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3. Beyond carbon: The contributions of South American tropical humid and subhumid forests to ecosystem services

Author

Borma, L. S., Costa, M. H., Rocha, H. R. da, Arieira, J., Nascimento, N. C. C., Jaramillo‐Giraldo, C., Ambrosio, G., Carneiro, R. G., Venzon, M., Neto, A. F., Hoff, R. van der, Oliveira, B. F. A., Rajão, R., Nobre, C. A., Integr. Assessm. Global Environm. Change, Environmental Sciences, Integr. Assessm. Global Environm. Change, and Environmental Sciences

Subjects
tropical forests, anthropic changes, Geophysics, rainforests, ecosystem services, biodiversity, savannas
Abstract

Tropical forests are recognized for their role in providing diverse ecosystem services (ESs), with carbon uptake the best recognized. The capacity of tropical forests to provide ESs is strongly linked to their enormous biodiversity. However, causal relationships between biodiversity and ESs are poorly understood. This may be because biodiversity is often translated into species richness. Here we argue that focusing on multiple attributes of biodiversity—structure, composition, and function—will make relationships between biodiversity and ESs clearer. In this review, we discuss the ecological processes behind ESs from tropical humid and subhumid forests of South America. Our main goal is to understand the links between the ESs and those three biodiversity attributes. While supporting and regulating services relate more closely to forest structure and function, provisioning services relate more closely to forest composition and function, and cultural services are more related to structure and composition attributes. In this sense, ESs from subhumid forests (savannas) differ from those provided by the Amazon Forest, although both ecosystems are recognized as harboring tremendous biodiversity. Given this, if anthropogenic drivers of change promote a shift in the Amazon Forest toward savanna—the savannization hypothesis—the types of services provided will change, especially climate regulating services. This review emphasizes the importance of deeply understanding ecosystem structure, composition, and function to better understand the services ecosystems provide. Understanding that anthropogenic impacts on biodiversity occur through these three main attributes, it becomes easier to anticipate how humans will impact ESs.

Published
2022

4. Beyond Carbon: The Contributions of South American Tropical Humid and Subhumid Forests to Ecosystem Services

Author

Borma, L. S., primary, Costa, M. H., additional, da Rocha, H. R., additional, Arieira, J., additional, Nascimento, N. C. C., additional, Jaramillo‐Giraldo, C., additional, Ambrosio, G., additional, Carneiro, R. G., additional, Venzon, M., additional, Neto, A. F., additional, van der Hoff, R., additional, Oliveira, B. F. A., additional, Rajão, R., additional, and Nobre, C. A., additional

Published
2022
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6. Beyond carbon: The contributions of South American tropical humid and subhumid forests to ecosystem services

Author

Integr. Assessm. Global Environm. Change, Environmental Sciences, Borma, L. S., Costa, M. H., Rocha, H. R. da, Arieira, J., Nascimento, N. C. C., Jaramillo‐Giraldo, C., Ambrosio, G., Carneiro, R. G., Venzon, M., Neto, A. F., Hoff, R. van der, Oliveira, B. F. A., Rajão, R., Nobre, C. A., Integr. Assessm. Global Environm. Change, Environmental Sciences, Borma, L. S., Costa, M. H., Rocha, H. R. da, Arieira, J., Nascimento, N. C. C., Jaramillo‐Giraldo, C., Ambrosio, G., Carneiro, R. G., Venzon, M., Neto, A. F., Hoff, R. van der, Oliveira, B. F. A., Rajão, R., and Nobre, C. A.

Published
2022

8. Companion and Smart Plants: Scientific Background to Promote Conservation Biological Control

Author

Blassioli-Moraes, C., Venzon, M., Paterno Silveira, L. C., Moreira Gontijo, L., Brum Togni, P. H., Ryoiti Sujii, E., Mendes Haro, M., Borges, M., Michereff, M. F. F., Ferreira Santos de Aquino, M., Laumann, R. A., Caulfield, J. C., and Birkett, M. A.

Subjects
Crops, Agricultural, Plant diversity, Insect Science, Natural enemies, Animals, Herbivory, Pest Control, Sustainable agriculture systems, Pest Control, Biological, Ecosystem, Herbivores
Abstract

To attain sustainable agricultural crop protection, tools such as host plant resistance, enhanced ecosystem services (i.e. conserving natural enemies) and the deployment of companion plants should be promoted in pest management programmes. These agro system manipulations could be based on chemical ecology studies considering the interactions with natural enemies and pests, regarding specifically plant defence signalling. Further, new crop protection strategies might rise from widening the knowledge regarding how herbivore-induced plant volatiles can govern a multifaceted defence response including natural enemy recruitment, pest repellence or induced defence in neighbouring plants. It is crucial to use a multitrophic approach to understand better the interactions involving companion plants, herbivores and natural enemies in the field, increasing the knowledge to build more efficient and sustainable pest management strategies. In this review, we explore the perspectives of companion plants and their semiochemicals to promote conservation biological control according to the ‘smart plants’ concept. Further, we discuss the advantages and disadvantages of using companion plants and explore the application of companion plants in different agroecosystems using several case studies.

Published
2021

10. IFN-I and IL-22 mediate protective effects of intestinal viral infection

Author

Neil, JA, Matsuzawa-Ishimoto, Y, Kernbauer-Holzl, E, Schuster, SL, Sota, S, Venzon, M, Dallari, S, Neto, AG, Hine, A, Hudesmans, D, Loke, P, Nice, TJ, Cadwell, K, Neil, JA, Matsuzawa-Ishimoto, Y, Kernbauer-Holzl, E, Schuster, SL, Sota, S, Venzon, M, Dallari, S, Neto, AG, Hine, A, Hudesmans, D, Loke, P, Nice, TJ, and Cadwell, K

Abstract

Products derived from bacterial members of the gut microbiota evoke immune signalling pathways of the host that promote immunity and barrier function in the intestine. How immune reactions to enteric viruses support intestinal homeostasis is unknown. We recently demonstrated that infection by murine norovirus (MNV) reverses intestinal abnormalities following depletion of bacteria, indicating that an intestinal animal virus can provide cues to the host that are typically attributed to the microbiota. Here, we elucidate mechanisms by which MNV evokes protective responses from the host. We identify an important role for the viral protein NS1/2 in establishing local replication and a type I interferon (IFN-I) response in the colon. We further show that IFN-I acts on intestinal epithelial cells to increase the proportion of CCR2-dependent macrophages and interleukin (IL)-22-producing innate lymphoid cells, which in turn promote pSTAT3 signalling in intestinal epithelial cells and protection from intestinal injury. In addition, we demonstrate that MNV provides a striking IL-22-dependent protection against early-life lethal infection by Citrobacter rodentium. These findings demonstrate novel ways in which a viral member of the microbiota fortifies the intestinal barrier during chemical injury and infectious challenges.

Published
2019

11. Survival and preference of cotton boll weevil adults for alternative food sources

Author

Pimenta, M., Mata, R. A., Venzon, M., Cunha, D. N. C., Fontes, E. M. G., Pires, C. S. S., and Sujii, E. R.

Subjects
okra, hibisco, Malvacea, hibiscus, Anthonomus grandis, quiabo
Abstract

Plants that have potential as alternative food source (floral nectar, pollen and plant tissues) to the boll weevil during the intercropping season were evaluated considering the prevalent conditions of Cerrado in the Central Brazil. Initially, we tested the nutritional adequacy for the survival of the insect of flower resource (pollen and nectar) provided by eight plant species (fennel, mexican sunflower, castor bean, okra, hibiscus, sorghum, pigeonpea and sunn hemp). Subsequently, we tested if the resources provided by the selected plants continued to be exploited by the boll weevil in the presence of cotton plant, its main food source average longevity of boll weevil adults was significantly longer when they were fed on hibiscus’ flowers (166.6 ± 74.4) and okra flowers (34.7 ± 28.9) than when they fed on flowers of other six species. Subsequently, the preference of the boll weevil in the use of resources was compared between okra or hibiscus and cotton plants, in dual choice experiments. Boll weevils preferred plants of the three species in the reproductive stages than those in vegetative stages. Although the cotton plant in the reproductive stage was the most preferred plant of all, boll weevils preferred flowering okra and hibiscus than cotton at the vegetative stage. Resumo Plantas que podem ser uma fonte potencial de recursos alimentares (néctar floral, pólen e tecidos vegetais) para o bicudo do algodoeiro durante a entressafra foram avaliadas, considerando as condições ambientais prevalentes na região de Cerrado do Brasil Central. Primeiro, testamos a adequação nutricional dos recursos (pólen e néctar) fornecidos por oito espécies de plantas (erva-doce, margaridão, mamona, quiabo, hibisco, sorgo, feijão guandu e crotalária) como único recurso alimentar para a sobrevivência do inseto. Posteriormente, nós avaliamos se os recursos fornecidos pelas plantas selecionadas continuaram a serem explorados pelo bicudo na presença do algodoeiro, seu recurso alimentar principal. A longevidade média do bicudo do algodoeiro foi significativamente maior quando eles foram alimentados com flores de hibisco (166,6 ± 74,4) e quiabo (34,7 ± 28,9) do que quando alimentados com flores das outras seis espécies. Em seguida, a preferência do bicudo no uso de recursos foi comparada contrastando o quiabo e o hibisco com o algodão, em experimentos de dupla escolha. Os bicudos preferiram as plantas das três espécies na fase reprodutiva em relação àquelas em estádios vegetativos. Embora a preferência por plantas de algodão na fase reprodutiva tenha sido maior, os bicudos preferiram plantas em floração de quiabo e hibisco quando estas foram contrastadas com o algodão na fase vegetativa.

Published
2016

12. Manejo agroecológico das pragas das fruteiras

Author

VENZON, M., DIEZ-RODRÍGUEZ, G. I., FERRAZ, C. S., LEMOS, F., NAVA, D. E., PALLINI, A., Madelaine Venzon, Gabriela Inés Diez-Rodríguez, Célia Siqueira Ferraz, Felipe Lemos, DORI EDSON NAVA, CPACT, and Angelo Pallini.

Subjects
Behaviour control, cultural control, biological control, Alternative products
Published
2016

14. Behaviour and indirect interactions in food webs of plant-inhabiting arthropods

Author

Janssen, A., Pallini, A., Venzon, M., Sabelis, M.W., Bruin, J., van der Geest, L.P.S., Evolutionary and Population Biology (IBED, FNWI), and IBED Other Research (FNWI)

Abstract

With the increased use of biological control agents, artificial food webs are created in agricultural crops and the interactions among plants, herbivores and natural enemies change from simple tritrophic interactions to more complex food web interactions. Therefore, herbivore densities will not only be determined by direct predator—prey interactions and direct and indirect defence of plants against herbivores, but also by other direct and indirect interactions such as apparent competition, intraguild predation, resource competition, etc. Although these interactions have received considerable attention in theory and experiments, little is known about their impact on biological control. In this paper, we first present a review of indirect food web interactions in biological control systems. We propose to distinguish between numerical indirect interactions which are interactions where one species affects densities of another species through an effect on the numbers of an intermediate species, and functional indirect interactions defined as changes in the way that two species interact through the presence of a third species. It is argued that functional indirect interactions are important in food webs and deserve more attention. Subsequently, we discuss experimental results on interactions in an artificial food web consisting of pests and natural enemies on greenhouse cucumber. The two pest species are the twospotted spider mite Tetranychus urticae and the western flower thrips, Frankliniella occidentalis. Their natural enemies are the predatory mite Phytoseiulus persimilis, which is commonly used for spider mite control, and the predatory mites Neoseiulus cucumeris and Iphiseius degenerans and the predatory bug Orius laevigatus, all natural enemies of thrips. First, we analyse the possible interactions among these seven species and we continue by discussing how functional indirect interactions, particularly the behaviour of arthropods, may change the significance and impact of direct interactions and numerical indirect interactions. It was found that a simple food web of only four species already gives rise to some quite complicated combinations of interactions. Spider mites and thrips interact indirectly through resource competition, but thrips larvae are intraguild predators of spider mites. Some of the natural enemies used for control of the two herbivore species are also intraguild predators. Moreover, spider mites produce a web that is subsequently used by thrips to hide from their predators. We discuss these and other results obtained so far and we conclude with a discussion of the potential impact of functional indirect and direct interactions on food webs and their significance for biological control

Published
1999

15. Biology and host selection stage of Symmetrischema dulcePovolny (Lepidoptera: Gelechiidae) in chili pepper

Author

Perez, A., Martins, E., and Venzon, M.

Abstract

The pepper-fruit-borer Symmetrischema dulcePovolny (Lepidoptera: Gelechiidae) is an important chili pepper pest causing significant yield losses. However, chili pepper has insufficient crop protection support and primary information about S. dulceis scarce. In the present study, we aimed to study the biology and ecology of S. dulcein pepper plants (Capsicum frutescensL.) focusing to support integrated pest management programs. In the field, we sampled ripe and unripe chili pepper fruits in three different plant strata. In the laboratory, we established colonies of the S. dulceand we recorded the duration, viability, morphology of each life stage, and number of larval instars. We conducted experiments to evaluate insect reproduction, whereby we registered the pre-oviposition and oviposition period, daily oviposition rate, and sex ratio. From these results, we estimated the reproductive success of S. dulcethrough the intrinsic population growth rate. The higher occurrence of S. dulcewas in unripe fruits with no difference between plant strata. Egg stage lasted 4 days with 94% viability, and larval phase lasted on average 10.72 days and presented four instars with viability of 66.6%. Pupal stage lasted 9.61 days with viability of 94.73%. The adult stage lasted 24.14 days with a pre-oviposition period of 3 days and oviposition period of 13.85 days. The intrinsic growth rate (rm) recorded was 0.0035. Our results suggest that the biology of S. dulcehas similarities with other Lepidoptera, but its peculiarities in reproductive parameters are essential for future programs of pest management.

Published
2019
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17. Herbivoria de Tetranychus urticae Koch (Acari: tetranychidae) induz defesa direta em morangueiro?

Author

FADINI, M. A. M., LEMOS, W. P., PALLINI, A., VENZON, M., MOURÃO, S. A., MARCOS A. M. FADINI, UFV, WALKYMARIO DE PAULO LEMOS, CPATU, ANGELO PALLINI, UFV, MADELAINE VENZON, EPAMIG, and SHEILA A. MOURÃO, UFV.

Subjects
Resistência induzida, Ácaro Rajado
Abstract

Plantas de morangueiro Fragaria x ananassa podem apresentar mecanismos de defesa direta e indireta contra herbívoros. Tais defesas podem alterar o comportamento e o desenvolvimento dos ácaros fitófagos e seus inimigos naturais, reduzindo a taxa de herbivoria. Testou-se o efeito da préinfestação de plantas de morangueiro por Tetranychus urticae Koch sobre o seu desenvolvimento e reprodução. Plantas de morangueiro cultivar IAC Campinas foram divididas em dois grupos: plantas limpas e plantas pré-infestadas por T. urticae. A infestação prévia de plantas de morangueiro por T. urticae não alterou a duração das fases imaturas, a fecundidade e a sobrevivência das fêmeas do ácaro. Tais resultados podem estar associados à inexistência ou baixo nível de resistência induzida da cultivar IAC Campinas, ou ainda, ao fato de a pré-infestação ter sido insuficiente para induzir defesa. Assim, a resistência relatada na cultivar IAC Campinas a T. urticae pode estar relacionada às defesas indiretas.

Published
2004

31. Metarhizium -Inoculated Coffee Seeds Promote Plant Growth and Biocontrol of Coffee Leaf Miner.

Author

Martins JLA, Franzin ML, Ferreira DDS, Magina LCR, Martins EF, Mendonça LVP, Neves WDS, Pallini A, Valicente FH, Schmidt JM, Elliot SL, and Venzon M

Abstract

Metarhizium (Hypocreales: Clavicipitaceae) has a multifunctional life cycle, establishing as a plant endophyte and acting as entomopathogenic fungi. Metarhizium robertsii and Metarhizium brunneum can be associated with coffee plants and provide enhanced protection against a major pest of coffee, the coffee leaf miner (CLM) ( Leucoptera coffeella ). This association would be an easily deployable biological control option. Here we tested the potential of inoculating coffee seeds with M. robertsii and M. brunneum collected from the soil of coffee crops in the Cerrado (Brazil) for control of the CLM and the enhancement of plant growth with a commonly used fungicide. We conducted the experiment in a greenhouse and after the seedlings grew, we placed them in a cage with two couples of CLMs. We evaluated the CLM development time, reproduction, and plant growth traits. We observed a longer development time of CLMs when fed on plants inoculated with both isolates. In addition, the CLMs laid fewer eggs compared to those fed on plants without fungal inoculation. Plant growth was promoted when seeds were inoculated with fungi, and the fungicide did not affect any evaluated parameter. Coffee seed inoculation with M. robertsii and M. brunneum appears to provide protection against CLMs and promote growth improvement.

Published
2024
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33. Morinda citrifolia Essential Oil: A Plant Resistance Biostimulant and a Sustainable Alternative for Controlling Phytopathogens and Insect Pests.

Author

Dias BL, Sarmento RA, Venzon M, Jumbo LOV, Dos Santos LSS, de Souza Moura W, Mourão DSC, Fernandes PRS, Neitzke TR, Oliveira JVA, Dias T, Dalcin MS, Oliveira EE, and Santos GRD

Abstract

With the growing demand for sustainable and safe agricultural practices, plant compounds emerge as a solution for biological activities. Here, we evaluated the potential of using Morinda citrifolia essential oil to induce plant resistance and to control phytopathogens ( Curvularia lunata ) and insect pests ( Daubulus maidis ). We conducted a chromatographic analysis to unveil the essential oil components. We also quantified the activity levels of antioxidant enzymes and chitinase for resistance induction. The antifungal action was evaluated through disease progression and the inhibition of mycelial growth in addition to in silico studies that made it possible to predict the interaction site between the fungal protein and the compounds. We assessed the toxicity and repellent actions towards the D. maidis. Octanoic acid (58.43%) was identified as the essential oil major compound. Preventive treatment with essential oil and octanoic acid (25.0 µL mL -1 ) increased not only the plant defense activities (i.e., the activity of the enzymes superoxide dismutase, catalase, phenol peroxidase, ascorbate peroxidase, and chitinase) but also controlled Curvularia leaf spot. The stable interactions between octanoic acid and tyrosine-tRNA ligase from C. lunata suggested protein synthesis inactivation. The essential oil inhibited 51.6% of mycelial growth, and this effect was increased to 75.9% with the addition of adjuvants (i.e., angico gum). The essential oil reduced 76% of the population of D. maidis adults and repelled 50% of the number of D. maidis after 48 h under field conditions. The repellency effect in the field reduced the population of D. maidis adults, transmitters of the stunting complex, by 50%. The results highlight the potential of M. citrifolia as a resistance activator, fungicide, insecticide, and an effective biorational alternative.

Published
2024
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34. Bacterial contact induces polar plug disintegration to mediate whipworm egg hatching.

Author

Robertson A, Sall J, Venzon M, Olivas JJ, Zheng X, Cammer M, Antao N, Zhou C, Devlin JC, Saes Thur R, Bethony J, Nejsum P, Shopsin B, Torres VJ, Liang FX, and Cadwell K

Subjects
Mice, Animals, Microscopy, Electron, Scanning, Bacteria, Larva, Ovum, Mammals, Trichuris, Microbiota
Abstract

The bacterial microbiota promotes the life cycle of the intestine-dwelling whipworm Trichuris by mediating hatching of parasite eggs ingested by the mammalian host. Despite the enormous disease burden associated with Trichuris colonization, the mechanisms underlying this transkingdom interaction have been obscure. Here, we used a multiscale microscopy approach to define the structural events associated with bacteria-mediated hatching of eggs for the murine model parasite Trichuris muris. Through the combination of scanning electron microscopy (SEM) and serial block face SEM (SBFSEM), we visualized the outer surface morphology of the shell and generated 3D structures of the egg and larva during the hatching process. These images revealed that exposure to hatching-inducing bacteria catalyzed asymmetric degradation of the polar plugs prior to exit by the larva. Unrelated bacteria induced similar loss of electron density and dissolution of the structural integrity of the plugs. Egg hatching was most efficient when high densities of bacteria were bound to the poles. Consistent with the ability of taxonomically distant bacteria to induce hatching, additional results suggest chitinase released from larva within the eggs degrade the plugs from the inside instead of enzymes produced by bacteria in the external environment. These findings define at ultrastructure resolution the evolutionary adaptation of a parasite for the microbe-rich environment of the mammalian gut., Competing Interests: I have read the journal’s policy and the authors of this manuscript have the following competing interests: K.C. has received research support from Pfizer, Takeda, Pacific Biosciences, Genentech, and Abbvie; consulted for or received an honoraria from Puretech Health, Genentech, and Abbvie; and is an inventor on U.S. patent 10,722,600 and provisional patent 62/935,035 and 63/157,225, (Copyright: © 2023 Robertson et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published
2023
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35. Gut microbiome dysbiosis in antibiotic-treated COVID-19 patients is associated with microbial translocation and bacteremia.

Author

Bernard-Raichon L, Venzon M, Klein J, Axelrad JE, Zhang C, Sullivan AP, Hussey GA, Casanovas-Massana A, Noval MG, Valero-Jimenez AM, Gago J, Putzel G, Pironti A, Wilder E, Thorpe LE, Littman DR, Dittmann M, Stapleford KA, Shopsin B, Torres VJ, Ko AI, Iwasaki A, Cadwell K, and Schluter J

Subjects
Mice, Animals, Dysbiosis microbiology, Anti-Bacterial Agents, SARS-CoV-2, Bacteria, Gastrointestinal Microbiome, COVID-19, Coinfection, Bacteremia
Abstract

Although microbial populations in the gut microbiome are associated with COVID-19 severity, a causal impact on patient health has not been established. Here we provide evidence that gut microbiome dysbiosis is associated with translocation of bacteria into the blood during COVID-19, causing life-threatening secondary infections. We first demonstrate SARS-CoV-2 infection induces gut microbiome dysbiosis in mice, which correlated with alterations to Paneth cells and goblet cells, and markers of barrier permeability. Samples collected from 96 COVID-19 patients at two different clinical sites also revealed substantial gut microbiome dysbiosis, including blooms of opportunistic pathogenic bacterial genera known to include antimicrobial-resistant species. Analysis of blood culture results testing for secondary microbial bloodstream infections with paired microbiome data indicates that bacteria may translocate from the gut into the systemic circulation of COVID-19 patients. These results are consistent with a direct role for gut microbiome dysbiosis in enabling dangerous secondary infections during COVID-19., (© 2022. The Author(s).)

Published
2022
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36. Diet breadth of the aphid predator Chrysoperla rufilabris Burmeister (Neuroptera: Chrysopidae).

Author

Batista MC, Heimpel GE, Bulgarella M, and Venzon M

Subjects
Animals, Diet, Female, Insecta, Larva, Pest Control, Biological, Phylogeny, Predatory Behavior, Aphids
Abstract

The performance (development and reproduction) of generalist predators can vary greatly among the prey species that they use, and these differences can influence the ability of predatory insects to suppress pest populations. The aim of this study was to compare the performance of larvae of the green lacewing Chrysoperla rufilabris (Burmeister, 1839) by offering 16 species of aphids and by assessing the effects of each species on the survival, larval development time, prey consumption, pupal mass and egg load of adult Chr. rufilabris females taking aphid phylogeny into account. Chrysoperla rufilabris larvae preyed on individuals from all 16 aphid species, but complete development, adult emergence and egg load production were achieved only in seven species. As a general pattern, the best levels of performance were achieved for an aphid clade that includes the soybean aphid, Aphis glycines (Matsumara, 1917), and for a milkweed-feeding species, Myzocallis asclepiadis (Monell, 1879). We found significant phylogenetic clustering for most of the performance traits indicating the aspects of specialization in the diet breadth of Chr. rufilabris despite the fact that this species is considered a generalist aphid predator. These findings can help us to understand the interactions of this species in agroecological food webs, where it is commonly found, and provide insights into why natural, conservation biological control or augmentative releases may succeed or fail.

Published
2022
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37. Predation on sentinel prey increases with increasing latitude in Brassica -dominated agroecosystems.

Author

Gray HL, Farias JR, Venzon M, Torres JB, Souza LM, Aita RC, and Andow DA

Abstract

In natural ecosystems, arthropod predation on herbivore prey is higher at lower latitudes, mirroring the latitudinal diversity gradient observed across many taxa. This pattern has not been systematically examined in human-dominated ecosystems, where frequent disturbances can shift the identity and abundance of local predators, altering predation rates from those observed in natural ecosystems. We investigated how latitude, biogeographical, and local ecological factors influenced arthropod predation in Brassica oleracea -dominated agroecosystems in 55 plots spread among 5 sites in the United States and 4 sites in Brazil, spanning at least 15° latitude in each country. In both the United States and Brazil, arthropod predator attacks on sentinel model caterpillar prey were highest at the highest latitude studied and declined at lower latitudes. The rate of increased arthropod attacks per degree latitude was higher in the United States and the overall gradient was shifted poleward as compared to Brazil. PiecewiseSEM analysis revealed that aridity mediates the effect of latitude on arthropod predation and largely explains the differences in the intensity of the latitudinal gradient between study countries. Neither predator richness, predator density, nor predator resource availability predicted variation in predator attack rates. Only greater non-crop plant density drove greater predation rates, though this effect was weaker than the effect of aridity. We conclude that climatic factors rather than ecological community structure shape latitudinal arthropod predation patterns and that high levels of aridity in agroecosystems may dampen the ability of arthropod predators to provide herbivore control services as compared to natural ecosystems., Competing Interests: The authors declare no conflicting interests., (© 2022 The Authors. Ecology and Evolution published by John Wiley & Sons Ltd.)

Published
2022
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38. Microbial byproducts determine reproductive fitness of free-living and parasitic nematodes.

Author

Venzon M, Das R, Luciano DJ, Burnett J, Park HS, Devlin JC, Kool ET, Belasco JG, Hubbard EJA, and Cadwell K

Subjects
Animals, Caenorhabditis elegans microbiology, Genetic Fitness, Mammals, Mice, Trichuris microbiology, Escherichia coli, Nematoda
Abstract

Trichuris nematodes reproduce within the microbiota-rich mammalian intestine and lay thousands of eggs daily, facilitating their sustained presence in the environment and hampering eradication efforts. Here, we show that bacterial byproducts facilitate the reproductive development of nematodes. First, we employed a pipeline using the well-characterized, free-living nematode C. elegans to identify microbial factors with conserved roles in nematode reproduction. A screen for E. coli mutants that impair C. elegans fertility identified genes in fatty acid biosynthesis and ethanolamine utilization pathways, including fabH and eutN. Additionally, Trichuris muris eggs displayed defective hatching in the presence of fabH- or eutN-deficient E. coli due to reduced arginine or elevated aldehydes, respectively. T. muris reared in gnotobiotic mice colonized with these E. coli mutants displayed morphological defects and failed to lay viable eggs. These findings indicate that microbial byproducts mediate evolutionarily conserved transkingdom interactions that impact the reproductive fitness of distantly related nematodes., Competing Interests: Declaration of interests K.C. has received research support from Pfizer, Takeda, Pacific Biosciences, Genentech, and Abbvie. K.C. has consulted for or received honoraria from Puretech Health, Genentech, and Abbvie. K.C. holds U.S. patent 10,722,600 and provisional patent 62/935,035 and 63/157,225, and E.J.A.H. holds US patent 6,087,153., (Copyright © 2022 Elsevier Inc. All rights reserved.)

Published
2022
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39. Companion and Smart Plants: Scientific Background to Promote Conservation Biological Control.

Author

Blassioli-Moraes MC, Venzon M, Silveira LCP, Gontijo LM, Togni PHB, Sujii ER, Haro MM, Borges M, Michereff MFF, de Aquino MFS, Laumann RA, Caulfield J, and Birkett M

Subjects
Animals, Crops, Agricultural, Pest Control, Pest Control, Biological, Ecosystem, Herbivory
Abstract

To attain sustainable agricultural crop protection, tools such as host plant resistance, enhanced ecosystem services (i.e. conserving natural enemies) and the deployment of companion plants should be promoted in pest management programmes. These agro system manipulations could be based on chemical ecology studies considering the interactions with natural enemies and pests, regarding specifically plant defence signalling. Further, new crop protection strategies might rise from widening the knowledge regarding how herbivore-induced plant volatiles can govern a multifaceted defence response including natural enemy recruitment, pest repellence or induced defence in neighbouring plants. It is crucial to use a multitrophic approach to understand better the interactions involving companion plants, herbivores and natural enemies in the field, increasing the knowledge to build more efficient and sustainable pest management strategies. In this review, we explore the perspectives of companion plants and their semiochemicals to promote conservation biological control according to the 'smart plants' concept. Further, we discuss the advantages and disadvantages of using companion plants and explore the application of companion plants in different agroecosystems using several case studies., (© 2022. Sociedade Entomológica do Brasil.)

Published
2022
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40. Gut microbiome dysbiosis during COVID-19 is associated with increased risk for bacteremia and microbial translocation.

Author

Venzon M, Bernard-Raichon L, Klein J, Axelrad JE, Zhang C, Hussey GA, Sullivan AP, Casanovas-Massana A, Noval MG, Valero-Jimenez AM, Gago J, Putzel G, Pironti A, Wilder E, Thorpe LE, Littman DR, Dittmann M, Stapleford KA, Shopsin B, Torres VJ, Ko AI, Iwasaki A, Cadwell K, and Schluter J

Abstract

The microbial populations in the gut microbiome have recently been associated with COVID-19 disease severity. However, a causal impact of the gut microbiome on COVID-19 patient health has not been established. Here we provide evidence that gut microbiome dysbiosis is associated with translocation of bacteria into the blood during COVID-19, causing life-threatening secondary infections. Antibiotics and other treatments during COVID-19 can potentially confound microbiome associations. We therefore first demonstrate in a mouse model that SARS-CoV-2 infection can induce gut microbiome dysbiosis, which correlated with alterations to Paneth cells and goblet cells, and markers of barrier permeability. Comparison with stool samples collected from 96 COVID-19 patients at two different clinical sites also revealed substantial gut microbiome dysbiosis, paralleling our observations in the animal model. Specifically, we observed blooms of opportunistic pathogenic bacterial genera known to include antimicrobial-resistant species in hospitalized COVID-19 patients. Analysis of blood culture results testing for secondary microbial bloodstream infections with paired microbiome data obtained from these patients indicates that bacteria may translocate from the gut into the systemic circulation of COVID-19 patients. These results are consistent with a direct role for gut microbiome dysbiosis in enabling dangerous secondary infections during COVID-19.

Published
2022
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41. Predation of Coffee Berry Borer by a Green Lacewing.

Author

Botti JMC, Martins EF, Franzin ML, and Venzon M

Subjects
Animals, Coffee, Larva, Predatory Behavior, Coffea, Weevils
Abstract

We report here for the first time, the predation of coffee berry borer (CBB) Hypothenemus hampei (Ferrari) by a green lacewing species, Chrysoperla externa (Hagen). We showed in laboratory the predator ability to access CBB galleries, remove pest immature stages, and prey on them. We also observed predation by third instar larvae on CBB adults. With this note, we add a new predator to the reported list of species still little explored of CBB control., (© 2021. Sociedade Entomológica do Brasil.)

Published
2022
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43. Toxicity of Varronia curassavica Jacq. Essential Oil to Two Arthropod Pests and Their Natural Enemy.

Author

Andrade FP, Venzon M, das Dôres RGR, Franzin ML, Martins EF, de Araújo GJ, and Fonseca MCM

Subjects
Animals, Female, Pest Control, Biological, Predatory Behavior, Aphids, Magnoliopsida chemistry, Neoptera, Oils, Volatile toxicity, Tetranychidae
Abstract

This study aimed to evaluate the toxicity of the Varronia curassavica Jacq. essential oil to two cosmopolitan and polyphagous pest species, the two-spotted spider mite (Tetranychus urticae Koch) and the green aphid (Myzus persicae Sulzer). Additionally, we tested the essential oil toxicity to a generalist predatory insect, the green lacewing Ceraeochrysa cubana Hagen. The treatments consisted of four essential oil concentrations (0.25, 0.5, 0.75 and 1.0%) and one control (Tween® 80 + water). At 0.75% concentration, the V. curassavica essential oil caused the highest mortalities for both pests. The concentration of 1.0% of the essential oil interfered mainly in the rates of oviposition and egg hatching and caused a decrease in the instantaneous population growth rate (r i ) of T. urticae. Survival of the C. cubana was not affected by the highest tested concentration of the essential oil (1%). Tested concentrations V. curassavica essential oil were toxic to T. urticae and M. persicae, but not to the predator C. cubana., (© 2021. Sociedade Entomológica do Brasil.)

Published
2021
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44. Gut microbiome dysbiosis during COVID-19 is associated with increased risk for bacteremia and microbial translocation.

Author

Venzon M, Bernard-Raichon L, Klein J, Axelrad JE, Hussey GA, Sullivan AP, Casanovas-Massana A, Noval MG, Valero-Jimenez AM, Gago J, Wilder E, Thorpe LE, Littman DR, Dittmann M, Stapleford KA, Shopsin B, Torres VJ, Ko AI, Iwasaki A, Cadwell K, and Schluter J

Abstract

The microbial populations in the gut microbiome have recently been associated with COVID-19 disease severity. However, a causal impact of the gut microbiome on COVID-19 patient health has not been established. Here we provide evidence that gut microbiome dysbiosis is associated with translocation of bacteria into the blood during COVID-19, causing life-threatening secondary infections. Antibiotics and other treatments during COVID-19 can potentially confound microbiome associations. We therefore first demonstrate that the gut microbiome is directly affected by SARS-CoV-2 infection in a dose-dependent manner in a mouse model, causally linking viral infection and gut microbiome dysbiosis. Comparison with stool samples collected from 97 COVID-19 patients at two different clinical sites also revealed substantial gut microbiome dysbiosis, paralleling our observations in the animal model. Specifically, we observed blooms of opportunistic pathogenic bacterial genera known to include antimicrobial-resistant species in hospitalized COVID-19 patients. Analysis of blood culture results testing for secondary microbial bloodstream infections with paired microbiome data obtained from these patients suggest that bacteria translocate from the gut into the systemic circulation of COVID-19 patients. These results are consistent with a direct role for gut microbiome dysbiosis in enabling dangerous secondary infections during COVID 19.

Published
2021
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45. Effects of lime sulfur on Neoseiulus californicus and Phytoseiulus macropilis, two naturally occurring enemies of the two-spotted spider mite Tetranychus urticae.

Author

Vacacela Ajila HE, Oliveira EE, Lemos F, Haddi K, Colares F, Marques Gonçalves PH, Venzon M, and Pallini A

Subjects
Animals, Calcium Compounds, Female, Pest Control, Biological, Predatory Behavior, Sulfides, Fragaria, Tetranychidae
Abstract

Background: The application of lime sulfur is a common practice used to control arthropod pests in organic production of fruits. However, the unintended effects of this insecticide preparation on non-targeted organisms have not received the adequate attention. Here, we evaluated the lime sulfur toxicity on the phytophagous mites Tetranychus urticae Koch (Acari: Tetranychidae) and on two predatory mite species [i.e., Neoseiulus californicus (McGregor) and Phytoseiulus macropilis (Banks)] (Acari: Phytoseiidae) of natural occurrence in strawberry plants. We also assessed the repellency and potential effects on the oviposition rates and the egg viability of mites that were exposed to field-used lime sulfur concentrations (i.e., 2%)., Results: The lime sulfur exhibited higher toxicity to the predators N. californicus (LC 50 = 5.4 [4.5%-6.8%]) and P. macropilis (LC 50 = 5.0 [4.0%-6.5%]) than to the phytophagous T. urticae (LC 50 = 12.4 [9.0%-17.1%]). However, the exposure to field-applied concentrations resulted in higher reductions on the oviposition rate of T. urticae (36%) than on the predatory mites (N. californicus = 18%. P. macropilis = 19%). Interestingly, although the egg viability of P. macropilis was less affected (i.e., reduction of 50%) by such lime sulfur exposures, these mites were unable to avoid lime sulfur-treated areas. Egg viability of N. californicus was only 18.6%., Conclusion: Lime sulfur at field-applied concentrations harmed T. urticae fecundity and fertility and it showed selectivity against naturally occurring predatory mites, which reinforces its potential as a tool for integrated mite pest management. © 2019 Society of Chemical Industry., (© 2019 Society of Chemical Industry.)

Published
2020
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46. IFN-I and IL-22 mediate protective effects of intestinal viral infection.

Author

Neil JA, Matsuzawa-Ishimoto Y, Kernbauer-Hölzl E, Schuster SL, Sota S, Venzon M, Dallari S, Galvao Neto A, Hine A, Hudesman D, Loke P, Nice TJ, and Cadwell K

Subjects
Animals, Anti-Bacterial Agents toxicity, Cell Proliferation, Citrobacter rodentium physiology, Colon cytology, Colon immunology, Colon metabolism, Colon virology, Dextran Sulfate toxicity, Enterobacteriaceae Infections prevention & control, Interleukins genetics, Intestinal Mucosa cytology, Intestinal Mucosa drug effects, Intestinal Mucosa immunology, Intestinal Mucosa metabolism, Intestines cytology, Intestines drug effects, Lymphocytes cytology, Lymphocytes metabolism, Mice, Inbred C57BL, Mice, Mutant Strains, Mutation, Norovirus immunology, Norovirus physiology, Signal Transduction genetics, Specific Pathogen-Free Organisms, Viral Nonstructural Proteins genetics, Virus Replication, Interleukin-22, Gastrointestinal Microbiome immunology, Interferon Type I metabolism, Interleukins metabolism, Intestines immunology, Intestines virology
Abstract

Products derived from bacterial members of the gut microbiota evoke immune signalling pathways of the host that promote immunity and barrier function in the intestine. How immune reactions to enteric viruses support intestinal homeostasis is unknown. We recently demonstrated that infection by murine norovirus (MNV) reverses intestinal abnormalities following depletion of bacteria, indicating that an intestinal animal virus can provide cues to the host that are typically attributed to the microbiota. Here, we elucidate mechanisms by which MNV evokes protective responses from the host. We identify an important role for the viral protein NS1/2 in establishing local replication and a type I interferon (IFN-I) response in the colon. We further show that IFN-I acts on intestinal epithelial cells to increase the proportion of CCR2-dependent macrophages and interleukin (IL)-22-producing innate lymphoid cells, which in turn promote pSTAT3 signalling in intestinal epithelial cells and protection from intestinal injury. In addition, we demonstrate that MNV provides a striking IL-22-dependent protection against early-life lethal infection by Citrobacter rodentium. These findings demonstrate novel ways in which a viral member of the microbiota fortifies the intestinal barrier during chemical injury and infectious challenges.

Published
2019
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47. Supplementary food for Neoseiulus californicus boosts biological control of Tetranychus urticae on strawberry.

Author

Vacacela Ajila HE, Colares F, Lemos F, Marques PH, Franklin EC, Santos do Vale W, Oliveira EE, Venzon M, and Pallini A

Subjects
Animals, Arecaceae, Diet veterinary, Fragaria, Mites growth & development, Pollen, Reproduction physiology, Typhaceae, Mites physiology, Pest Control, Biological methods, Predatory Behavior, Tetranychidae
Abstract

Background: A wide range of supplementary food resources can be offered to generalist predatory mites to improve their survival and reproduction and enhance their persistence in the environment. We investigated the relative suitability of different pollen types for the survival and reproduction of Neoseiulus californicus and its life history on a mixed diet of pollen and prey. We also evaluated the population dynamics of Tetranychus urticae in the presence of N. californicus with or without pollen, and in comparison to Phytoseiulus macropilis., Results: Survival and reproduction of N. californicus adults were satisfactory on exclusive diets of T. urticae, cattail pollen, palm pollen and bee pollen. However, mites did not reproduce when fed only pollen during both immature and adult stages. Both predatory mites successfully controlled T. urticae. Although the specialist P. macropilis was more efficient in suppressing the pest population in the short term, it abandoned plants at low prey densities, whereas N. californicus performed better and persisted longer under prey scarcity., Conclusion: N. californicus is an efficient biological control agent of T. urticae and the provision of supplementary food could retain them in the crop prior to the arrival of the pest or in periods of prey scarcity. © 2019 Society of Chemical Industry., (© 2019 Society of Chemical Industry.)

Published
2019
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48. Reciprocal intraguild predation and predator coexistence.

Author

Marques RV, Sarmento RA, Oliveira AG, Rodrigues DM, Venzon M, Pedro-Neto M, Pallini A, and Janssen A

Abstract

Intraguild predation is a mix of competition and predation and occurs when one species feeds on another species that uses similar resources. Theory predicts that intraguild predation hampers coexistence of species involved, but it is common in nature. It has been suggested that increasing habitat complexity and the presence of alternative food may promote coexistence. Reciprocal intraguild predation limits possibilities for coexistence even further. Habitat complexity and the presence of alternative food are believed to promote coexistence. We investigated this using two species of predatory mites, Iphiseiodes zuluagai and Euseius concordis , by assessing co-occurrence in the field and on arenas differing in spatial structure in the laboratory. The predators co-occured on the same plants in the field. In the laboratory, adults of the two mites fed on juveniles of the other species, both in the presence and the absence of a shared food source, showing that the two species are involved in reciprocal intraguild predation. Adults of I. zuluagai also attacked adults of E. concordis . This suggests limited possibilities for coexistence of the two species. Indeed, E. concordis invariably went extinct extremely rapidly on arenas without spatial structure with populations consisting of all stages of the two predators and with a shared resource. Coexistence was prolonged on host plant leaves with extra food sources, but E. concordis still went extinct. On small, intact plants, coexistence of the two species was much longer, and ended with the other species, I. zuluagai , often going extinct. These results suggest that spatial structure and the presence of alternative food increase the coexistence period of intraguild predators.

Published
2018
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49. Ricoseius loxocheles (Acari: Phytoseiidae) is not a predator of false spider mite on coffee crops: What does it eat?

Author

Vacacela Ajila HE, Ferreira JAM, Colares F, Oliveira CM, Bernardo AMG, Venzon M, and Pallini A

Subjects
Animals, Diet, Female, Fungi, Larva growth & development, Larva physiology, Longevity, Mites growth & development, Pollen, Reproduction, Food Chain, Mites physiology
Abstract

Ricoseius loxocheles (De Leon) (Acari: Phytoseiidae) is often found in coffee crops and is known to feed on coffee leaf rust, Hemileia vastatrix Berkeley and Broome (Uredinales). As the occurrence of coffee leaf rust is limited primarily to the rainy season, the mite may use other food sources to survive during the periods of low pathogen prevalence. It is well known that phytoseiid mites can survive on a variety of food sources, such as herbivorous mites, fungi and pollen. We evaluated the ability of R. loxocheles to survive and reproduce on a diet of Brevipalpus phoenicis Geijskes (Acari: Tenuipalpidae), cattail pollen (Typha spp.), clover rust (Puccinia oxalidis), bee pollen (Santa Bárbara ® dehydrated pollen, Santa Bárbara, MG, Brazil) and coffee leaf rust. Ricoseius loxocheles did not survive or reproduce on any B. phoenicis stages tested (egg, larva, adult). The survival and oviposition of R. loxocheles were directly affected by the presence of coffee rust urediniospores, but not by the presence of the prey. Survival and oviposition of the phytoseiid were similar when fed cattail pollen, clover rust and coffee leaf rust but was lower when fed bee pollen. Our results show that R. loxocheles is not a predator of B. phoenicis but it is able to utilize other resources besides coffee leaf rust.

Published
2018
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50. Diversification in vipers: Phylogenetic relationships, time of divergence and shifts in speciation rates.

Author

Alencar LRV, Quental TB, Grazziotin FG, Alfaro ML, Martins M, Venzon M, and Zaher H

Subjects
Animals, Asia, Calibration, Extinction, Biological, Fossils, Species Specificity, Time Factors, Genetic Speciation, Genetic Variation, Phylogeny, Viperidae classification
Abstract

Snakes of the cosmopolitan family Viperidae comprise around 329 venomous species showing a striking heterogeneity in species richness among lineages. While the subfamily Azemiopinae comprises only two species, 70% of all viper species are arranged in the subfamily Crotalinae or the "pit vipers". The radiation of the pit vipers was marked by the evolution of the heat-sensing pits, which has been suggested to be a key innovation for the successful diversification of the group. Additionally, only crotalines were able to successfully colonize the New World. Here, we present the most complete molecular phylogeny for the family to date that comprises sequences from nuclear and mitochondrial genes representing 79% of all living vipers. We also investigated the time of divergence between lineages, using six fossils to calibrate the tree, and explored the hypothesis that crotalines have undergone an explosive radiation. Our phylogenetic analyses retrieved high support values for the monophyly of the family Viperidae, subfamilies Viperinae and Crotalinae, and 22 out of 27 genera, as well as well-supported intergeneric relationships throughout the family. We were able to recover a strongly supported sister clade to the New World pit vipers that comprises Gloydius, Ovophis, Protobothrops and Trimeresurus gracilis. Our results agree in many aspects with other studies focusing on the phylogenetics of vipers, but we recover new relationships as well. Despite the addition of new sequences we were not able to resolve some of the poor supported relationships previously suggested. Time of divergence estimates suggested that vipers started to radiate around the late Paleocene to middle Eocene with subfamilies most likely dating back to the Eocene. The invasion of the New World might have taken place sometime close to the Oligocene/Miocene boundary. Diversification analyses suggested a shift in speciation rates during the radiation of a sub-clade of pit vipers where speciation rates rapidly increased but slowed down toward the present. Thus, the evolution of the loreal pits alone does not seem to explain their explosive speciation rates. We suggest that climatic and geological changes in Asia and the invasion of the New World may have also contributed to the speciation shift found in vipers., (Copyright © 2016 Elsevier Inc. All rights reserved.)

Published
2016
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