Resistance to pyrethroid and oxadiazine insecticides in Helicoverpa armigera (Lepidoptera: Noctuidae) populations in Brazil / Resistência de Helicoverpa armigera (Lepidoptera: Noctuidae) a inseticidas dos grupos piretroides e oxadiazinas no Brasil

Durigan, Mariana Regina

07 May 2018

Helicoverpa armigera (Hübner) was officially reported in Brazil in 2013 causing serious damage to several crops, especially soybean and cotton crops. Because of this severe damage and also because H. armigera is more tolerant to insecticides in compare to other lepidopteran pests in Brazil, there was a significant increase of selection pressure with insecticides in the field. Many cases of insecticide resistance, especially to pyrethroids, have been reported in some countries of the Old World. The main objective of the present study was to characterize the susceptibility of H. armigera and to investigate the mechanisms of its resistance to pyrethroids and indoxacarb in Brazilian populations. Mortality of H. armigera populations was less than 50% when treated with the highest dose of 10 μg a.i./3rd-instar larva of fenvalerate and deltamethrin. Field populations of H. armigera monitored from 2013 to 2016 growing seasons showed mean mortalities of 10 to 40% at the diagnostic dose of 10 μg a.i./3rd-instar larva. The resistance ratio to pyrethroid was 780-fold. The frequency of the chimeric P450 CYP337B3 gene was above 0.95 in all 33 populations screened. The genetic basis of H. armigera resistance to pyrethroids was also investigated. The dominance degree varied from 0.66 to 0.92, i.e., incompletely to completely dominant, and resistance was characterized as autosomal and polygenic. Possible mutations in the sodium channel were investigated, as well as the expression of other P450 genes via RT-qPCR. Two non-synonymous mutations, V937G and Q960H were found, and the genes CYP6AB10, CYP301A, CYP4S13 and CYP321A5 were up-regulated in the Brazilian pyrethroid-resistant strain compared to the susceptible strain. The susceptibility of H. armigera populations to indoxacarb was characterized with a diet overlay bioassay in 3rd-instar larvae. LC50 values ranged from 0.22 (0.16-0.28) μg a.i./cm2 to 0.57 (0.41-0.82) μg a.i./cm2, varying 2.6-fold. The populations were monitored through the 2013-2017 growing seasons, with the diagnostic dose of 6.1 μg a.i./cm2; during the period, the susceptibility to indoxacarb decreased. An indoxacarb-resistant strain was selected under laboratory conditions and showed a resistance ratio of 297.5-fold. These results will contribute to decision-making and implementation of insect resistance-management (IRM) programs in Brazil and other recently invaded countries in Brazil. / Helicoverpa armigera (Hübner) foi reportada oficialmente no Brasil em 2013, ano em que causou grandes perdas em lavouras de soja e algodão no país. Devido ao ataque severo de H. armigera e por ser mais tolerante do que as demais pragas que ocorriam no Brasil, houve um aumento significativo da pressão de seleção com inseticidas no campo. Inúmeros casos de resistência desta praga a inseticidas do grupo dos piretroides já havia sido reportado em alguns países do Velho Mundo. Dentro desse contexto o objetivo desse trabalho foi caracterizar a suscetibilidade e investigar possíveis mecanismos de resistência a piretroides bem como indoxacarb no Brasil. A mortalidade das populações de H. armigera foi menor do que 50 % quando tratadas com a dose máxima de 10 μg i.a./lagarta de 3º instar para fenvalerato e deltametrina. As populações de campo de H. armigera monitoradas entre os anos de 2013 a 2016 na dose diagnóstica de 10 μg i.a./lagarta de 3º instar apresentaram mortalidade de 10 a 40%. A frequência do gene P450 CYP337B3 foi maior do que 0,95 em 33 populações testada. Além disso, as bases genéticas da resistência de H. armigera a piretroides foram investigadas e a razão de resistência com a linhagem suscetível foi de 780 vezes. O grau de dominância variou de 0,66 a 0,92, incompletamente e completamente dominante e a resistência foi caracterizada como autossômica e poligênica. Adicionalmente investigou-se a presença de possíveis mutações no canal de sódio bem como a expressão de outros genes P450 em uma linhagem resistente a piretroides. Foi possível detectar duas mutações não-sinonímias V937G, e Q960H no canal de sódio e os genes CYP6AB10, CYP301A, CYP4S13 e CYP321A5 foram super expressos na linhagem resistente. A suscetibilidade de populações de H. armigera para o inseticida indoxacarb foi caracterizada a partir de bioensaios de ingestão com lagartas de 3° instar. Os valores de CL50 variaram de 0,22 (0,16 - 0,28) μg i.a./cm2 até 0,57 (0,41 - 0,82) μg i.a./cm2 variando em 2,6 vezes. As populações foram monitoradas ao longo das safras agrícolas entre 2013 e 2017 com a concentração diagnóstica de 6,1 μg i.a./cm2 e observou-se uma diminuição na suscetibilidade da praga a indoxacarb. Uma linhagem resistente a indoxacarb foi selecionada em laboratório e comparada com uma linhagem suscetível de referência, apresentando uma razão de resistência de 297,5 vezes. Os resultados obtidos são extremamente importantes e poderão contribuir na tomada de decisões bem como na implementação de programas de manejo da resistência de insetos (MRI) no Brasil.

Helicoverpa armigera

Helicoverpa armigera

Deltamethrin

Deltametrina

Fenvalerate

Fenvalerato

Indoxacarb

Indoxacarb

Inseticidas que atuam no canal de sódio

Manejo da resistência de insetos

Mecanismos de resistência

Mechanisms of resistance

Resistance management

Sodium channel

Caracterização da suscetibilidade a inseticidas reguladores de crescimento de insetos em populações de Helicoverpa armigera e Spodoptera frugiperda (Lepidoptera: Noctuidae) do Brasil / Characterization of the susceptibility to insect growth regulator insecticides in populations of Helicoverpa armigera and Spodoptera frugiperda (Lepidoptera: Noctuidae) from Brazil

Amado, Douglas

20 June 2017

Os reguladores de crescimento de insetos têm sido um dos mais importantes grupos de inseticidas recomendados para o controle de Helicoverpa armigera (Hübner) e Spodoptera frugiperda (J. E. Smith) no Brasil, que são consideradas pragas-chave de vários sistemas de produção agrícola. Para implementar programas de manejo da resistência de insetos, o presente trabalho teve como objetivo caracterizar a suscetibilidade a inseticidas reguladores de crescimento de insetos em populações de H. armigera e S. frugiperda do Brasil. A caracterização das linhas-básica de suscetibilidade de H. armigera a lufenuron e methoxifenozide e de S. frugiperda a methoxifenozide foi realizada com bioensaio de tratamento superficial da dieta artificial com inseticida, utilizando-se lagartas de 3º instar. Foram verificadas baixa variabilidade na suscetibilidade de H. armigera a lufenuron, com DL50 variando de 0,30 a 1,02 &mu;g de i.a./cm2 de dieta, e a methoxifenozide, com DL50 de 2,61 a 8,02 &mu;g de i.a./cm2 de dieta, em populações coletadas em diferentes regiões agrícolas na safra 2013/2014. As doses diagnósticas, baseadas na DL99, foram de 6,36 &mu;g de i.a/cm2 de dieta para lufenuron e 31,10 &mu;g de i.a/cm2 de dieta para methoxifenozide. Foram observadas variações geográfica e temporal na suscetibilidade a lufenuron e methoxifenozide em populações de H. armigera coletadas nas safras de 2013/2014 a 2016/2017; contudo, não foi possível isolar linhagens de H. armigera resistentes a estes inseticidas, mediante o uso de técnicas de \"F2 screen\" e seleção massal. Uma baixa variabilidade na suscetibilidade de S. frugiperda a methoxifenozide foi observada para as populações coletadas na segunda safra de 2016, com DL50 variando de 0,5 a 2,1 &mu;g de i.a/cm2 de dieta. A dose diagnóstica (DL99) para monitoramento da suscetibilidade a methoxifenozide em populações de S. frugiperda foi de 6 &mu;g de i.a/cm2 de dieta. Na 2ª safra de 2016, a sobrevivência das populações de S. frugiperda avaliadas foram baixas, com valores inferiores a 10% na dose diagnóstica. Por outro lado, na 1ª safra de 2017, houve aumento na sobrevivência das populações testadas, atingindo valores de até 62%. A linhagem de S. frugiperda resistente a methoxifenozide selecionada em condições de laboratório apresentou uma baixa razão de resistência (&asymp;5 vezes). Os resultados da presente pesquisa confirmaram a alta suscetibilidade de H. armigera a lufenuron e methoxifenozide e de S. frugiperda a methoxyfenozide. As informações obtidas no presente estudo servirão para a implementação de programas proativos de manejo da resistência a esses inseticidas. / Insect growth regulators have been one of the most important group of insecticides recommended for controlling Helicoverpa armigera (Hübner) and Spodoptera frugiperda (J. E. Smith) in Brazil which are considered key pests of several crop production systems. To implement insect resistance management programs, the objective of this research was to characterize the susceptibility to insect growth regulators in H. armigera and S. frugiperda populations from Brazil. Baseline susceptibilities of H. armigera to lufenuron and methoxifenozide and S. frugiperda to methoxifenozide were conducted with artificial diet overlay bioassays using 3rd instar larvae. There was low variability in the susceptibility of H. armigera to lufenuron, with LD50 ranging from 0.30 to 1.02 &mu;g of a.i./cm2 of diet, and to methoxifenozide, with LD50 of 2.61 to 8.02 &mu;g of a.i./cm2 of diet across populations collected in different agricultural regions in 2013/2014 growing season. The diagnostic doses, based on DL99, were 6.36 &mu;g of a.i./cm2 of diet for lufenuron and 31.10 &mu;g of a.i./cm2 of diet for methoxifenozide. Geographic and temporal variations in susceptibility to lufenuron and methoxifenozide were observed in populations of H. armigera collected from 2013/2014 to 2016/2017 growing seasons; however, it was not possible to isolate resistant strains to these insecticides using F2 screen and massal selection approaches. There was also a low variability in the susceptibility of S. frugiperda to methoxifenozide across populations collected in the 2nd crop season in 2016, with LD50 ranging from 0.5 to 2.1 &mu;g of a.i./cm2 of diet. The diagnostic dose (DL99) for monitoring the susceptibility to methoxifenozide in S. frugiperda populations was 6 &mu;g of a.i./cm2 of diet. In the 2nd crop season of 2016, the survival at diagnostic dose of S. frugiperda populations evaluated was low (< 10%). On the other hand, in the 1st crop season of 2017, there was a significant increase in the survival across the populations tested, with values reaching up to 62% at diagnostic dose. The laboratory-selected resistant strain of S. frugiperda to methoxifenozide showed a low resistance ratio (&asymp;5 times). We confirmed the high susceptibility of H. armigera to lufenuron and methoxifenozide and S. frugiperda to methoxifenozide in Brazil. The information collected in this study will be important for implementing a proactive resistance management programs to these insecticides.

Helicoverpa armigera

Spodoptera frugiperda

Insect resistance management

Lufenuron

Lufenuron

Manejo da resistência de insetos

Methoxifenozide

Methoxyfenozide

Caracterização da suscetibilidade a inseticidas diamidas e espinosinas em populações de Helicoverpa armigera (Lepidoptera: Noctuidae) do Brasil / Characterization of the susceptibility to diamide and spinosyn insecticides in Helicoverpa armigera (Lepidoptera: Noctuidae) populations from Brazil

Pereira, Rogério Machado

22 May 2017

O manejo de Helicoverpa armigera (Hübner) no Brasil tem sido baseado principalmente no controle químico. O uso de inseticidas de grupos químicos mais recentes, tais como diamidas e espinosinas, tem sido crescente no controle de H. armigera e de outros lepidópteros-praga que ocorrem em diferentes sistemas de produção de cultivos. Para a implementação de estratégias proativas de manejo da resistência de insetos, os objetivos da presente pesquisa foram (i) caracterizar as linhas-básicas de suscetibilidade a inseticidas diamidas (chlorantraniliprole, cyantraniliprole e flubendiamide) e espinosinas (spinosad e spinetoram) em populações de H. armigera do Brasil; (ii) estimar a frequência inicial de alelo que confere resistência a chlorantraniliprole e spinosad; e (iii) caracterizar o padrão de herança da resistência de H. armigera a flubendiamide e a resistência cruzada com outras diamidas. Inicialmente foram realizadas a caracterização das linhas-básicas de suscetibilidade a inseticidas diamidas e espinosinas em sete populações de H. armigera coletadas na safra 2013/2014. Foram verificadas baixas variações na suscetibilidade a inseticidas diamidas (< 5 vezes) e espinosinas (&asymp; 2 vezes) entre as populações testadas, baseada na DL50. A frequência inicial do alelo que confere resistência de H. armigera a chlorantraniprole, estimada pelo método F2 screen, foi de 0,00694 (IC95%, 0,00018 - 0,02561) em 2014 a 0,04348 (IC95%, 0,01216 - 0,09347) em 2015. Para spinosad, a frequência foi de 0,02632 (IC95% 0,01149 - 0,04706) em populações de H. armigera coletadas na safra 2014/2015. Posteriormente, foram conduzidos o monitoramento da suscetibilidade com bioensaios de doses diagnósticas (DL99) de cada inseticida em populações de H. armigera coletadas no período de 2013 a 2017. Foram observadas reduções significativas na suscetibilidade a inseticidas diamidas em populações de H. armigera no decorrer das safras agrícolas, com sobrevivências de lagartas de 0% (em 2013) até 22% (em 2017). Não foram observadas diferenças significativas na suscetibilidade a inseticidas espinosinas em populações de H. armigera no decorrer das safras agrícolas de 2013 a 2016. Contudo, foram verificadas reduções significativas na suscetibilidade das populações avaliadas na safra 2016/2017, com sobrevivência de até 20% na dose diagnóstica de spinosad. A razão de resistência da linhagem de H. armigera resistente a flubendiamide foi &asymp; 1770 vezes. Foram verificadas a presença de baixa resistência cruzada entre flubendiamide e outras diamidas (chlorantraniliprole e cyantraniliprole). Baseado nos cruzamentos recíprocos entre as linhagens suscetível e resistente a flubendiamide, o padrão de herança da resistência de H. armigera a flubendiamide é autossômico e incompletamente dominante. Retrocruzamentos da progênie dos cruzamentos recíprocos com a linhagem suscetível revelou que a resistência de H. armigera a flubendiamide é monogênica. Os resultados obtidos neste trabalho evidenciam o alto risco de evolução da resistência e a necessidade de implementação de estratégias de manejo da resistência a inseticidas diamidas e espinosinas em H. armigera no Brasil. / The management of Helicoverpa armigera (Hübner) in Brazil has been based mainly on chemical control. The use of insecticides from relatively new chemical groups, such as diamides and spinosyns, has increased to control H. armigera and other lepidopteran-pests occurring in different cropping production systems. For implementing a proactive insect resistance management, the objectives of this research were: (i) to characterize the baseline susceptibility to diamide (chlorantraniliprole, cyantraniliprole and flubendiamide) and sypnosyn (spinosad and spinetoram) insecticides in H. armigera populations from Brazil; (ii) to estimate the initial frequency of resistance allele to chlorantraniliprole and spinosad; and (iii) to characterize the inheritance of resistance of H. armigera to flubendiamide and the cross-resistance to other diamides. Initially, the baseline susceptibility to diamide and spinosyn insecticides was characterized in seven H. armigera populations collected in 2013/2014 growing season. Low variability in the susceptibility to diamide (< 5-fold) and sypinosyn (&asymp; 2-fold) insecticides was detected among H. armigera populations, based on LD50. The initial frequency of resistance allele of H. armigera to chlorantraniliprole, estimated by F2 screen method, was 0.00694 (CI95%, 0.00018 - 0.02561) in 2014 to 0.04348 (CI95%, 0.01216 - 0.09347) in 2015. To spinosad, the frequency was 0.02632 (CI95% 0.01149 - 0.04706) in H. armigera populations collected in 2014/2015. Then, insecticide susceptibility monitoring was conducted with diagnostic dose (LD99) bioassays of each insecticide in H. armigera populations collected from 2013 to 2017. A significant reduction in the susceptibility to diamide insecticides was detected throughout growing seasons, with larval survival from 0% (in 2013) up to 22% (in 2017). There were no significant differences in the susceptibility to spinosyn insecticides in H. armigera populations collected from 2013 to 2016. However, a significant reduction in the susceptibility was detected in populations from 2016/2017 growing season, with larval survival up to 20% at the diagnostic dose of spinosad. The resistance ratio of flubendiamide-resistant strain of H. armigera was &asymp; 1,770-fold. A low cross-resistance was detected between flubendiamide and other diamides (chlorantraniliprole and cyantraniliprole). Based on reciprocal crosses between susceptible and flubendiamide-resistant strains, the inheritance of H. armigera resistance to flubendiamide is autosomal and incompletely dominant. Backcrosses of the progenies from reciprocal crosses to the susceptible strain revealed that the resistance of H. armigera to flubendiamide is monogenic. The results obtained herein showed the high risk of resistance evolution and the need of implementation of resistance management strategies to diamide and spinosyn insecticides in H. armigera in Brazil.

Helicoverpa armigera

Diamides

Frequência alélica

Insect resistance management

Manejo de resistência

Monitoramento

Padrão de herança

Spinosyns

Susceptibility

Identification And Characterization Of Hydrolytic Enzymes Of Sunn Pest (eurygaster Integriceps) And Cotton Bollworm (helicoverpa Armigera)

Ozgur, Ebru

01 September 2006

In this study, hydrolytic enzymes from sunn pest (Eurygaster integriceps) and cotton bollworm (Helicoverpa armigera) midguts were identified and characterized in terms of their optimum pH, Km and Vmax values. Hydrolytic activities were also tested for inhibition by several protease and alpha-amylase inhibitors which can be used for the development of insect resistant plants through transgenic technologies. For sunn pest midgut, a low proteolytic activity, belonging mostly to trypsin-like and leucine aminopeptidase-like proteases, and a very high alpha-amylase activity was found in sunn pest midgut, reflecting its high carbohydrate diet. Proteolytic activities could not be inhibited by natural protease inhibitors (SBTI and aprotinin) but inhibited significantly by a general serine protease inhibitor PMSF and metalloprotease inhibitors CdCl2 and CuCl2. alpha-Amylase activity of sunn pest midgut is resistant to inhibition by bean alpha-amylase inhibitor, but inhibited by chickpea, wheat and maize alpha-amylase inhibitors by 26 %, 37 % and 40 %, respectively. For cotton bollworm midgut, a very high proteolytic activity, belonging to serine and metalloprotease type, was detected. alpha-Amylase activity was lower compared to sunn pest midgut, but there were higher and diverse type of proteases, might be reflecting its wide range of host preference. Proteolytic activity was significantly inhibited by both natural protease inhibitors (SBTI and aprotinin). It was also inhibited by several synthetic protease inhibitors (PMSF, E-64, TPCK, CdCl2, CuCl2, Chymostatin). alpha-Amylase activity was inhibited by 60 % by wheat alpha-amylase inhibitor, while maize, chickpea and bean alpha-amylase inhibitors had no effect on cotton bollworm midgut alpha-amylase activity.

QK Phytochemistry 861-899

Status of resistance of Helicoverpa armigera (Lepidoptera: Noctuidae) and Diparopsis castanea (Lepidoptera: Noctuidae) to Bt cotton in South Africa / Pretorius J.D.

Pretorius, Johannes Diederik

January 2011

Genetically modified (GM) cotton expressing Cry1Ac proteins was released in South Africa in 1997 for control of the bollworm complex on this crop. No reports of the failure of Bollgard® cotton to control these pests have yet been made. Throughout the world there are concerns about the development of resistance of target pests to Bt cotton due to the use of only one Bt gene. The aim of this study was to determine if Helicoverpa armigera (Lepidoptera: Noctuidae) and Diparopsis castanea (Lepidoptera: Noctuidae) developed resistance to Bt cotton in South Africa. To determine if H. armigera developed resistance, laboratory experiments were conducted to determine the levels of larval survival and development time when feeding on Bt and non–Bt cotton. Bollworm populations were collected on maize and cotton at different sites in South Africa and reared on Bt and non–Bt cotton under laboratory conditions. Results showed that some populations survived on Bt cotton and that a significant proportion of the individuals successfully completed their life cycles on Bt cotton. Surveys were also conducted amongst cotton farmers to determine the levels of compliance to the refuge strategy that has to be implemented by farmers as an insect resistance management (IRM) strategy to delay resistance development. The levels of compliance to refugia requirements were low and farmers generally only started planting refugia several years after they planted Bt cotton for the first time. The development of resistance of H. armigera to Bt cotton in South Africa can possibly be ascribed to non–compliance to the prescribed refuge requirements. No conclusions can be made on resistance of D. castanea to Bt cotton but the relatively long time to mortality of larvae could indicate development of tolerance to Cry1Ac proteins. The new generation Bollgard II® cotton, expressing both Cry1Ac and Cry2Ab2 proteins, has been released in South Africa during the 2010/11 growing season and field observations showed effective control of the bollworm complex at several sites in the country. Monitoring of refuge compliance levels as well as resistance development in the bollworm complex to Bollgard II® cotton is necessary to ensure the future success of GM cotton. / Thesis (M. Environmental Science)--North-West University, Potchefstroom Campus, 2012.

Helicoverpa armigera

Diparopsis castanea

Bt cotton

Lepidoptera

Resistance

Bt katoen

Weerstand

Status of resistance of Helicoverpa armigera (Lepidoptera: Noctuidae) and Diparopsis castanea (Lepidoptera: Noctuidae) to Bt cotton in South Africa / Pretorius J.D.

Pretorius, Johannes Diederik

January 2011

Genetically modified (GM) cotton expressing Cry1Ac proteins was released in South Africa in 1997 for control of the bollworm complex on this crop. No reports of the failure of Bollgard® cotton to control these pests have yet been made. Throughout the world there are concerns about the development of resistance of target pests to Bt cotton due to the use of only one Bt gene. The aim of this study was to determine if Helicoverpa armigera (Lepidoptera: Noctuidae) and Diparopsis castanea (Lepidoptera: Noctuidae) developed resistance to Bt cotton in South Africa. To determine if H. armigera developed resistance, laboratory experiments were conducted to determine the levels of larval survival and development time when feeding on Bt and non–Bt cotton. Bollworm populations were collected on maize and cotton at different sites in South Africa and reared on Bt and non–Bt cotton under laboratory conditions. Results showed that some populations survived on Bt cotton and that a significant proportion of the individuals successfully completed their life cycles on Bt cotton. Surveys were also conducted amongst cotton farmers to determine the levels of compliance to the refuge strategy that has to be implemented by farmers as an insect resistance management (IRM) strategy to delay resistance development. The levels of compliance to refugia requirements were low and farmers generally only started planting refugia several years after they planted Bt cotton for the first time. The development of resistance of H. armigera to Bt cotton in South Africa can possibly be ascribed to non–compliance to the prescribed refuge requirements. No conclusions can be made on resistance of D. castanea to Bt cotton but the relatively long time to mortality of larvae could indicate development of tolerance to Cry1Ac proteins. The new generation Bollgard II® cotton, expressing both Cry1Ac and Cry2Ab2 proteins, has been released in South Africa during the 2010/11 growing season and field observations showed effective control of the bollworm complex at several sites in the country. Monitoring of refuge compliance levels as well as resistance development in the bollworm complex to Bollgard II® cotton is necessary to ensure the future success of GM cotton. / Thesis (M. Environmental Science)--North-West University, Potchefstroom Campus, 2012.

Helicoverpa armigera

Diparopsis castanea

Bt cotton

Lepidoptera

Resistance

Bt katoen

Weerstand

Effect Of Synthetic Pyrethroid Lambda- Cyhalothrin On Helicoverpa Armigera Glutathione S-transferases

Konus, Metin

01 December 2004

Helicoverpa armigera is a polyphagous pest. Due to excessive use of insecticides, the field populations of H. armigera have become resistant to synthetic pyrethroids by one or combination of three mechanisms / reduced penetration through the cuticle, decreased nerve sensitivity and enhanced metabolism by the detoxification enzymes especially glutathione S-transferases. In this study, gut sections of H. armigera were obtained from Adana and Antalya field populations and susceptible populations from Israel. Each gut section was homogenized separately in 1.0 ml, 40 mM and pH 7.5 phosphate buffers. GST activity was determined using CDNB as substrate. Product formation linearly increased up to 29.5&micro / g proteins in 20mM, pH 7.5 phosphate buffers. Maximum reaction rate was reached at 30&amp / #9702 / C. The Vmax and Km values for GST towards CDNB and GSH were calculated with Lineweaver-Burk and Eadie-Scatchard plots as CDNB Vmax / 6.54&micro / mol/min/mg, 6.35&micro / mol/min/mg , Km / 0.29mM, 0.28mM ,respectively and as GSH Vmax / 6.42&micro / mol/min/mg, 6.65&micro / mol/min/mg, Km / 0.22mM, 0.23mM, respectively. Cytosolic GST activity of each individual from Adana, Antalya and susceptible populations were determined under optimized conditions. The mean of GST activity in Adana population (n=50) and Antalya population (n=50) were found 7.824&micro / mol/min/mg and 9.518&micro / mol/min/mg, respectively. The mean of GST activity in susceptible population (n=50) was determined as 3.272&micro / mol/min/mg. According to these results, GST activities of Adana and Antalya field populations&rsquo / showed statistically significant increase (p&lt / 0.05) than susceptible H. armigera populations with ANOVA method. In addition, Antalya population showed statistically increase (p&lt / 0.05) GST activity than Adana.

QD Biochemistry 415-436

Plants, pests and pollinators: Combining technologies to crack the odour code

Emily McCallum

Unknown Date

Terpenes are important specialised metabolites produced by all organisms. Plants produce the greatest diversity of terpenoid compounds, which function in a variety of crucial processes including regulation of growth and development, energy production and plant-insect communication, including pollinator attraction and prevention of herbivore damage. Isopentenyl diphosphate (IPP), the building block for all terpenoid compounds, is synthesised in plants via two unique terpene synthesis pathways located in the plastids and the cytosol, and the regulation of these pathways is still not well understood. The aim of this research was to (1) modify and study the regulation of floral volatile production in Nicotiana tabacum (tobacco) by altering the expression of various enzymes in the terpene biosynthesis pathway and (2) determine the role of specific volatile compounds in floral odour blends in feeding and oviposition behaviours of Helicoverpa armigera, a polyphagous moth of widespread agricultural importance. Expression levels of several enzymes in the terpene biosynthetic pathway were altered by genetic modification in order to modify terpene volatile emissions produced by flowers of N. tabacum. Genes chosen for overexpression were cloned from several species and RNAi hairpins were constructed from gene fragments amplified from tobacco flower cDNA. Transgenic plants were produced by Agrobacterium-mediated transformation, and lines with high levels of transgene expression selected for analysis. The flower-specific Antirrhinum majus chalcone synthase promoter was chosen to control gene expression in transgenic lines in order to avoid the potentially deleterious effects of widespread disruption to terpene biosynthesis. Floral volatiles were sampled using two methods; solid phase microextraction, a highly sensitive technique able to detect even trace levels of volatile compounds in headspace samples, and Tenax sampling, a robust and replicable method to quantify volatile emissions. All floral headspace samples were analysed by gas chromatography-mass spectrometry. Floral volatile analysis determined that wild type Ti68 tobacco flowers emit a simple blend of floral volatiles, with only linalool, a monoterpene, and β-caryophyllene, a sesquiterpene, detected by both sampling methods. Volatile emissions were not subject to temporal regulation, but changes in the floral odour blend were detected during flower development. Overexpression of the plastidic terpene biosynthesis genes 1-deoxy-D-xylulose-5-phosphate reductoisomerase (DXR) and geranyl diphosphate synthase did not affect volatile production, however increased farnesyl diphosphate synthase expression in the cytosol surprisingly caused an increase in linalool emissions, synthesised in the plastids. Downregulation of DXR resulted in an albino phenotype affecting all young leaves, the upper stem and the sepals in the most severely affected lines. A significant three-fold decrease in floral linalool emissions, and a nine-fold reduction of both linalool and β-caryophyllene retained within floral tissues was observed in the transgenic lines. In feeding behaviour tests, male and virgin female H. armigera moths did not discriminate between wild type and DXR knockdown flowers at close-range, despite the significant difference in linalool emissions. Expression of an (E)-β-ocimene synthase gene controlled by the CHS promoter did not result in any transgenic plants emitting the novel monoterpene, (E)-β-ocimene. Significant problems with seed germination suggested that (E)-β-ocimene may cause embryo lethality in these lines. However, overexpression of a heterologous (S)-linalool synthase under control of the constitutive cauliflower mosaic virus 35S promoter resulted in a significant two-fold increase in volatile linalool, and β-glycosidase assays confirmed sequestration of a glycosylated linalool derivative in floral tissues. Oviposition preference tests with mated female H. armigera moths indicated a significant preference for egg-laying on wild type flowers compared to flowers with increased linalool production. The results of this research, and previous studies of volatile production in transgenic tobacco, indicate that IPP precursor exchange occurs predominantly in one direction from the cytosol to the plastids, at least under the stress caused by alterations in pathway flux. Regulation of the cytosolic terpene biosynthetic pathway upstream of IPP synthesis appears to be less strictly controlled than the plastidic pathway. Insect behavioural assays support the findings of recent studies in other moth species, and suggest that close-range feeding attraction of H. armigera may be more strongly influenced by visual cues, whereas odour cues, including contact chemoreception, play a more important role in oviposition preferences. The increase in knowledge of the olfactory contribution toward insect-plant communication demonstrated here, and from future work, will lead to improved management of pest species in agricultural and ecological settings.

Nicotiana tabacum

tobacco

transgenic

terpenes

floral volatiles

linalool

insect-plant communication

Helicoverpa armigera

pollination

oviposition

Movimentação larval de lepidópteros-praga em soja e milho / Larval movement of lepdopteran pests in soybean and corn

Holzhausen, Hurian Gallinari

31 October 2017

Submitted by Hurian Gallinari Holzhausen null (huriangh@gmail.com) on 2018-01-15T11:49:02Z No. of bitstreams: 1 HGH MS Thesis (versão final com certificado de aprovação e ficha catalográfica).pdf: 1510898 bytes, checksum: a45b72beb1fe2ac3364dcbb483cdfc89 (MD5) / Approved for entry into archive by Alexandra Maria Donadon Lusser Segali null (alexmar@fcav.unesp.br) on 2018-01-17T12:47:39Z (GMT) No. of bitstreams: 1 holzhausen_hg_me_jabo.pdf: 1510898 bytes, checksum: a45b72beb1fe2ac3364dcbb483cdfc89 (MD5) / Made available in DSpace on 2018-01-17T12:47:39Z (GMT). No. of bitstreams: 1 holzhausen_hg_me_jabo.pdf: 1510898 bytes, checksum: a45b72beb1fe2ac3364dcbb483cdfc89 (MD5) Previous issue date: 2017-10-31 / Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq) / RESUMO - Chrysodeixis includens (Walker) e Helicoverpa armigera (Hübner) (Lepidoptera: Noctuidae) são consideradas pragas de grande importância na cultura da soja, enquanto Diatraea saccharalis (Fabricius) (Lepidoptera: Crambidae) é considerada importante na cultura do milho no Brasil Central. Para o controle bem-sucedido dessas pragas usando plantas Bt, bem como o desenvolvimento de estratégias do manejo de resistência, é essencial conhecer a movimentação do estágio larval desses insetos. O estudo foi conduzido dentro de gaiolas teladas (3,00 x 3,00 x 1,80 m), a fim de evitar infestações naturais. As lagartas foram liberadas em uma planta localizada no centro das gaiolas. As lagartas e as injurias foram observadas a fim de registrar a posição na planta e a localização na gaiola. Lagartas de C. includens e H. armigera apresentaram movimentação entre as plantas de soja, enquanto lagartas de D. saccharalis praticamente se mantiveram nas plantas onde houve a liberação. Com isso, a adoção de mistura de sementes não Bt e Bt para o estabelecimento de refúgio em cultivos Bt pode ser adequado apenas para D. saccharalis. / ABSTRACT - Chrysodeixis includens (Walker) and Helicoverpa armigera (Hübner) (Lepidoptera: Noctuidae) are considered pests of great importance in soybean crop, while Diatraea saccharalis (Fabricius) (Lepidoptera: Crambidae) is considered important in maize crop in the Brazilian Central region. For the successful control of these pests using Bt plants as well as development of resistance management strategies, it is essential to know the larval stage movement of these insects. The study was carried out inside saran cages (3.00 x 3.00 x 1.80 m), in order to avoid natural infestation. Larvae were released in a plant located in the center of the cages. Larvae and injuries were observed in order to register the position in the plant and the location in the cage. Larvae of C. includens e H. armigera moved between soybean plants, whereas D. saccharalis practically remained in the plants where they were released. Thus, the adoption of non-Bt and genetically modified seed mixture for refuge establishment in Bt crops may be suitable only for D. saccharalis. / 134533/2015-1

Dispersão

Refúgio

Mobilidade

Chrysodeixis includens

Helicoverpa armigera

Diatraea saccharalis

Dispersal

Refuge

Mobility

Efeito subletal do Dipel em Helicoverpa armigera (|Hübner) (Lepidoptera: Noctuidae) / Subletal effect of Dipel in Helicoverpa armigera (Hübner) (Lepidoptera: Noctuidae)

Costa Junior, Helvio Campoy

30 November 2017

Submitted by HELVIO CAMPOY COSTA JUNIOR null (helviocampoy@hotmail.com) on 2018-01-24T20:17:31Z No. of bitstreams: 1 Dissertação_Helvio_Campoy_Costa_Junior.pdf: 901555 bytes, checksum: c6e5d61c52e8062ad3355807212bd08a (MD5) / Approved for entry into archive by Karina Gimenes Fernandes null (karinagi@fcav.unesp.br) on 2018-01-26T10:44:07Z (GMT) No. of bitstreams: 1 costajunior_hc_me_jabo.pdf: 901532 bytes, checksum: 2d8a2d766da611d354e51bed9eacd12d (MD5) / Made available in DSpace on 2018-01-26T10:44:07Z (GMT). No. of bitstreams: 1 costajunior_hc_me_jabo.pdf: 901532 bytes, checksum: 2d8a2d766da611d354e51bed9eacd12d (MD5) Previous issue date: 2017-11-30 / O objetivo desta pesquisa foi avaliar o efeito subletal causado pelo bioinseticida Dipel em lagartas de Helicoverpa armigera (Hübner) (Lepidoptera: Noctuidae). Bacillus thuringiensis (Bt) é um entomopatógeno amplamente utilizado no controle de pragas, porém pouco se sabe sobre seus efeitos em concentrações subletais, que podem ocorrer em campo devido à diferença na distribuição da calda de aplicação ao longo do dossel das culturas ou diferenças na concentração da expressão de toxinas Bt em tecidos de plantas geneticamente modificada. Neste estudo foi utilizado o bioinseticida Dipel na formulação SC, nas concentrações de 3,67 x 106; 6,85 x 106; 6,85 x 107; 1,37 x 108 e 6,85 X 108 esporos.mL-1, além do tratamento controle, no qual recebeu aplicação de apenas água deionizada para instalação do bioensaio para estimativa das concentrações subletais. Para cada concentração foram utilizadas dezesseis lagartas e três repeticões. A análise de Probit, foi utilizada para estimar as concentrações letais; CL10, CL15, CL20 e CL25, que são consideradas concentrações subletais por apresentarem mortalidade abaixo de 25%. Posteriormente, foi instalado outro bioensaio para avaliar alguns parâmetros biológicos, tais como: período de duração da fase larval, peso de indivíduos na fase larval, peso de indivíduos na fase de pupa e razão sexual. Em todas as concentrações foi observado um aumento significativo no período larval, com destaque para CL25 que apresentou o maior período, chegando a mais de 36 dias. Também foram observadas diferenças significativas no peso de lagartas, peso de pupas. Apenas a concentração CL10 não apresentou diferença significativa em relação ao tratamento controle no parâmetro peso de pupas. Concentrações subletais de Bt são capazes de interferir no desenvolvimento de indivíduos de H. armigera, podendo contribuir para reduzir os prejuízos causados por essa praga. / The objective of this research was to evaluate the sublethal effect caused by Dipel bioinsecticide on Helicoverpa armigera (Hübner) (Lepidoptera: Noctuidae) caterpillars. Bacillus thuringiensis (Bt) is an entomopathogen widely used in pest control, but little is known about its effects on sublethal concentrations, which may occur in the field due to the difference in distribution of the application along the canopy of the crops or differences in concentration expression of Bt toxins in genetically modified plant tissues. In this study, the Dipel bioinsecticide was used in the SC formulation, at concentrations of 3.67 x 106; 6.85 x 106; 6.85 x 107; 1.37 x 108 and 6.85 X 108 spores.mL-1, in addition to the control treatment, in which it received application of only deionized water to install the bioassay to estimate the sublethal concentrations. Sixteen caterpillars and three replicates were used for each concentration. Probit analysis was used to estimate lethal concentrations; LC10, LC15, LC20 and LC25, which are considered sublethal concentrations because they present a mortality below 25%. Later, another bioassay was installed to evaluate some biological parameters, such as: duration period of the larval phase, weight of individuals in the larval stage, weight of individuals in the pupal phase and sexual ratio. All the concentrations showed a significant increase in the larval period, with highlight to LC25 that presented the longest period, reaching more than 36 days. There were also significant differences in the weight of caterpillars and pupal weight. Only LC10 concentration showed no significant difference in relation to the control treatment in the pupae weight parameter. Sublethal Bt concentrations are capable of interfering in the development of H. armigera individuals, and may contribute to reduce the damage caused by this pest.

Bacillus thuringiensis

Controle biológico

Efeito subletal

Helicoverpa armigera

Biological control

Subletal effect