J. L. Vieira scite author profile

J. L. Vieira

5Publications

60Citation Statements Received

80Citation Statements Given

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169

Affiliations

Universidade Federal de Viçosa, Ghent University, Universidade do Vale do Itajaí

Publications

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Azadirachtin-Induced Hormesis Mediating Shift in Fecundity-Longevity Trade-Off in the Mexican Bean Weevil (Chrysomelidae: Bruchinae)

et al. 2014

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Insecticides can have lethal or sublethal effects upon targeted pest species, and sublethal effects may even favor pest outbreaks if insecticide-induced hormesis occurs. Hormesis is a biphasic dose-response of a given chemical compound that is stimulatory at low doses and toxic at high doses. The former response may result from the disruption of animal homeostasis leading to trade-off shifts between basic ecophysiological processes. A growing interest in the use of biorational insecticides, such as azadirachtin to control stored-product pests, raises concerns about potential sublethal effects. In this study, we explored the hypothesis that azadirachtin can negatively impact the reproductive capacity of the Mexican bean weevil, Zabrotes subfasciatus (Boheman) (Chrysomelidae: Bruchinae), a key pest of stored beans. In addition, we investigated whether adults of this species could compensate for any sublethal effect that might have affected any of their reproductive parameters by adjusting the allocation of its reproductive efforts. The results showed that females of Z. subfasciatus increased fecundity daily to compensate for azadirachtin-induced decreased longevity. In addition, a stage-structured matrix study revealed that populations of Z. subfasciatus engendered from females exposed to azadirachtin exhibited a higher rate of population increase (r) and a higher net reproductive rate (R(o)). Finally, a projection matrix analysis showed notably higher densities along the generations for azadirachtin-exposed Z. subfasciatus populations. Thus, our study provides empirical evidence for the capacity of Z. subfasciatus to adapt to sublethal effects caused by biorational insecticides; consequently, this study highlights the importance of understanding this phenomenon when devising pest management strategies.

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Bean Type Modifies Larval Competition inZabrotes subfasciatus(Chrysomelidae: Bruchinae)

et al. 2015

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Larval competition is particularly prevalent among grain beetles that remain within their mother-selected grain throughout development, and the behavioral process of competition is usually inferred by the competition outcome. The Mexican bean weevil Zabrotes subfasciatus (Boheman) is subjected to resource availability variation because of the diversity of common bean types and sizes, from small (e.g., kidney beans) to large (e.g., cranberry beans). The competition process was identified in the Mexican bean weevil reared on kidney and cranberry beans by inference from the competition outcome and by direct observation through digital X-ray imaging. Increased larval density negatively affected adult emergence in kidney beans and reduced adult body mass in both kidney and cranberry beans. Developmental time was faster in cranberry beans. The results allowed for increased larval fitness (i.e., higher larval biomass produced per grain), with larval density reaching a maximum plateau >5 hatched larvae per kidney bean, whereas in cranberry beans, larval fitness linearly increased with density to 13 hatched larvae per bean. These results, together with X-ray imaging without evidence of direct aggressive interaction among larvae, indicate scramble competition, with multiple larvae emerging per grain. However, higher reproductive output was detected for adults from lower density competition with better performance on cranberry beans. Larger populations and fitter adults are expected in intermediate larval densities primarily in cranberry beans where grain losses should be greater.

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Desempenho de populações híbridas F2 de arroz-vermelho (Oryza sativa) com arroz transgênico (O. sativa) resistente ao herbicida amonio-glufosinate

et al. 2004

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RESUMO -O arroz-vermelho e o arroz-preto constituem-se nas principais plantas daninhas infestantes da cultura de arroz irrigado, devido à dificuldade de controle seletivo desta espécie em lavouras comerciais. A utilização de cultivares geneticamente modificados resistentes a herbicidas não-seletivos constitui uma alternativa de controle do arrozvermelho e arroz-preto em arroz irrigado. O objetivo deste trabalho foi avaliar o comportamento de populações híbridas F 2 originárias do cruzamento entre o arroz transgênico resistente ao herbicida glufosinato de amônio (arroz GM) e o arroz-vermelho ou arrozpreto. As populações híbridas F 2 resultantes do cruzamento entre o arroz transgênico e o arroz-vermelho e preto são viáveis, mas não apresentam vantagem competitiva aparente em comparação com o arroz-vermelho e arroz-preto não-hibridizado, respectivamente. Nas populações híbridas F 2 , as características morfológicas, como capacidade de perfilhamento, número de folhas produzidas e estatura média das plantas, foram em parte reduzidas e em parte não foram afetadas pela introgressão do gene BAR. A duração média do período entre o transplante e 50% da fase de floração aumentou nos híbridos F 2 entre arroz-vermelho e arroz GM, comparado com os parentais arroz-vermelho e arroz GM. Nos híbridos com arrozpreto, observou-se o contrário: as plantas reduziram o ciclo médio em relação a este. O degrane natural médio observado nos quatro cruzamentos foi inferior ao apresentado pelos dois parentais (arroz-vermelho e arroz-preto) -aspecto este também desfavorável à persistência do arroz-vermelho no ambiente. A esterilidade média de espiguetas aumentou e a produção de sementes viáveis foi inferior ou no máximo similar àquela observada no arroz-vermelho e no arroz-preto. A dormência de sementes foi pouco afetada, quando comparadas as populações híbridas F 2 portadoras do gene BAR com os parentais arrozvermelho e arroz-preto. Mesmo assim, os usuários dessa tecnologia deverão adotar, obrigatoriamente, medidas que evitem a possibilidade de cruzamento entre o arroz transgênico e o arroz-vermelho ou arroz-preto. Palavras

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Pleiotropic Impact of Endosymbiont Load and Co-Occurrence in the Maize Weevil Sitophilus zeamais

et al. 2014

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Individual traits vary among and within populations, and the co-occurrence of different endosymbiont species within a host may take place under varying endosymbiont loads in each individual host. This makes the recognition of the potential impact of such endosymbiont associations in insect species difficult, particularly in insect pest species. The maize weevil, Sitophilus zeamais Motsch. (Coleoptera: Curculionidae), a key pest species of stored cereal grains, exhibits associations with two endosymbiotic bacteria: the obligatory endosymbiont SZPE (“Sitophilus zeamais Primary Endosymbiont”) and the facultative endosymbiont Wolbachia. The impact of the lack of SZPE in maize weevil physiology is the impairment of nutrient acquisition and energy metabolism, while Wolbachia is an important factor in reproductive incompatibility. However, the role of endosymbiont load and co-occurrence in insect behavior, grain consumption, body mass and subsequent reproductive factors has not yet been explored. Here we report on the impacts of co-occurrence and varying endosymbiont loads achieved via thermal treatment and antibiotic provision via ingested water in the maize weevil. SZPE exhibited strong effects on respiration rate, grain consumption and weevil body mass, with observed effects on weevil behavior, particularly flight activity, and potential consequences for the management of this pest species. Wolbachia directly favored weevil fertility and exhibited only mild indirect effects, usually enhancing the SZPE effect. SZPE suppression delayed weevil emergence, which reduced the insect population growth rate, and the thermal inactivation of both symbionts prevented insect reproduction. Such findings are likely important for strain divergences reported in the maize weevil and their control, aspects still deserving future attention.

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Area-wide survey of thiamethoxam resistance and control failure likelihood in the rice stink bugs Oebalus poecilus and O. ypsilongriseus

et al. 2021

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J. L. Vieira

Azadirachtin-Induced Hormesis Mediating Shift in Fecundity-Longevity Trade-Off in the Mexican Bean Weevil (Chrysomelidae: Bruchinae)

Bean Type Modifies Larval Competition inZabrotes subfasciatus(Chrysomelidae: Bruchinae)

Desempenho de populações híbridas F2 de arroz-vermelho (Oryza sativa) com arroz transgênico (O. sativa) resistente ao herbicida amonio-glufosinate

Pleiotropic Impact of Endosymbiont Load and Co-Occurrence in the Maize Weevil Sitophilus zeamais

Area-wide survey of thiamethoxam resistance and control failure likelihood in the rice stink bugs Oebalus poecilus and O. ypsilongriseus

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