Dinâmica populacional, distribuição espacial e plano de amostragem sequencial de Euschistus heros (Fabricius, 1794) (Heteroptera: Pentatomidae) em cultivares de soja
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Data
2016-02-01
Autores
Souza, Leandro Aparecido de [UNESP]
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Universidade Estadual Paulista (Unesp)
Resumo
O percevejo-marrom-da-soja Euschistus heros, destaca-se como uma das principais pragas da cultura, sendo fundamental realizar amostragens periódicas para aferir a densidade populacional e auxiliar na tomada de decisão de controle. O objetivo do presente trabalho foi estudar a dinâmica populacional e a distribuição espacial de E. heros em cultivares de soja transgênica de diferentes ciclos de desenvolvimento, visando o desenvolvimento de um plano de amostragem sequencial. Os experimentos foram conduzidos nos anos agrícolas 2013/14 e 2014/15 na FCAV/UNESP, Jaboticabal, SP. Foram selecionados quatro campos, e em cada um foi demarcada uma área de 8.000 m2 (0,8 ha), sendo cada área subdividida em 80 parcelas de 100 m2 (10 m x 10 m). As cultivares de soja transgênica de diferentes ciclos de desenvolvimento utilizadas foram: SYN 1365 RR (precoce), M 7908 RR (média); BRS Valiosa RR (tardia), e a cultivar AS 3730 RR2 PRO (precoce), transgênica resistente a lagartas. As amostragens foram realizadas semanalmente pelo método da batida de pano, em 2 m de linha de plantas, registrando-se o número de ninfas, adultos e percevejos maiores que 0,5 cm. Foram confeccionadas figuras para demonstrar a dinâmica populacional entre os dados médios de infestação do inseto-praga e o estágio fenológico da cultura, sendo a influência dos fatores meteorológicos analisada por meio da análise de regressão múltipla com seleção de variáveis pelo método “stepwise”. Para o estudo da dispersão de E. heros foram utilizados os seguintes índices: razão variância/média, índice de Morisita, coeficiente de Green e o expoente k da distribuição binomial negativa. Para os estudos dos modelos de distribuição espacial de E. heros foram testados os ajustes das distribuições de Poisson e distribuição binomial negativa. O plano de amostragem sequencial foi elaborado para os dados de percevejos maiores que 0,5 cm com base no Teste Sequencial da Razão da Máxima Verossimilhança, e foi utilizado o nível de controle de 4,0 e 2,0 percevejos maiores que 0,5 cm/pano de batida para campos de produção de grãos e sementes, respectivamente. De acordo com os resultados da dinâmica populacional, as maiores densidades populacionais de E. heros foram observadas no estádio fenológico R6 da soja, e a temperatura máxima é o fator meteorológico que mais influenciou na variação da densidade populacional de E. heros. A distribuição espacial de ninfas, adultos e percevejos maiores que 0,5 cm foi agregada para todas as cultivares em estudo, com melhor ajuste à distribuição binomial negativa. No plano de amostragem sequencial, o número máximo de unidades amostrais esperado, para tomada de decisão de controle, encontra-se em torno de seis e dez para campos de produção de grãos e sementes, respectivamente.
The neotropical stink bug Euschistus heros is one of the most important species of pests in soybean culture, so it is essential to realize periodic samples to measure the population density and help in the decision making control. The objective of this work was to study the population dynamics and spatial distribution of E. heros in transgenic soybean cultivars of different maturing cycles that helps the development of a sequential sampling plan. The experiments were carried out in seasons 2013/14 and 2014/15 in FCAV / UNESP, Jaboticabal, SP. Four fields were selected, and in each one was marked an area of 8.000 m2 (0.8 ha) divided into 80 splits of 100 m2 (10 m x 10 m). The transgenic soybean cultivars of different maturing cycles were: SYN 1365 RR (early), M 7908 RR (middle), BRS Valiosa RR (late), and the cultivar AS 3730 RR2 Pro (early), transgenic resistant to larvae. Samples were taken weekly using the ground-shake method, in 2 m line of plants, where were recorded the number of nymphs, adults and nymphs of higher than 0.5 cm E. heros. The figures were plot to demonstrate the population dynamics between the mean data of insect pest infestation and the phenological stage of culture, and the influence of meteorological factors analyzed using multiple regression analysis with selection of variables using the stepwise method. To evaluate insect dispersion in the area, the following indexes were used: variance/mean ratio, Morisita’s index, Green’s coefficient, and the k exponent of negative binomial distribution. For studies of spatial distribution models of E. heros, adjustments of Poisson distribution and negative binomial distribution were tested. The sequential sampling plan was developed for E. heros higher than 0.5 cm based on the ratio of the Sequential Test Maximum Likelihood, and it was used the threshold levels of 4.0 and 2.0 E. heros higher than 0.5 cm for grain and seed production fields, respectively. According to the results of population dynamics, the highest population densities of E. heros were observed in the R6 growth stage of soybeans, and the maximum temperature is the weather factor that influenced the variation in population densities of E. heros. The spatial distribution of nymphs, adults, and nymphs higher than 0.5 cm was aggregated for all the cultivars in study, with best adjustment to the negative binomial distribution. In the sequential sampling plan, the maximum number of expected sampling units to control is around six and ten to grain and seed production fields, respectively.
The neotropical stink bug Euschistus heros is one of the most important species of pests in soybean culture, so it is essential to realize periodic samples to measure the population density and help in the decision making control. The objective of this work was to study the population dynamics and spatial distribution of E. heros in transgenic soybean cultivars of different maturing cycles that helps the development of a sequential sampling plan. The experiments were carried out in seasons 2013/14 and 2014/15 in FCAV / UNESP, Jaboticabal, SP. Four fields were selected, and in each one was marked an area of 8.000 m2 (0.8 ha) divided into 80 splits of 100 m2 (10 m x 10 m). The transgenic soybean cultivars of different maturing cycles were: SYN 1365 RR (early), M 7908 RR (middle), BRS Valiosa RR (late), and the cultivar AS 3730 RR2 Pro (early), transgenic resistant to larvae. Samples were taken weekly using the ground-shake method, in 2 m line of plants, where were recorded the number of nymphs, adults and nymphs of higher than 0.5 cm E. heros. The figures were plot to demonstrate the population dynamics between the mean data of insect pest infestation and the phenological stage of culture, and the influence of meteorological factors analyzed using multiple regression analysis with selection of variables using the stepwise method. To evaluate insect dispersion in the area, the following indexes were used: variance/mean ratio, Morisita’s index, Green’s coefficient, and the k exponent of negative binomial distribution. For studies of spatial distribution models of E. heros, adjustments of Poisson distribution and negative binomial distribution were tested. The sequential sampling plan was developed for E. heros higher than 0.5 cm based on the ratio of the Sequential Test Maximum Likelihood, and it was used the threshold levels of 4.0 and 2.0 E. heros higher than 0.5 cm for grain and seed production fields, respectively. According to the results of population dynamics, the highest population densities of E. heros were observed in the R6 growth stage of soybeans, and the maximum temperature is the weather factor that influenced the variation in population densities of E. heros. The spatial distribution of nymphs, adults, and nymphs higher than 0.5 cm was aggregated for all the cultivars in study, with best adjustment to the negative binomial distribution. In the sequential sampling plan, the maximum number of expected sampling units to control is around six and ten to grain and seed production fields, respectively.
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Palavras-chave
Comportamento, Dispersão, Distribuição binomial negativa, Glycine max (L.), Percevejo-marrom-da-soja, Behavior, Dispersion, Negative binomial distribution, Glycine max (L.), Neotropical brown stink bug