Systematics and phylogeny of the entomopathogenic nematobacterial complexes Steinernema-Xenorhabdus and Heterorhabditis-Photorhabdus.

Entomopathogenic nematodes of the genera Steinernema and Heterorhabditis, along with their bacterial symbionts from the genera Xenorhabdus and Photorhabdus, respectively, are important biological control agents against agricultural pests. Rapid progress in the development of genomic tools has catalyzed a transformation of the systematics of these organisms, reshaping our understanding of their phylogenetic and cophlylogenetic relationships. In this review, we discuss the major historical events in the taxonomy and systematics of this group of organisms, highlighting the latest advancements in these fields. Additionally, we synthesize information on nematode-bacteria associations and assess the existing evidence regarding their cophylogenetic relationships.

Rhizosphere Microorganisms Supply Availability of Soil Nutrients and Induce Plant Defense.

Plant health is necessary for food security, which is a key determinant of secure and sustainable food production systems. Deficiency of soil nutrients and invasion of plant pathogens or insects are the main destroyers of the world's food production. Synthetic fertilizers and chemical-based pesticides are frequently employed to combat the problems. However, these have negative impacts on microbial ecosystems and ecosystem functioning. Rhizosphere microorganisms have demonstrated their potency to improve or manage plant nutrients to encourage plant growth, resulting in increased yield and quality by converting organic and inorganic substances around the rhizosphere zone into available plant nutrients. Besides regulating nutrient availability and plant growth enhancement, rhizobacteria or fungi can restrict plant pathogens that cause disease by secreting inhibitory chemicals and boosting plant immunity to combat pests or pathogens. Thus, rhizosphere microorganisms are viewed as viable, alluring economic approaches for sustainable agriculture as biofertilizers and biopesticides. This review provides an overview of the role of rhizosphere microorganisms in soil nutrients and inducing of plant defenses. Moreover, a discussion is presented surrounding the recent consequences of employing these microorganisms and a sustainable strategy towards improving fertilization effectiveness, and encouraging stronger, more pest-resistant plants.

Enhancing tomato disease resistance through endogenous antifungal proteins and introduced nematode-targeting dsRNA of biocontrol agent Bacillus velezensis HS-3.

BACKGROUND: As a type of biological control agent (BCA), Bacillus velezensis possesses the efficacy of inhibiting pathogenic microorganisms, promoting plant growth, and overcoming continuous cropping obstacles (CCOs). However, there is limited reporting on the optimization of the cultivation conditions for such biocontrol agents and their role as double-stranded RNA (dsRNA) delivery vectors. RESULTS: In this study, a Bacillus velezensis strain HS-3 was isolated from the root zone of tomato plants with in vitro anti-Botrytis cinerea activity. The investigation into active compounds revealed that HS-3 predominantly employs proteins with molecular weights greater than 3 kDa for its antifungal activity. Liquid chromatography-tandem mass spectrometry (LC-MS/MS) analysis identified various proteases and chitosanase, further suggesting that HS-3 most likely employs these enzymes to degrade fungal cell walls for its antifungal effect. To optimize the production of extracellular proteins, fermentation parameters for HS-3 were systematically optimized, leading to an optimized medium (OP-M). HS-3 cultured in OP-M demonstrated enhanced capacity to assist tomato plants in withstanding CCOs. However, the presence of excessive nematodes in diseased soil resulted in the disease severity index (DSI) remaining high. An RNA interference mechanism was further introduced to HS-3, targeting the nematode tyrosine phosphatase (TP) gene. Ultimately, HS-3 expressing dsRNA of TP in OP-M effectively assisted tomatoes in mitigating CCOs, reducing DSI to 2.2% and 17.8% of the control after 45 and 90 days of growth, respectively. CONCLUSION: The advantages of Bacillus velezensis in crop disease management and the mitigation of CCOs become even more pronounced when utilizing both optimized levels of endogenous enzymes and introduced nematode-targeting dsRNA. © 2024 Society of Chemical Industry.

Integration of mathematical modeling and target-based application of biocontrol agents for the control of Botrytis cinerea in vineyards.

BACKGROUND: Biocontrol agents (BCAs) are alternatives to synthetic fungicides with low risk to the environment and human health. Although several studies on the biocontrol of gray mold in vineyards have been performed, it is necessary to improve the usage of BCAs in fields conditions. Therefore, in the present study, BCAs were used both in calendar-based [based on four growth stages (GSs), i.e., flowering, pre-bunch closure, veraison, and before harvest] and predictive model-based strategies (only when Botrytis cinerea infection risk was predicted by the model). The BCAs applied during the seasons were selected considering the grapevine GSs. Treatments performed with BCAs were compared with synthetic fungicide treatments and an untreated control. The trials were conducted in three experimental vineyards with four epidemics. To evaluate the level of gray mold control of each treatment, disease severity was assessed at harvest and the presence of latent infection was evaluated. RESULTS: The integrative use of the predictive model and BCAs provided satisfactory levels of gray mold control, with gray mold severity levels significantly lower (P < 0.001) than those of the untreated control, which had severity values (< 7%) similar to those observed with synthetic fungicides following both calendar and model-based strategies. CONCLUSIONS: The integrative use of the predictive model and BCAs represents a valid alternative to conventional methods of gray mold control in vineyards, with more than 75% reduction in fungicide usage. © 2024 Society of Chemical Industry.

Global citrus root microbiota unravels assembly cues and core members.

Introduction: Citrus is one of the most important fruit crops worldwide, and the root-associated microbiota can have a profound impact on tree health and growth. Methods: In a collaborative effort, the International Citrus Microbiome Consortium investigated the global citrus root microbiota with samples collected from nine citrus-producing countries across six continents. We analyzed 16S rDNA and ITS2 amplicon sequencing data to identify predominant prokaryotic and fungal taxa in citrus root samples. Comparative analyses were conducted between root-associated microbial communities and those from the corresponding rhizosphere and bulk soil samples. Additionally, genotype-based group-wise comparisons were performed to assess the impact of citrus genotype on root microbiota composition. Results: Ten predominant prokaryotic phyla, containing nine bacterial phyla including Proteobacteria, Actinobacteria, Acidobacteria, and Bacteroidetes and one archaeal phylum (Thaumarchaeota), and multiple fungal phyla including Ascomycota and Basidiomycota were identified in the citrus root samples. Compared with the microbial communities from the corresponding rhizosphere and bulk soil samples from the same trees, the prokaryotic and fungal communities in the roots exhibited lower diversity and complexity but greater modularity compared to those in the rhizosphere. In total, 30 root-enriched and 150 root-depleted genera in bacterial community were identified, whereas 21 fungal genera were enriched, and 147 fungal genera were depleted in the root niche compared with the rhizosphere. The citrus genotype significantly affected the root prokaryotic and fungal communities. In addition, we have identified the core root prokaryotic genera comprising Acidibacter, Allorhizobium, Bradyrhizobium, Chitinophaga, Cupriavidus, Devosia, Dongia, Niastella, Pseudomonas, Sphingobium, Steroidobacter and Streptomyces, and the core fungal genera including Acrocalymma, Cladosporium, Fusarium, Gibberella, Mortierella, Neocosmospora and Volutella. The potential functions of these core genera of root microbiota were predicted. Conclusion: Overall, this study provides new insights into the assembly of microbial communities and identifies core members of citrus root microbiota across a wide geographic range. The findings offer valuable information for manipulating root microbiota to enhance plant growth and health.

An Integrated Pest Management Strategy Approach for the Management of the Stable Fly Stomoxys calcitrans (Diptera: Muscidae).

Stable flies, Stomoxys calcitrans, stand as formidable pests with a global impact, inflicting significant economic losses on the livestock sector. Larval development occurs in diverse substrates, including decomposing plant material and manure, while emerged adults pose a threat through blood-feeding on both animals and humans. Conventional chemical control methods, predominantly reliant on insecticides, not only pose environmental risks but also face challenges of resistance among stable fly populations. To address this pressing issue, we propose an integrated pest management (IPM) strategy for stable fly control. This approach involved a combination of sanitary-cultural practices, animal protection, the release of natural enemies targeting immature stages, and a specialized trapping system for adults. The Stomoxycc® trap, designed for mass trapping of adult Stomoxys, was employed alongside the release of the predatory mite Macrocheles robustulus and two wasp parasitoids, Spalangia cameroni and Muscidifurax raptor (under the commercial brands Biomite® and Biowasp®) on animal bedding as a key component of this IPM strategy. The implementation of this initiative has been undertaken at a significant sanctuary for donkeys and mules in western Spain. In this publication, we present the application and results of the IPM strategy utilized and provide insights into its use as a sustainable and environmentally friendly option for controlling stable fly populations.

Search for biocontrol agents among endophytic lipopeptide-synthesizing bacteria Bacillus spp. to protect wheat plants against Greenbug aphid (Schizaphis graminum).

Beneficial endophytic bacteria can suppress the development of insect pests through direct antagonism, with the help of metabolites, or indirectly by the induction of systemic resistance through the regulation of hormonal signaling pathways. Lipopeptides are bacterial metabolites that exhibit direct antagonistic activity against many organisms, including insects. Also, lipopeptides are able to trigger induced systemic resistance (ISR) in plants against harmful organisms, but the physiological mechanisms of their action are just beginning to be studied. In this work, we studied ten strains of bacteria isolated from the tissues of wheat and potatoes. Sequencing of the 16S rRNA gene showed that all isolates belong to the genus Bacillus and to two species, B. subtilis and B. velezensis. The genes for lipopeptide synthetase - surfactin synthetase (Bs_srf ), iturin synthetase (Bs_ituA, Bs_ituB) and fengycin synthetase (Bs_fenD) - were identified in all bacterial isolates using PCR. All strains had high aphicidal activity against the Greenbug aphid (Schizaphis graminum Rond.) due to the synthesis of lipopeptides, which was proven using lipopeptide-rich fractions (LRFs) isolated from the strains. Endophytic lipopeptide-synthesizing strains of Bacillus spp. indirectly affected the viability of aphids, the endurance of plants against aphids and triggered ISR in plants, which manifested itself in the regulation of oxidative metabolism and the accumulation of transcripts of the Pr1, Pr2, Pr3, Pr6 and Pr9 genes due to the synthesis of lipopeptides, which was proven using LRF isolated from three strains: B. subtilis 26D, B. subtilis 11VM, and B. thuringiensis B-6066. We have for the first time demonstrated the aphicidal effect of fengycin and the ability of the fengycin-synthesizing strains and isolates, B. subtilis Ttl2, Bacillus sp. Stl7 and B. thuringiensis B-6066, to regulate components of the pro-/antioxidant system of aphid-infested plants. In addition, this work is the first to demonstrate an elicitor role of fengycin in triggering a systemic resistance to S. graminum in wheat plants. We have discovered new promising strains and isolates of endophytes of the genus Bacillus, which may be included in the composition of new biocontrol agents against aphids. One of the criteria for searching for new bacteria active against phloem-feeding insects can be the presence of lipopeptide synthetase genes in the bacterial genome.

On the Way to the Technological Development of Newly Selected Non-Saccharomyces Yeasts Selected as Innovative Biocontrol Agents in Table Grapes.

Post-harvest decay of fresh table grapes causes considerable annual production losses. The main fungal agents of decay both in pre- and post-harvest are B. cinerea, Penicillium spp., Aspergillus spp., Alternaria spp., and Cladosporium spp. To date, the use of agrochemicals and SO2 are the main methods to control grape molds in pre- and postharvest, respectively. Significant improvements, however, have already been made in to apply innovative and more environmentally sustainable control strategies, such as Biological Control Agents (BCAs), which can reduce disease severity in both pre- and post-harvest. In this study, 31 new non-Saccharomyces yeast strains, isolated from berries of native Apulian table grape genotypes, were tested for their in vivo effectiveness against grey mold of table grapes, resulting in two St. bacillaris ('N22_I1' and 'S13_I3'), one S. diversa ('N22_I3'), one A. pullulans ('OLB_9.1_VL') and one H. uvarum ('OLB_9.1_BR') yeast strains that were marked as efficient and good BCAs. Their mechanisms of action were characterized through in vitro assays, and additional characteristics were evaluated to assess the economic feasibility and viability for future technological employment. Their effectiveness was tested by reducing the working concentration, their antagonistic effect on a wide range of fungal pathogens, their ability to survive in formulations with long shelf life, and their safety to human health.

Popillia japonica - Italian outbreak management.

Popillia japonica, a priority pest for the EU, was first detected in Northern Italy in 2014. Since its discovery, the outbreak extended over an area of more than 16,000 square kilometers in Northern Italy and Southern Switzerland. In this review, we summarize the state-of-the-art of research conducted in Italy on both the spreading capacity and control measures of P. japonica. Chemical, physical, and biological control measures deployed since its detection are presented, by highlighting their strengths and weaknesses. An in-depth study of the ecosystems invaded by P. japonica disclosed the presence and pathogenicity of natural strains of entomopathogenic fungi and nematodes, some of which have shown to be particularly aggressive towards the larvae of this pest under laboratory conditions. The Plant Health authorities of the Lombardy and Piedmont regions, with the support of several research institutions, played a crucial role in the initial eradication attempt and subsequently in containing the spread of P. japonica. Control measures were performed in the infested area to suppress adult populations of P. japonica by installing several traps (e.g., for mass trapping, for auto-dissemination of the fungus Metarhizium anisopliae, and "attract & kill"). For larval control, the infested fields were treated with commercial strains of the entomopathogenic fungus M. anisopliae and nematode Heterorhabditis bacteriophora. Future studies will aim at integrating phenological and spread models developed with the most effective control measures, within an ecologically sustainable approach.

Scientific and technological advances in the development of sustainable disease management tools: a case study on kiwifruit bacterial canker.

Plant disease outbreaks are increasing in a world facing climate change and globalized markets, representing a serious threat to food security. Kiwifruit Bacterial Canker (KBC), caused by the bacterium Pseudomonas syringae pv. actinidiae (Psa), was selected as a case study for being an example of a pandemic disease that severely impacted crop production, leading to huge economic losses, and for the effort that has been made to control this disease. This review provides an in-depth and critical analysis on the scientific progress made for developing alternative tools for sustainable KBC management. Their status in terms of technological maturity is discussed and a set of opportunities and threats are also presented. The gradual replacement of susceptible kiwifruit cultivars, with more tolerant ones, significantly reduced KBC incidence and was a major milestone for Psa containment - which highlights the importance of plant breeding. Nonetheless, this is a very laborious process. Moreover, the potential threat of Psa evolving to more virulent biovars, or resistant lineages to existing control methods, strengthens the need of keep on exploring effective and more environmentally friendly tools for KBC management. Currently, plant elicitors and beneficial fungi and bacteria are already being used in the field with some degree of success. Precision agriculture technologies, for improving early disease detection and preventing pathogen dispersal, are also being developed and optimized. These include hyperspectral technologies and forecast models for Psa risk assessment, with the latter being slightly more advanced in terms of technological maturity. Additionally, plant protection products based on innovative formulations with molecules with antibacterial activity against Psa (e.g., essential oils, phages and antimicrobial peptides) have been validated primarily in laboratory trials and with few compounds already reaching field application. The lessons learned with this pandemic disease, and the acquired scientific and technological knowledge, can be of importance for sustainably managing other plant diseases and handling future pandemic outbreaks.

CONTROL DE Aedes aegypti (DIPTERA: CULICIDAE) MEDIANTE ACTINOBACTERIAS FORMADORAS DE BIOPELÍCULAS / Control of Aedes aegypti (Díptera: Culicidae) by means of biofilm-forming actinobacteria

RESUMEN Las actinobacterias incluyen miembros productores de compuestos multipropósitos restringidamente sobreexplotados al género Streptomyces. No obstante, es necesario reorientar la exploración de bacterias no estreptomiceas para el uso de nuevos bioagentes ecológicos con miras a evitar redescubrimientos y contrarrestar la resistencia a insecticidas químicos en Aedes aegypti. En esta investigación, se caracterizó actinobacterias formadoras de biopelículas para evaluar su dinámica de crecimiento, actividad larvicida y efectos subletales. La identificación, crecimiento y bioactividades de los patógenos se realizaron por cultivos, análisis de imágenes por fotomicrografía y bioensayos. Las biopelículas pertenecen a Pseudonocardiaceae (PsA1TA) y Corynebacteriaceae (CoA2CA) característicamente dependientes a crecer sobre sustratos con revestimiento cuticular específico. PsA1TA coloniza estructuras membranosas de tórax y abdomen de larvas. Las microcolonias desarrollan infectivamente a biopelículas mono y biestratificadas hasta cubrir cuatro veces la amplitud toracoabdominal (envergadura infectiva entre 1010 μm a 1036 μm). En contraste, CoA2CA envuelve radialmente estructuras esclerotizadas cefálica y anal al triplicar la amplitud de los órganos infectados (envergadura infectiva: 1820 a 2030 μm y 1650 a 1860 μm, respectivamente). Las biopelículas ejercen mortalidad diferenciada a todas las etapas larvarias, no obstante, PsA1TA resultó más mortal y virulento frente al segundo estadio (58 %-96 horas, TL50: 3,4 días), mientras que CoA2CA lo fue sobre el cuarto estadio larval (85 %-96 horas, TL50: 2,5 días). CoA2CA indujo emergencia incompleta de farados y despliegue de tarsos curvos en adultos emergentes, además de revestir cadáveres larvarios con robustas biopelículas. Los morfotipos actinobacterianos revelan efecto larvicida y subletal en A. aegypti por formación de biopelículas.

ABSTRACT Actinobacteria include several ubiquitous members involved in the synthesis of multipurpose bioactive compounds strictly derived from the genus Streptomyces. Nevertheless, new bacterial consortia based on non-streptomycetes actinobacteria are needed to be explored in order to avoid rediscoveries and minimize the development of insecticide resistance in Aedes aegypti. In accordance with the use of eco-friendly bioagents, in this study biofilm-forming actinobacteria were characterized on the basis of assessment their growth dynamics, larvicidal mortality and sublethal effects. Actinobacteria identification, biofilm growth and larvicidal bioactivities were performed by employing bacterial cultures, photomicrograph-based image analysis and bioassays. Bacterial morphotypes belong to Pseudonocardiaceae (PsA1TA) and Corynebacteriaceae (CoA2CA), which showed a distinctly substrate-dependent growth. PsA1TA microcolonies were randomly distributed on abdominal and thoracic membranous epicuticle. Afterwards, the thickness of mono-and bi-layered biofilms were increased fourfold the larval thoracoabdominal width (infectious breadth, 1010 μm - 1036 μm). In contrast, cephalic and anal sclerotized structures were radially encased by CoA2CA biofilms and increased threefold the size of both structures (infectious breadth, 1820 - 2030 μm y 1650 - 1860 μm, respectively). Although biofilms caused dissimilar mortality rates on the four larval instars, PsA1TA exerted highest larvicidal activity and virulence on second instar larvae (58 %-96 hours, LT50: 3.4 days) y CoA2CA on fourth instar larvae (85 %-96 hours, LT5G: 2.5 days). CoA2CA also induced incomplete release of pharate individuals as well as buckled protruding tarsi in newly emergent adults, whilst larval cadavers were overwhelmingly encased within massive biofilm aggregates. Biofilm-forming actinobacteria performed biolarvicidal activity and sublethal responses in A. aegypti.

Establishment of the entomopathogenic fungus Beauveria bassiana as an endophyte in Capsicum annuum and its effects on the aphid pest Myzus persicae (Homoptera: Aphididae) / Establecimiento del hongo entomopatógeno Beauveria bassiana como endófito en Capsicum annuum y sus efectos sobre la plaga del áfido Myzus persicae (Homoptera: Aphididae)

Introduction: Entomopathogenic fungi have been used as biological control agents of insect pests and have demonstrated a promising ability to colonize as endophytes a wide range of plant species. Objective: The aims of this study were to evaluate, in pepper plants, the most effective Beauveria bassiana inoculation techniques. In order to evaluate the presence of natural endophytes and its interaction with B. bassiana. Also to assess the effect of B. bassiana on the aphid Myzus persicae pepper leaf feeding preference and growth. Methods: Three inoculation techniques were evaluated: leaf spraying, seed immersion and root dipping. The pepper plants were inoculated with a conidia suspension adjusted to 1×108 conidia/ml. The presence of B. bassiana in the seedlings was evaluated at 7, 15 and 28 days after inoculation. Results: We found significant statistical differences between inoculation techniques. Foliar spraying showed the highest B. bassiana colonizationfrequency. The natural endophytes presented higher presence in the treatments in which B. bassiana had a low presence. This might indicate the occurrence of antifungal activity that interferes with the establishment of the entomopathogen in pepper tissues. We did not find statistical differences between inoculated and control pepper leaves with regard to the mortality and reproduction of the aphid pest M. persicae. However, the inoculation with B. bassiana showed a tendency to increase the mortality of adults and to decrease the offspring (nymphs). We did not find significant differences in the feeding preference between inoculated and control leaves, although there was a higher number of individuals on control leaves compared to those inoculated. Conclusions: The strain B. bassiana LPSC 1067 was established effectively as an endophyte in the pepper tissues. The most effective inoculation technique was leaf spraying. We did not find differences of statistical significance with regard to the mortality and reproduction of the aphid pest M. persicae. However, the inoculation with B. bassiana showed a tendency to increase the mortality of adults and to decrease the offspring (nymphs). Future studies evaluating the indirect effects of endophytic entomopathogens on both plants and herbivorous insects are needed to further explore their potential use in the management of insect pests.

Introducción: Los hongos entomopatógenos se han utilizado como agentes de control biológico de plagas de insectos y han demostrado una capacidad prometedora para colonizar una amplia gama de especies de plantas como endófitos. Objetivo: Los objetivos de este estudio fueron: evaluar las técnicas de inoculación más efectivas para B. bassiana en plantas de pimiento; evaluar la presencia de endófitos naturales y su interacción con B. bassiana y evaluar el efecto de B. bassiana sobre la preferencia de alimentación de la hoja de pimiento y el crecimiento de la plaga de áfidos M. persicae. Métodos: Se evaluaron tres técnicas de inoculación: aspersión foliar, inmersión de semillas e inmersión de raíces. Las plantas de pimiento se inocularon con una suspensión de conidias ajustada a 1x108 conidias/ml. La presencia de B. bassiana en las plántulas se evaluó a los 7, 15 y 28 días después de la inoculación. Resultados: Se encontraron diferencias significativas entre las técnicas de inoculación. La aspersión foliar mostró la frecuencia más alta. Los endófitos naturales presentaron frecuencias más altas en los tratamientos en los que B. bassiana tuvo una frecuencia baja, esto podría indicar la presencia de actividad antifúngica que interfiere con el establecimiento del entomopatógeno en los tejidos de pimiento. No se encontraron diferencias significativas en la mortalidad, reproducción y preferencia alimentaria de M. persicae. Conclusiones: Se demostró que la cepa B. bassiana LPSC 1067 se estableció efectivamente como endófito en los tejidos de pimiento. La técnica de inoculación más efectiva fue la aspersión foliar. No se encontraron diferencias significativas con respecto a la mortalidad, reproducción y preferencia alimentaria de M. persicae. Sin embargo, la inoculación con B. bassiana mostró una tendencia a aumentar la mortalidad de los adultos y a disminuir la descendencia (ninfas). Se necesitan estudios futuros que evalúen los efectos indirectos de los entomopatógenos endofíticos tanto en plantas como en insectos herbívoros para explorar más a fondo su posible uso en el manejo de insectos plaga.

Dissemination of Aleurocanthus woglumi in citrus plants, its natural enemies and new host plants in the state of Rio de Janeiro, Brazil / Disseminação de Aleurocanthus woglumi em citros, seus inimigos naturais e novas plantas hospedeiras no estado do Rio de Janeiro, Brasil

ABSTRACT: Aleurocanthus woglumi is an exotic pest, widely disseminated in Brazil, with a high preference for citrus plants, but with a polyphagous feeding habit. The contribution of the state of Rio de Janeiro in the Brazilian production of citrus fruits is small; however, there are still public policies that encourage citrus production in the state. In 2010, the appearance of this pest in Rio de Janeiro was confirmed in the municipality of Cachoeiras de Macacu. The objectives of this research were to evaluate the dissemination of A. woglumi in this state, conduct a survey of new species of host plants, identify and evaluate the population of natural enemies present at two orchards that grow 'Tahiti' limes ( Citrus latifolia ) infested by the pest in Cachoeiras de Macacu, RJ, Brazil. In 19 municipalities, leaves of citrus and other species of plants presenting aleyrodid nymphs were collected, and yellow sticky traps were installed to capture adults for subsequent identification. At the 'Tahiti' lime orchards, the leaf collections were done to confirm the species of Aleyrodidae , and regarding A. woglumi , the natural enemies associated with this pest were collected directly from the infested plants. The results showed that A. woglumi is wide-spread in 12 municipalities. Three new host plants for A. woglumi were identified: Artocarpus heterophyllus ( Moraceae ) , Pouteria caimito ( Sapotaceae ) and Struthanthus flexicaulis ( Loranthaceae ). In Cachoeiras de Macacu, a new species of parasitoid of A. woglumi nymphs was named: Encarsia pergandiella (Hymenoptera: Aphelinidae ), while the insects in the Coccinellidae (Coleoptera) family have stood out as predators of this pest.

RESUMO: Aleurocanthus woglumi é uma praga exótica, amplamente disseminada no Brasil, com grande preferência pelos citros, mas com hábito alimentar polífago. A participação do estado do Rio de Janeiro na produção brasileira de citros é pequena; todavia, ainda ocorrem políticas públicas de incentivo à citricultura no Estado. Em 2010, a ocorrência dessa praga no estado do Rio de Janeiro foi confirmada no município de Cachoeiras de Macacu. Os objetivos deste trabalho foram avaliar a disseminação de A. woglumi nesse Estado, levantar novas espécies de plantas hospedeiras, identificar e avaliar a população de seus inimigos naturais presentes em dois pomares de lima-ácida ( Citrus latifolia ) 'Tahiti', infestados pela praga em Cachoeiras de Macacu, RJ, Brasil. Foram realizadas coletas de folhas de citros e de outras espécies de plantas com presença de ninfas de aleirodídeos em 19 municípios, e armadilhas adesivas amarelas foram instaladas para a captura de adultos, para posterior identificação. Nos pomares de lima-ácida, coletas de folhas foram feitas para confirmar a espécie de aleirodídeo e, em se tratando de A. woglumi , coletaram-se inimigos naturais associados a essa praga diretamente nas plantas infestadas. Os resultados mostraram que A. woglumi está disseminada em 12 municípios. Três novas espécies de plantas hospedeiras de A. woglumi foram identificadas: Artocarpus heterophyllus ( Moraceae ), Pouteria caimito ( Sapotaceae ) e Struthanthus flexicaulis ( Loranthaceae ). Em Cachoeiras de Macacu, uma nova espécie de parasitoide de ninfas de A. woglumi foi assinalada: Encarsia pergandiella (Hymenoptera: Aphelinidae ), enquanto que os insetos representantes da família Coccinellidae (Coleoptera) se destacaram como predadores dessa praga.

Salmonella spp. em pontos críticos da cadeia de produção de hortaliças orgânicas no Estado de São Paulo: contribuição para avaliação de risco / Salmonella spp. at critical points in organic vegetables production chain in the state of São Paulo: contribution for risk assessment

Dados de vigilância epidemiológica apontam uma crescente associação entre o consumo de hortaliças e surtos de origem alimentar. São inúmeras as fontes de contaminação aos quais os vegetais estão sujeitos ao longo da cadeia produtiva. Estudos sugerem que práticas agrícolas, como o uso de adubo constituído por esterco animal e água de irrigação não tratada, podem aumentar o risco de contaminação por micro-organismos patogênicos. Com as restrições ao uso de pesticidas sintéticos no sistema orgânico de produção agrícola, agentes de controle biológico, como Bacillus thuringiensis (Bt) desempenham um importante papel para a garantia da produtividade. No entanto, recentemente, a segurança do uso de Bt passou a ser questionada em função da possibilidade de produzir enterotoxinas. Este estudo teve por objetivos levantar dados sobre práticas adotadas no cultivo de hortaliças orgânicas no Estado de São Paulo, Brasil e sobre as características microbiológicas de fertilizantes, água de irrigação, água de lavagem e alfaces nas etapas pré e pós-colheita, assim como avaliar a persistência e interações entre Bt e Salmonella em hortaliças, visando contribuir para avaliações de risco microbiológico mais adequadas. Na primeira parte do estudo, dez propriedades de cultivo orgânico certificadas foram visitadas para a obtenção de dados sobre práticas adotadas e para a coleta de amostras para análise microbiológica. As amostras foram submetidas à enumeração e identificação (gênero e espécie) de Enterobacteriaceae; pesquisa de Salmonella spp. por método convencional e qPCR; e enumeração de coliformes totais e Escherichia coli nas amostras de água. Na segunda fase da pesquisa, avaliou-se a persistência e as interações entre Bt e Salmonella Montevideo no pré e pós-colheita de espinafres. Por fim, bactérias epifíticas isoladas de hortaliças foram testadas quanto a capacidade de inibir bactérias do grupo Bacillus cereus e cepas de Salmonella enterica. As contagens de Enterobacteriaceae variaram de <1 a 7,2 ± 0,1 log UFC/g nos fertilizantes, de 4,1 ± 0,3 a 5,6 ± 0,3 log UFC/g nas alfaces coletadas nos canteiros, de 2,9 ± 0,6 a 5,3 ± 0,5 log UFC/g nas alfaces lavadas, de <1 a 3,5 ± 0,1 log UFC/mL nas amostras de água de irrigação e de <1 a 3,0 ± 0,3 log UFC/mL nas amostras de água de lavagem. Salmonella não foi isolada por cultivo em placa, mas foi detectada por qPCR em uma amostra de alface orgânica lavada. Utilizando MALDI-TOF MS, 45 espécies pertencentes a 24 gêneros bacterianos foram identificadas na cadeia produtiva de hortaliças orgânicas. Bt foi capaz de persistir nas folhas de espinafre nas etapas pré e pós-colheita e afetou a persistência de Salmonella durante o cultivo, mas não durante o armazenamento pós-colheita a 12 ºC. Não foi observada tendência de germinação dos esporos de Bt após a aplicação nos espinafres, reduzindo assim a possibilidade de multiplicação e produção de enterotoxinas. A bactéria epifítica Pseudomonas chlororaphis, isolada de hortaliça, foi capaz de inibir membros do grupo Bacillus cereus, incluindo cepas patogênicas e Bt em testes in vitro, sugerindo uma barreira biológica para o controle da multiplicação destes micro-organismos. Este estudo traz importantes informações sobre a segurança microbiológica de hortaliças orgânicas e de práticas agrícolas, evidenciando a importância de boas práticas para a promoção do alimento seguro. Os resultados constituem uma importante contribuição para o desenvolvimento de modelos de avaliação de risco microbiológico e prevenção de surtos de origem alimentar

Epidemiological surveillance data indicate a growing association between vegetable consumption and food-borne outbreaks. There are numerous sources of contamination to which plants are subjected throughout the production chain. Studies suggest that agricultural practices such as the use of manure fertilizer and untreated irrigation water may increase the risk of contamination by pathogenic microorganisms. With the restrictions on the use of synthetic pesticides in the organic farming system, biological control agents such as Bacillus thuringiensis (Bt), play an important role in ensuring productivity. However, the safety of Bt has recently been questioned due to the possibility of producing enterotoxins. This study aimed to gather information about the agricultural practices employed in the organic vegetables production fields and the microbiological characteristics of fertilizer, irrigation water, wash water, and lettuces in pre and post-harvest stages, and to evaluate the persistence and interactions between Bt and Salmonella on leafy greens, aiming to contribute for more adequate microbiological risk assessments. In the first part of the study, ten certified organic farms were visited to collect data on the farming practices and for collection of samples for microbiological evaluations. The samples were submitted to Enterobacteriaceae enumeration and identification (genus and species); Salmonella spp. by conventional method and qPCR; and enumeration of total coliforms and Escherichia coli in water samples. In the second part of the study, the persistence and interaction between Bacillus thuringiensis subsp Aizawai (Bt) and Salmonella Montevideo in the pre and post-harvest of spinach were evaluated. Finally, epiphytic bacteria isolated from vegetables were tested for their ability to inhibit growth of Bacillus cereus group members and Salmonella strains. Enterobacteriaceae counts ranged from <1 to 7.2 ± 0.1 log CFU/g in fertilizers, from 4.1 ± 0.3 to 5.6 ± 0.3 log CFU/g in lettuces collected from the fields, from 2.9 ± 0.6 to 5.3 ± 0.5 log CFU/g in washed lettuces, <1 to 3.5 ± 0.1 log CFU/mL in irrigation water and <1 to 3.0 ± 0.3 log CFU/mL in wash water. Salmonella was not isolated by plating but it was detected by qPCR in one sample of washed organic lettuce. Using MALDI-TOF MS, 45 species belonging to 24 bacterial genera were identified in the organic vegetable production chain. Bt was able to persist on pre and post-harvest of spinach and affected Salmonella persistence during cultivation, but not during the storage at 12 ºC. Bt spores showed no tendency to germinate during pre-harvest of spinach, thus reducing the probability of growth and production of enterotoxins. The epiphytic bacterium Pseudomonas chlororaphis isolated from one vegetable sample was able to inhibit members of the Bacillus cereus group, including pathogenic strains and Bt in in vitro tests, suggesting a biological barrier to control the multiplication of these microorganisms. These studies provide important information about the microbiological safety of organic vegetables and agricultural practices, highlighting the importance of good practices for the promotion of safe food. These data are fundamental for the development of microbiological risk assessment models and prevention of foodborne outbreaks

Registro da ocorrência de Cybocephalus sp. (Coleoptera: Nitidulidae) predando espécies-praga de diaspididae (Hemiptera), no estado de Alagoas / Record of Cybocephalus sp. (Coleoptera: Nitidulidae) preying on pest species of diaspididae (Hemiptera), in the state of Alagoas, Brazil

Specimens of Cybocephalus sp. were collected preying on Aspidiotus destructor (Signoret) infesting coconut trees (Dwarf cultivar) and on Diaspis echinocacti (Bouché) present on Opuntia ficus-indica Mill. and Nopalea cochenillifera (L.) Lyons (Cactaceae). In the later case the nitidulid was associated with another predator: Coccidophilus citricola (Brèthes) (Coleoptera: Coccinellidae). The eggs were laid inside the scale of the diaspidid (one egg per scale); all life stages were detected. No sexual dimorphism was observed, and the natural sex ratio was 0.52 which represents a sexual proportion of 1.1 females : 1 male. Cybocephalus specimens were also collected preying on coccids on Alamanda cathartica L. (Apocynaceae) and on Morus alba L. (Moraceae).

Espécimes de Cybocephalus sp. foram coletados predando colônias de Aspidiotus destructor (Signoret), que infestavam coqueiros da variedade Anão, e colônias de Diaspis echinocacti (Bouché) em Opuntia ficus-indica Mill. e Nopalea cochenillifera (L.) Lyons (Cactaceae) (palmas-forrageiras); neste último caso, o nitidulídeo estava presente juntamente com outro predador: Coccidophilus citricola (Brèthes) Coleoptera: Coccinellidae). Os ovos eram postos no interior das carapaças do diaspidídeo já predadas (um ovo por carapaça), sendo que foram encontrados todos os estágios de desenvolvimento. Não foi detectado dimorfismo sexual. A razão sexual natural foi de 0,52, o que representa uma proporção sexual de 1,1 fêmeas : 1 macho. Espécimes de Cybocephalus sp. também foram coletados predando coccídeos em Alamanda cathartica L. (Apocynaceae) e em Morus alba L. (Moraceae).