Genetic diversity, phylogenetic and phylogeographic analyses of Oncideres impluviata (Germar, 1823) (Coleoptera: Cerambycidae) in Rio Grande do Sul state, Brazil

ABSTRACT The Cerambycidae Oncideres impluviata (Germar, 1823) is an important insect pest for Acacia mearnsii De Wild in Southern Brazil. The damage caused by their girdling behavior reduces tree productivity, specially in the early years of plant establishment, when girdling is performed on the main trunk of trees. Here, we used a fragment of the mtDNA COI gene to analyze the genetic diversity, population structure and demography of O. impluviata in Southern Brazil, as well as to present the first hypothesis of phylogenetic relationships among species of the genus Oncideres. Our results identified five distinct haplotypes among the populations of O. impluviata, with the most common haplotype identified as O.imp_COI_01. The phylogenetic inferences corroborated the monophyly of O. impluviata with maximum statistical support. In addition, the phylogeny recovered three main population strains that are largely congruent with the haplotype network, which includes two lineages that are found in different edaphic regions of Rio Grande do Sul (Serra do Sudeste and Encosta Inferior do Nordeste). This is the first molecular phylogenetic assessment of O. impluviata. Our findings provide insights into the evolution of a significant species for the Brazilian forestry sector, as well as new resources for planning of pest management strategies.

High Genetic Diversity and Gene Flow Detected in Populations of Bombus morio from South Brazil.

Bumblebees are essential insects for the preservation of biodiversity in many ecosystems, as they can pollinate a wide variety of wild and cultivated plants. Knowledge of the genetic diversity of bumblebees can be used to understand and predict the health status of bee populations, enabling the development of strategies for crop management and conservation of this important group of pollinators. Here, we characterized the genetic diversity of B. morio populations from the Rio Grande do Sul state, Brazil, by amplification of the partial mitochondrial cytochrome oxidase I gene. The resulting data were then compared with genetic parameters of Bombus morio (Swederus 1787) obtained in populations from this species' full geographic range in South America. Our results revealed the presence of nine mitochondrial haplotypes in Rio Grande do Sul, three of which were novel haplotypes, and of significant genetic divergence among bumblebee populations from Brazil and South America. The mitochondrial haplotype BM01 was the most common and is probably the ancestral haplotype from which the others originated. There is also evidence that strong gene flow has taken place among Brazilian B. morio populations, explaining the sharing of haplotypes between distant populations. The populations of B. morio from Rio Grande do Sul present significant genetic diversity as the species is native to Southern/Southeastern Brazil and adapted to the ecological conditions in this wide range. Having well-connected populations with a large genetic potential will help this species to remain well adapted to the different environmental conditions within its native range.

Corn Stunt Pathosystem and Its Leafhopper Vector in Brazil.

Direct and indirect injury caused by Dalbulus maidis (Hemiptera: Cicadellidae) in corn is an ever-increasing concern in Brazil and other corn-producing countries of the Americas. This highly efficient vector transmits corn stunting pathogens and is of economic concern in the Neotropics, including temperate regions where epidemic outbreaks are now common. Despite the progress made so far, Brazilian corn growers continue to struggle with this pest and its associated pathosystem. In this review, we gathered relevant and updated information on the bioecology, population dynamics, and damaging potential of D. maidis. Our goal was to better understand its intimate association and complex interactions with the host crop and transmitted pathogens. Based on available scientific literature, we identified factors which explain the recent increase in D. maidis occurrence in South America, including the cultivation of corn during multiple growing seasons, overlapping of susceptible crops, and widespread use of genetically modified hybrids. The reasons for the overall inefficiency of current suppression strategies aimed at this pest are also summarized. Finally, a management program for D. maidis and corn stunt disease is proposed, combining strategies such as eradicating volunteer corn, reducing the planting period, using tolerant hybrids, and applying chemical and/or fungal insecticides. Prospects regarding the pest's status are also outlined. Overall, the information presented here will serve as a decision-making guide within Brazilian and South American corn production systems, as well as paving the way for devising novel strategies aimed at suppressing D. maidis populations and limiting the spread of corn stunt disease.

Integrative Techniques Confirms the Presence of Bemisia tabaci Parasitoids: Encarsia formosa, Encarsia porteri and Eretmocerus mundus (Hymenoptera: Aphelinidae) on Soybean and Tomatoes in South Brazil.

Parasitoid wasps from the Aphelinidae family (Hymenoptera) are important control agents of Bemisia tabaci (Gennadius, 1889) cryptic species, both through reproduction and feeding processes. Identifying native parasitoid species within agricultural systems affected by Bemisia whitefly species is the first step to developing guidelines for the creation and release of biological control agents aiming at this highly damaging pest species complex. Taxonomic and phylogenetic analyses based on morphological and molecular characters, respectively, confirmed the occurrence of Encarsia formosa (Gahan, 1924) in greenhouse tomatoes from Santa Maria, Encarsia porteri (Mercet, 1928) in open-field soybean from Santa Maria, and Eretmocerus mundus Mercet, 1931 in greenhouse tomatoes from São José do Hortêncio, all within Rio Grande do Sul state (South Brazil). This is the first report of En. formosa, En. porteri and Er. mundus parasitising B. tabaci in South Brazil, and the first En. porteri partial mtCOI gene sequence being reported and characterised. The high temperature inside the tomato greenhouses can be a possible cause for the predominance of Er. mundus in São José do Hortêncio, and sex ratios in the surveyed populations point to female and male prevalence within Encarsia and Eretmocerus genera, respectively. The combined use of taxonomic and molecular characterisation highlights the importance of combining both morphological and molecular approaches in the assessment of previously unidentified whitefly parasitoids.

Arthropod Invasions Versus Soybean Production in Brazil: A Review.

Soybean production in Brazil has been markedly affected by invasions of non-native arthropod species that feed on the crop, severely impacting biodiversity, food security, health, and economic development. Data on soybean production losses and increase in insecticide usage over the last two decades have not been explored in association with past invasion events, and the dynamics underlying the recent blitz of invasive species into Brazil remain largely unclear. We provide a review of arthropod invasions in the Brazilian soybean agroecosystem since 1990, indicating that the introductions of Bemisia tabaci (Gennadius) MEAM1 (Hemiptera: Aleyrodidae), Tetranychus urticae (Koch) (Acari: Tetranychidae), and Helicoverpa armigera (Hübner) (Lepidoptera: Noctuidae) are likely correlated with periods of increase in insecticide usage for soybean production. Using these three cases as examples, we review factors that could lead to increased likelihood of future invasions by particular pests, outlining four possible criteria to evaluate potential invasiveness of non-native arthropods: likelihood of entry, likelihood of establishment, biological features of the species, and availability of control measures. Spodoptera litura (F.) (Lepidoptera: Noctuidae) and Aphis glycines (Matsumura) (Hemiptera: Sternorrhynca) are examples of highly damaging soybean pests, related to one or more of these factors, that could be introduced into Brazil over the next years and which could lead to problematic scenarios. Melanagromyza sojae (Zehnter) (Diptera: Agromyzidae) also meets these criteria and has successfully invaded and colonized Brazilian soybean fields in recent years. Our review identifies current issues within soybean pest management in Brazil and highlights the need to adopt management measures to offset future costs and minimize lost revenue.

Multiple incursion pathways for Helicoverpa armigera in Brazil show its genetic diversity spreading in a connected world.

The Old World cotton bollworm Helicoverpa armigera was first detected in Brazil with subsequent reports from Paraguay, Argentina, Bolivia, and Uruguay. This pattern suggests that the H. armigera spread across the South American continent following incursions into northern/central Brazil, however, this hypothesis has not been tested. Here we compare northern and central Brazilian H. armigera mtDNA COI haplotypes with those from southern Brazil, Uruguay, Argentina, and Paraguay. We infer spatial genetic and gene flow patterns of this dispersive pest in the agricultural landscape of South America. We show that the spatial distribution of H. armigera mtDNA haplotypes and its inferred gene flow patterns in the southwestern region of South America exhibited signatures inconsistent with a single incursion hypothesis. Simulations on spatial distribution patterns show that the detection of rare and/or the absence of dominant mtDNA haplotypes in southern H. armigera populations are inconsistent with genetic signatures observed in northern and central Brazil. Incursions of H. armigera into the New World are therefore likely to have involved independent events in northern/central Brazil, and southern Brazil/Uruguay-Argentina-Paraguay. This study demonstrates the significant biosecurity challenges facing the South American continent, and highlights alternate pathways for introductions of alien species into the New World.

Complete mitochondrial genome of the soybean stem fly Melanagromyza sojae (Diptera: Agromyzidae).

We report the complete mitochondrial DNA genome of the soybean stem fly (SSF) Melanagromyza sojae from Brazil Santa Catarina state based on Illumina MiSeq sequence data. The estimated mitogenome is 15 475 base pairs (bp) (KT597923), with 13 protein-coding genes (PCGs), two ribosomal RNA (rRNA) genes, and 22 tRNAs, and an estimated 579 bp AT-rich control region. Similar to other insects, the SSF mitogenome is A-T bias with 40.9% A, 36.7% T, 13.6% C, and 8.8% G. Molecular characterization of SSF mitogenome will facilitate the development of effective molecular markers, and robust and rapid identification of suspected biosecurity incursions and field infestations of this insect pest.

Density and growth rates of spider mites in relation to phenological stages of soybean cultivars in Brazil.

The population fluctuations of spider mites on different soybean cultivars were studied in two experiments performed in the municipalities of São Sepé (experiment 1) and Santa Maria (experiment 2) in the state of Rio Grande do Sul, Brazil. The number of cultivars was 20 in São Sepé and 25 in Santa Maria, and at each location leaves were sampled from 15 plants per cultivar every week throughout the entire plant developmental cycle, amounting to 11 and 10 samplings in experiment 1 and 2, respectively. The statistical analysis revealed that mite densities varied significantly with cultivar and time. Besides, the interaction between soybean cultivars and sampling times was significant at both locations. This indicates that the populations did not vary in the same way among cultivars over time, which is attributed to differences among the cultivars with respect to their phenology and response to spider mites. Equations for describing the mite population dynamics were estimated for each cultivar, mostly by fitting cubic equations to the weekly growth rates (per capita changes) in mite densities. We also found that the highest growth rates for mites on soybean cultivars in both locations occurred after the beginning of flowering, when the plants shifted from the vegetative to reproductive stages, about 3 weeks before reaching the peak densities.

Precipitação artificial após aplicação do inseticida clorantraniliprole associado com adjuvante em plantas de soja / Artificial precipitation after spray of clorantraniliprole insecticide associated with adjuvant application in soybean plants

O controle de insetos-praga com inseticidas é um recurso importante para manutenção das altas produtividades na cultura da soja. Porém, pouco se conhece sobre o desempenho de novos inseticidas, tais como, clorantraniliprole em condições adversas, como é o caso das precipitações pluviométricas após a pulverização agrícola. A ação dos adjuvantes associados aos inseticidas é outro fator relacionado à melhora da sua eficiência. O objetivo deste estudo foi avaliar a influência de quatro períodos de precipitação artificial após a pulverização do inseticida clorantraniliprole (2g de ingrediente ativo ha-1), misturado com diferentes adjuvantes, visando ao o controle de lagartas na cultura da soja. O experimento foi executado com o uso de duas cultivares (blocos) e seis vasos (2 plantas/vaso) por tratamento fatorial (5x5). O fator adjuvante foi constituído por uma testemunha (sem adjuvante) e quatro adjuvantes (Assist(r) - 0,5% do volume de calda, Naturo'il(r) - 0,5%, Nitro LL(r) - 6,6% (10L ha-1) e Silwet L-77(r) - 0,1%). O fator precipitação artificial (20mm) foi composto por uma testemunha (sem precipitação) e quatro tempos (1, 120, 240 e 360 minutos) após a pulverização de clorantraniliprole com adjuvantes. Os resultados sugerem que a precipitação de 20 mm, um minuto após a aplicação de clorantraniliprole, reduz a mortalidade de Anticarsia gemmatalis, e que as precipitações após 240 minutos da aplicação de clorantraniliprole não interferem na mortalidade de A. gemmatalis em soja. Os adjuvantes Assist(r) e Naturo'il(r) associados ao inseticida clorantraniliprole aumentam a mortalidade de A. gemmatalis na cultura da soja.

The insecticide use on insect pest control is an important tool to keep high yields on soybeans. However, little is known about the behavior of the insecticide in adverse conditions, such as spraying followed by precipitation. The use of adjuvants associated with insecticides is another factor that can be related to improvement of its efficiency. This study aimed to evaluate the effects of the influence of four precipitation periods after the pulverization of the insecticide clorantraniliprole (2g of the active ingredient ha-1). A mixed of different adjuvants on the control of caterpillars on soybeans were evaluated. The assay was performed using two cultivars in six pots (2 plants/pots) for a factor scheme of 5x5. The factor adjuvants consisted of one untreated (without adjuvants) and four adjuvants (Assist(r) - 0,5%, Naturo'il(r) - 0,5%, Nitro LL(r) - L ha-1 and Silwet L-77(r) - 0,1% ). The factor artificial precipitation (20mm) consisted of one untreated (without precipitation) and four precipitation intervals (1, 120, 240 and 360 minutes) after the application of clorantraniliprole with adjuvants. The results showed that the precipitation of 20mm, 1 minute after the clorantraniliprole pulverization, reduces the Anticarsia gemmatalis mortality, and that the precipitation 240 min after the pulverization does not interfere in the mortality of A. gemmatalis on soybeans. The adjuvants Assist(r) and Naturo'il(r) associated to the insecticide clorantraniliprole increases the A. gemmatalis mortality on soybeans.