible for
insecticidal activity on E. heros, as reported by FAZOLIN et al. (2005)FAZOLIN, M. et al. Toxicidade do óleo de Piper aduncum L. a adultos de
Cerotoma tingomarianus Bechyné (Coleoptera: Chrysomelidae). Neotropical Entomology,
v.34, n.3, p.485-489, 2005. Available from:
<http://dx.doi.org/10.1590/S1519-566X2005000300018>. Accessed: Oct. 10, 2012.
doi:10.1590/S1519-566X2005000300018.
http://dx.doi.org/10.1590/S1519-566X2005...
, ESTRELA et
al. (2006)ESTRELA, J.L.V. et al. Toxicidade de óleos essenciais de Piper aduncum e
Piper hispidinervum em Sitophilus zeamais. Pesquisa Agropecuária Brasileira, v.41,
n.2, p.217-222, 2006. Available from:
<http://www.scielo.br/pdf/pab/v41n2/a05v41n2.pdf>. Accessed: Oct. 10, 2012.
doi: 10.1590/s0100-204x2006000200005.
http://www.scielo.br/pdf/pab/v41n2/a05v4...
and CELIS et al. (2008)CELIS, A. et al. Extractos vegetales utilizados como biocontroladores
con énfasis en la familia Piperaceae: una revisión. Agronomia Colombia, v.26, n.
p.97-106, 2008. Available from:
<http://www.scielo.org.co/pdf/agc/v26n1/v26n1a12.pdf>. Accessed: Mar. 15,
2013.
http://www.scielo.org.co/pdf/agc/v26n1/v...
, for
other insects. However, since synergism may occur between the molecules, the isolation
of this compound to confirm this hypothesis is required.
The results for adults are promising, since controlling the stink bugs before they are
10 days old may reduce the number of individuals in the next generation by preventing
reproductive development, because pre-oviposition period of this insect is, on average,
of 10 days (SILVA et al., 2011SILVA, W.C. et al. Atividade inseticida de Piper aduncum L. (Piperaceae)
sobre Aetalion sp. (Hemiptera: Aetalionidae), praga de importância econômica no
Amazonas. Acta Amazônica, v.37, n.2, p.293-298, 2007. Available from:
<http://dx.doi.org/10.1590/S0044-59672007000200017>. Accessed: Mar. 15, 2013.
doi: 10.1590/s0044-59672007000200017.
http://dx.doi.org/10.1590/S0044-59672007...
). It is important
to note that the insects that survived the concentration of 8.0% had low fertility
(mean=3.80 eggs), differing from the control (mean= 194.90 eggs) (Table 2).
The reduction in longevity and inhibition of oviposition of female Hemiptera adults was
also observed by RIBA et al. (2003)RIBA, M.J. et al. Influence of azadirachtin on development and
reproduction of Nezara viridula L. (Het., Pentatomidae). Journal Applied Entomology,
v.127, p.37-41, 2003. Available from:
<http://onlinelibrary.wiley.com/doi/10.1046/j.1439-0418.2003.00684.x>.
Accessed: Oct. 10, 2012. doi: 10.1046/j.1439-0418.2003.00684.x.
http://onlinelibrary.wiley.com/doi/10.10...
with
neem-based products containing compounds rich in azadirachtin (95%) against the stink
bug N. viridula. These authors relate the negative effects on the insects
to the presence of the insecticide compound azadirachtin. It is worth noting that the
extract of P. aduncum showed results similar to those found by RIBA et al. (2003)RIBA, M.J. et al. Influence of azadirachtin on development and
reproduction of Nezara viridula L. (Het., Pentatomidae). Journal Applied Entomology,
v.127, p.37-41, 2003. Available from:
<http://onlinelibrary.wiley.com/doi/10.1046/j.1439-0418.2003.00684.x>.
Accessed: Oct. 10, 2012. doi: 10.1046/j.1439-0418.2003.00684.x.
http://onlinelibrary.wiley.com/doi/10.10...
, despite its active compound not
having been isolated. This highlights the potential of this plant for insect control
and, therefore, research is needed to identify and isolate the active compounds, as well
as to test the efficiency of these compounds in field conditions.
CONCLUSION:
The species P. aduncum proved to be a promising plant for promoting the control of the soybean pest, the Neotropical brown stink bug. The leaf extract of P. aduncum presented an insecticidal action on eggs and nymphs of the stink bugs and affected survival, fecundity, and fertility of adults in laboratory conditions.
ACKNOWLEDGEMENTS
The authors thank the Núcleo de Educação e Ciências Tabebuia aurea (NECTAR) by financial assistence. The PROBIC (Programa de Bolsas de Iniciação Científica da Universidade do Estado de Mato Grosso) and Fundação de Amparo a Pesquisa do Estado de Mato Grosso (FAPEMAT) for providing scholarship (process no 442484/2013) and Dr. Celice Alexandre Silva by confirmation of species of Piper.
- ABUDULAI, M. et al. Antifeedant and toxic effects of a neem (Azadirachta indica A. Juss) based formulation Neemix against Nezara viridula (L.) (Hemiptera: Pentatomidae). Journal of Entomological Science, v.38, n.3, p.398-408, 2003.
- BEAMENT, J.W.L. The penetration of insect egg-shells. In: Penetration of the chorion of Rhodnius prolixus, Stal. Bulletin of Entomological Research, v.39, p.359-383, 1948.
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Publication Dates
-
Publication in this collection
Nov 2014
History
-
Received
26 Sept 2013 -
Accepted
17 Mar 2014