34 results on '"REVERCHON F"'
Search Results
2. Soil Chemical Properties and Biological Processes Under Pine Trees With and Without Dendroctonus Bark Beetle Infestation.
- Author
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Vázquez-Ochoa, F, Reverchon, F, Sánchez-Velásquez, L. R., Ruíz-Montiel, C, and Pineda-López, M. R.
- Subjects
- *
BARK beetles , *CHEMICAL properties , *PINE , *CHEMICAL processes , *TREES - Abstract
Pine forests are highly appreciated for the ecosystem services and raw materials they provide to society. However, insect pests are a constant threat. Bark beetles of the genus Dendroctonus are responsible for the high mortality that prevails in pine forests. Studies suggest that their presence can be related to changes in physicochemical and biological soil's properties. The question is: How do the chemical properties of the soil and the biological processes change in pine trees with and without Dendroctonus? We analyze variables such as pH, nitrogen reserves (N), total carbon (C), C/N ratio, cation exchange capacity (CEC), and macronutrient concentrations in soils under Pinus montezumae Lamb infested with Dendroctonus spp. and under healthy trees (same specie), as a control. The trees were grouped into three categories, according to the number of Dendroctonus resin's lumps they presented. The functional diversity of soil bacteria was evaluated with Shannon-Weiner index. Significant differences were found in the contents of Ca, ammonium (NH4), and iron (Fe), they decrease while the frequency of lumps increases. The functional diversity of soil bacteria was higher in soils under asymptomatic pines. Taken together, our results show that Dendroctonus may be related to biological processes instead of chemical soil variables. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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3. International Conference : global soil change : program and abstracts
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Reverchon, F., Prat, Christian, and Bravo, M.
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EROSION ,ROCHE VOLCANIQUE ,SOL DEGRADE ,INTENSIFICATION DE L'AGRICULTURE - Published
- 2005
4. Biocontrol and plant growth promoting traits of two avocado rhizobacteria are orchestrated by the emission of diffusible and volatile compounds.
- Author
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Cortazar-Murillo EM, Méndez-Bravo A, Monribot-Villanueva JL, Garay-Serrano E, Kiel-Martínez AL, Ramírez-Vázquez M, Guevara-Avendaño E, Méndez-Bravo A, Guerrero-Analco JA, and Reverchon F
- Abstract
Avocado ( Persea americana Mill.) is a tree crop of great social and economic importance. However, the crop productivity is hindered by fast-spreading diseases, which calls for the search of new biocontrol alternatives to mitigate the impact of avocado phytopathogens. Our objectives were to evaluate the antimicrobial activity of diffusible and volatile organic compounds (VOCs) produced by two avocado rhizobacteria ( Bacillus A8a and HA) against phytopathogens Fusarium solani , Fusarium kuroshium , and Phytophthora cinnamomi , and assess their plant growth promoting effect in Arabidopsis thaliana . We found that, in vitro , VOCs emitted by both bacterial strains inhibited mycelial growth of the tested pathogens by at least 20%. Identification of bacterial VOCs by gas chromatography coupled to mass spectrometry (GC-MS) showed a predominance of ketones, alcohols and nitrogenous compounds, previously reported for their antimicrobial activity. Bacterial organic extracts obtained with ethyl acetate significantly reduced mycelial growth of F. solani , F. kuroshium , and P. cinnamomi , the highest inhibition being displayed by those from strain A8a (32, 77, and 100% inhibition, respectively). Tentative identifications carried out by liquid chromatography coupled to accurate mass spectrometry of diffusible metabolites in the bacterial extracts, evidenced the presence of some polyketides such as macrolactins and difficidin, hybrid peptides including bacillaene, and non-ribosomal peptides such as bacilysin, which have also been described in Bacillus spp. for antimicrobial activities. The plant growth regulator indole-3-acetic acid was also identified in the bacterial extracts. In vitro assays showed that VOCs from strain HA and diffusible compounds from strain A8a modified root development and increased fresh weight of A. thaliana . These compounds differentially activated several hormonal signaling pathways involved in development and defense responses in A. thaliana , such as auxin, jasmonic acid (JA) and salicylic acid (SA); genetic analyses suggested that developmental stimulation of the root system architecture by strain A8a was mediated by the auxin signaling pathway. Furthermore, both strains were able to enhance plant growth and decreased the symptoms of Fusarium wilt in A. thaliana when soil-inoculated. Collectively, our results evidence the potential of these two rhizobacterial strains and their metabolites as biocontrol agents of avocado pathogens and as biofertilizers., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Cortazar-Murillo, Méndez-Bravo, Monribot-Villanueva, Garay-Serrano, Kiel-Martínez, Ramírez-Vázquez, Guevara-Avendaño, Méndez-Bravo, Guerrero-Analco and Reverchon.)
- Published
- 2023
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5. β-N-Methyl-Amino-L-Alanine cyanotoxin promotes modification of undifferentiated cells population and disrupts the inflammatory status in primary cultures of neural stem cells.
- Author
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Méresse S, Larrigaldie V, Oummadi A, de Concini V, Morisset-Lopez S, Reverchon F, Menuet A, Montécot-Dubourg C, and Mortaud S
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- Animals, Mice, Cyanobacteria Toxins, Neurotoxins, Alanine, Amino Acids, Diamino toxicity, Neural Stem Cells
- Abstract
β-N-Methyl-Amino-L-Alanine (BMAA) produced by 95% of cyanobacteria is in constant augmentation with cyanobacteria worldwide proliferation due to global warming and eutrophication. Previously, it has been shown that this contaminant induced neurological disorders, notably by acting as a developmental toxin. However, very few studies focus on the impact of BMAA on neuroglial cells, like astrocytes and microglial cells, in a developmental context. In the present study, we investigated whether BMAA disturbs neurogenesis from mice subventricular zone (SVZ) cells and whether this neurotoxin induces neuroinflammation. We show that BMAA at 100 µM disturbs the population of undifferentiated cells (B1 and C cells) and promotes their proliferation. Further, BMAA affects the organization of neuroblasts, indicating that SVZ function could be impaired. BMAA affects neuroinflammatory processes by increasing the release of proinflammatory cytokines IL-1β, IL-6 and TNFα. Our study adds to evidence that BMAA may disturb the central nervous system homeostasis by targeting glial cells. We highlighted that BMAA may impair SVZ niches and drives astrocytes and microglial cells into a proinflammatory status, with an ameboid shape for microglia., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2022 The Authors. Published by Elsevier B.V. All rights reserved.)
- Published
- 2022
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6. Identification of Antifungal Compounds from Avocado Rhizobacteria (Bacillus spp.) against Fusarium spp., by a Bioassay-Guided Fractionation Approach.
- Author
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Guevara-Avendaño E, Lizette Pérez-Molina M, Luis Monribot-Villanueva J, Marian Cortazar-Murillo E, Ramírez-Vázquez M, Reverchon F, and Antonio Guerrero-Analco J
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- Humans, Antifungal Agents pharmacology, Antifungal Agents metabolism, Lipopeptides pharmacology, Lipopeptides analysis, Lipopeptides metabolism, Biological Assay, Plant Diseases microbiology, Fusarium metabolism, Bacillus, Persea, Biological Products metabolism
- Abstract
Antimicrobial compounds produced by bacteria have been increasingly acknowledged as an important resource for the control of phytopathogens. We used a bioassay-guided fractionation approach to identify antifungal metabolites produced by two avocado rhizobacteria (INECOL-4742 and INECOL-5927), both members of the Bacillus subtilis/B. amyloliquefaciens species complex, against Fusarium solani and F. kuroshium, causal agent of Fusarium dieback in avocado and other hosts. The butanol (BuOH) organic extract from INECOL-4742 (B1-Bu) exhibited the highest percentage of inhibition (PI) against F. solani (78.76 %), also inhibiting F. kuroshium by up to 44.30 %. Primary fractions, Bu-F3, Bu-F12 and Bu-F15, obtained by silica gel open column chromatography, exhibited the highest PI against F. solani (28.57 % to 33.50 %) and F. kuroshium (38.78 % to 45.00 %). The presence of cyclic lipopeptides from the iturin, surfactin and fengycin families in B1-Bu extracts and primary fractions was determined by UPLC-ESI-HRMS. The Confocal Laser Microscopy analysis revealed deformations in the hyphae of F. kuroshium exposed to extracts, primary fractions and C-13 surfactin chemical standard. These results emphasize the potential of natural products from Bacillus for the control of the emerging phytopathogenic fungus F. kuroshium., (© 2022 Wiley-VHCA AG, Zurich, Switzerland.)
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- 2022
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7. T Lymphocyte Serotonin 5-HT 7 Receptor Is Dysregulated in Natalizumab-Treated Multiple Sclerosis Patients.
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Reverchon F, Guillard C, Mollet L, Auzou P, Gosset D, Madouri F, Valéry A, Menuet A, Ozsancak C, Pallix-Guyot M, and Morisset-Lopez S
- Abstract
Serotonin (5-HT) is known as a potent immune cell modulator in autoimmune diseases and should be protective in the pathogenesis of multiple sclerosis (MS). Nevertheless, there is limited knowledge about receptors involved in 5-HT effects as well as induced mechanisms. Among 5-HT receptors, the 5-HT
7 receptor is able to activate naïve T cells and influence the inflammatory response; however, its involvement in the disease has never been studied so far. In this study, we collected blood sample from three groups: acute relapsing MS patients (ARMS), natalizumab-treated MS patients (NTZ), and control subjects. We investigated the 5-HT7 expression on circulating lymphocytes and evaluated the effects of its activation on cytokine production with peripheral blood mononuclear cell (PBMC) cultures. We found a significant increase in the 5-HT7 surface expression on T lymphocytes and on the different CD4+ T cell subsets exclusively in NTZ-treated patients. We also showed that the selective agonist 5-carboxamidotryptamine (5-CT)-induced 5-HT7 R activation significantly promotes the production of IL-10, a potent immunosuppressive cytokine in PBMCs. This study provides for the first time a dysregulation of 5-HT7 expression in NTZ-MS patients and its ability to promote IL-10 release, suggesting its protective role. These findings strengthen the evidence that 5-HT7 may play a role in the immuno-protective mechanisms of NTZ in MS disease and could be considered as an interesting therapeutic target in MS.- Published
- 2022
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8. Land-Use Change and Management Intensification Is Associated with Shifts in Composition of Soil Microbial Communities and Their Functional Diversity in Coffee Agroecosystems.
- Author
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Carrasco-Espinosa K, Avitia M, Barrón-Sandoval A, Abbruzzini TF, Salazar Cabrera UI, Arroyo-Lambaer D, Uscanga A, Campo J, Benítez M, Wegier A, Rosell JA, Reverchon F, Hernández G, Boege K, and Escalante AE
- Abstract
Despite the central role of microorganisms in soil fertility, little understanding exists regarding the impact of management practices and soil microbial diversity on soil processes. Strong correlations among soil microbial composition, management practices, and microbially mediated processes have been previously shown. However, limited integration of the different parameters has hindered our understanding of agroecosystem functioning. Multivariate analyses of these systems allow simultaneous evaluation of the parameters and can lead to hypotheses on the microbial groups involved in specific nutrient transformations. In the present study, using a multivariate approach, we investigated the effect of microbial composition (16SrDNA sequencing) and soil properties in carbon mineralization (C
MIN ) (BIOLOG™, Hayward, CA, USA) across different management categories on coffee agroecosystems in Mexico. Results showed that (i) changes in soil physicochemical variables were related to management, not to region, (ii) microbial composition was associated with changes in management intensity, (iii) specific bacterial groups were associated with different management categories, and (iv) there was a broader utilization range of carbon sources in non-managed plots. The identification of specific bacterial groups, management practices, and soil parameters, and their correlation with the utilization range of carbon sources, presents the possibility to experimentally test hypotheses on the interplay of all these components and further our understanding of agroecosystem functioning and sustainable management.- Published
- 2022
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9. Serodolin, a β-arrestin-biased ligand of 5-HT 7 receptor, attenuates pain-related behaviors.
- Author
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El Khamlichi C, Reverchon F, Hervouet-Coste N, Robin E, Chopin N, Deau E, Madouri F, Guimpied C, Colas C, Menuet A, Inoue A, Bojarski AJ, Guillaumet G, Suzenet F, Reiter E, and Morisset-Lopez S
- Subjects
- GTP-Binding Proteins metabolism, Humans, Ligands, Receptors, G-Protein-Coupled metabolism, Signal Transduction, beta-Arrestin 1 metabolism, beta-Arrestins metabolism, Arrestin metabolism, Pain drug therapy, Pain physiopathology, Serotonin
- Abstract
G protein–coupled receptors (GPCRs) are involved in regulation of manifold physiological processes through coupling to heterotrimeric G proteins upon ligand stimulation. Classical therapeutically active drugs simultaneously initiate several downstream signaling pathways, whereas biased ligands, which stabilize subsets of receptor conformations, elicit more selective signaling. This concept of functional selectivity of a ligand has emerged as an interesting property for the development of new therapeutic molecules. Biased ligands are expected to have superior efficacy and/or reduced side effects by regulating biological functions of GPCRs in a more precise way. In the last decade, 5-HT7 receptor (5-HT7R) has become a promising target for the treatment of neuropsychiatric disorders, sleep and circadian rhythm disorders, and pathological pain. In this study, we showed that Serodolin is unique among a number of agonists and antagonists tested: it behaves as an antagonist/inverse agonist on Gs signaling while inducing ERK activation through a β-arrestin–dependent signaling mechanism that requires c-SRC activation. Moreover, we showed that Serodolin clearly decreases hyperalgesia and pain sensation in response to inflammatory, thermal, and mechanical stimulation. This antinociceptive effect could not be observed in 5-HT7R knockout (KO) mice and was fully blocked by administration of SB269-970, a specific 5-HT7R antagonist, demonstrating the specificity of action of Serodolin. Physiological effects of 5-HT7R stimulation have been classically shown to result from Gs-dependent adenylyl cyclase activation. In this study, using a β-arrestin–biased agonist, we provided insight into the molecular mechanism triggered by 5-HT7R and revealed its therapeutic potential in the modulation of pain response.
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- 2022
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10. Effect of degradation of a black mangrove forest on seasonal greenhouse gas emissions.
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Romero-Uribe HM, López-Portillo J, Reverchon F, and Hernández ME
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- Carbon Dioxide analysis, Ecosystem, Environmental Monitoring, Forests, Greenhouse Effect, Methane analysis, Nitrous Oxide analysis, Seasons, Soil, Wetlands, Avicennia, Greenhouse Gases analysis
- Abstract
Mangroves play an essential role in the global carbon cycle. However, they are highly vulnerable to degradation with little-known effects on greenhouse gas (GHG) emissions. This study compared seasonal soil carbon dioxide (CO
2 ), methane (CH4 ), and nitrous oxide (N2 O) fluxes from a black mangrove (Avicennia germinans) forest in the Tampamachoco coastal lagoon, Veracruz, Mexico, in areas subjected to different degrees of environmental degradation (full canopy, transitional and dead mangrove), caused by hydrological perturbation. Furthermore, we aimed at determining the environmental factors driving seasonal fluxes. There was a combined effect of seasonality and degradation on CH4 fluxes, highest during the rainy season in the dead mangrove (0.93 ± 0.18 mg CH4 m-2 h-1 ). CO2 fluxes were highest during the dry season (220 ± 23 mg CO2 m-2 h-1 ), with no significant differences among degradation levels. N2 O fluxes did not vary among seasons or degradation levels (- 3.8 to 2.9 mg N2 O m-2 h-1 ). The overall CO2 -eq emission rate was 15.3 ± 2.7 Mg CO2 -eq ha-1 year-1 , with CO2 as the main gas contributing to total emissions. The main factors controlling CH4 fluxes were seasonal porewater salinity and the availability of NO2 - , NO3 - , and SO4 -2 in the soil, favored by high water level and temperature in the absence of pneumatophores. The main determining factors controlling CO2 fluxes were water level, porewater redox potential, and soil Cl- and SO4 -2 concentration. Finally, N2 O fluxes were related to NO2 - , NO3 - , and SO4 -2 soil concentrations. This study contributes to improving the knowledge of soil GHG fluxes dynamics in mangroves and the effect of degradation of these ecosystems on the coastal biogeochemical cycles, which may bring important insights for assessing accurate ways to mitigate climate change protecting and restoring these ecosystems., (© 2021. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)- Published
- 2022
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11. LentiRILES, a miRNA-ON sensor system for monitoring the functionality of miRNA in cancer biology and therapy.
- Author
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Simion V, Loussouarn C, Laurent Y, Roncali L, Gosset D, Reverchon F, Rousseau A, Martin F, Midoux P, Pichon C, Garcion E, and Baril P
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- Animals, Apoptosis, Biomarkers, Tumor metabolism, Cell Cycle, Cell Movement, Cell Proliferation, Female, Glioblastoma genetics, Glioblastoma metabolism, Humans, Luminescent Measurements, Male, Mice, Mice, SCID, MicroRNAs genetics, MicroRNAs metabolism, Middle Aged, Tumor Cells, Cultured, Biomarkers, Tumor genetics, Biosensing Techniques methods, Gene Expression Regulation, Neoplastic, Genes, Reporter, Glioblastoma pathology, Lentivirus genetics, MicroRNAs analysis
- Abstract
A major unresolved challenge in miRNA biology is the capacity to monitor the spatiotemporal activity of miRNAs expressed in animal disease models. We recently reported that the miRNA-ON monitoring system called RILES (RNAi-inducible expression Luciferase system) implanted in lentivirus expression system (LentiRILES) offers unique opportunity to decipher the kinetics of miRNA activity in vitro , in relation with their intracellular trafficking in glioblastoma cells. In this study, we describe in detail the method for the production of LentiRILES stable cell lines and employed it in several applications in the field of miRNA biology and therapy. We show that LentiRILES is a robust, highly specific and sensitive miRNA sensor system that can be used in vitro as a single-cell miRNA monitoring method, cell-based screening platform for miRNA therapeutics and as a tool to analyse the structure-function relationship of the miRNA duplex. Furthermore, we report the kinetics of miRNA activity upon the intracranial delivery of miRNA mimics in an orthotopic animal model of glioblastoma. This information is exploited to evaluate the tumour suppressive function of miRNA-200c as locoregional therapeutic modality to treat glioblastoma. Our data provide evidence that LentiRILES is a robust system, well suited to resolve the activity of endogenous and exogenously expressed miRNAs from basic research to gene and cell therapy.
- Published
- 2021
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12. Barks from avocado trees of different geographic locations have consistent microbial communities.
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Aguirre-von-Wobeser E, Alonso-Sánchez A, Méndez-Bravo A, Villanueva Espino LA, and Reverchon F
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- Archaea genetics, Bacteria genetics, Fungi genetics, Fungi physiology, Metagenomics, Soil Microbiology, Biodiversity, Microbiota genetics, Microbiota physiology, Persea microbiology, Plant Bark microbiology
- Abstract
Bark is a permanent surface for microbial colonization at the interface of trees and the surrounding air, but little is known about its microbial communities. We used shotgun metagenomic sequencing to analyze the bark microbiomes of avocado trees from two orchards, and compared one of them to rhizospheric soil. It was shown that the microbial communities of avocado bark have a well-defined taxonomic structure, with consistent patterns of abundance of bacteria, fungi, and archaea, even in trees from two different locations. Bark microbial communities were distinct from rhizospheric soil, although they showed overlap in some taxa. Thus, avocado bark is a well-defined environment, providing niches for specific taxonomic groups, many of which are also found in other aerial plant tissues. The present in-depth characterization of bark microbial communities can form a basis for their future manipulation for agronomical purposes., (© 2021. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)
- Published
- 2021
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13. Shifts in soil and plant functional diversity along an altitudinal gradient in the French Alps.
- Author
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Stokes A, Angeles G, Anthelme F, Aranda-Delgado E, Barois I, Bounous M, Cruz-Maldonado N, Decaëns T, Fourtier S, Freschet GT, Gabriac Q, Hernández-Cáceres D, Jiménez L, Ma J, Mao Z, Marín-Castro BE, Merino-Martín L, Mohamed A, Piedallu C, Pimentel-Reyes C, Reijnen H, Reverchon F, Rey H, Selli L, Siebe-Grabach CD, Sieron K, Weemstra M, and Roumet C
- Subjects
- France, Mexico, Plants, Soil Microbiology, Ecosystem, Soil
- Abstract
Objectives: Altitude integrates changes in environmental conditions that determine shifts in vegetation, including temperature, precipitation, solar radiation and edaphogenetic processes. In turn, vegetation alters soil biophysical properties through litter input, root growth, microbial and macrofaunal interactions. The belowground traits of plant communities modify soil processes in different ways, but it is not known how root traits influence soil biota at the community level. We collected data to investigate how elevation affects belowground community traits and soil microbial and faunal communities. This dataset comprises data from a temperate climate in France and a twin study was performed in a tropical zone in Mexico., Data Description: The paper describes soil physical and chemical properties, climatic variables, plant community composition and species abundance, plant community traits, soil microbial functional diversity and macrofaunal abundance and diversity. Data are provided for six elevations (1400-2400 m) ranging from montane forest to alpine prairie. We focused on soil biophysical properties beneath three dominant plant species that structure local vegetation. These data are useful for understanding how shifts in vegetation communities affect belowground processes, such as water infiltration, soil aggregation and carbon storage. Data will also help researchers understand how plant communities adjust to a changing climate/environment.
- Published
- 2021
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14. Soil-plant nitrogen isotope composition and nitrogen cycling after biochar applications.
- Author
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Asadyar L, Xu CY, Wallace HM, Xu Z, Reverchon F, and Bai SH
- Subjects
- Nitrogen analysis, Nitrogen Isotopes, Charcoal, Soil
- Abstract
Biochar has strong potential to improve nitrogen (N) use efficiency in both agricultural and horticultural systems. Biochar is usually co-applied with full rates of fertiliser. However, the extent to which N cycling can be affected after biochar application to meet plant N requirement remains uncertain. This study aimed to explore N cycling up to 2 years after biochar application. We applied pine woodchip biochar at 0, 10 and 30 t ha
-1 (B0, B10, B30, respectively) in a macadamia orchard and evaluated the N isotope composition (δ15 N) of soil, microbial biomass and macadamia leaves. Soil total N (TN) and inorganic N pools were also measured up to 2 years after biochar application. Biochar did not alter soil TN but soil NO3 - -N increased at months 12 and 24 after biochar application. Soil NO3 - -N concentrations were always over ideal levels of 15 μg g-1 in B30 throughout the study. Stepwise regression indicated that foliar δ15 N decreases after biochar application were explained by increased NO3 - -N concentrations in B30. Foliar TN and photosynthesis were not affected by biochar application. The soil in the high rate biochar plots had excess NO3 - -N concentrations (over 30 μg g-1 ) from month 20 onwards. Therefore, N fertiliser applications could be adjusted to prevent excessive N inputs and increase farm profitability.- Published
- 2021
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15. Phytophthora Root Rot Modifies the Composition of the Avocado Rhizosphere Microbiome and Increases the Abundance of Opportunistic Fungal Pathogens.
- Author
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Solís-García IA, Ceballos-Luna O, Cortazar-Murillo EM, Desgarennes D, Garay-Serrano E, Patiño-Conde V, Guevara-Avendaño E, Méndez-Bravo A, and Reverchon F
- Abstract
The structure and function of rhizosphere microbial communities are affected by the plant health status. In this study, we investigated the effect of root rot on the avocado rhizosphere microbiome, using 16S rDNA and ITS sequencing. Furthermore, we isolated potential fungal pathogens associated with root rot symptoms and assessed their pathogenic activity on avocado. We found that root rot did not affect species richness, diversity or community structure, but induced changes in the relative abundance of several microbial taxa. Root rot increased the proportion of Pseudomonadales and Burkholderiales in the rhizosphere but reduced that of Actinobacteria, Bacillus spp. and Rhizobiales. An increase in putative opportunistic fungal pathogens was also detected in the roots of symptomatic trees; the potential pathogenicity of Mortierella sp., Fusarium spp., Lasiodiplodia sp. and Scytalidium sp., is reported for the first time for the State of Veracruz, Mexico. Root rot also potentially modified the predicted functions carried out by rhizobacteria, reducing the proportion of categories linked with the lipid and amino-acid metabolisms whilst promoting those associated with quorum sensing, virulence, and antibiotic resistance. Altogether, our results could help identifying microbial taxa associated to the disease causal agents and direct the selection of plant growth-promoting bacteria for the development of biocontrol microbial consortia., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Solís-García, Ceballos-Luna, Cortazar-Murillo, Desgarennes, Garay-Serrano, Patiño-Conde, Guevara-Avendaño, Méndez-Bravo and Reverchon.)
- Published
- 2021
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16. Belowground impacts of alpine woody encroachment are determined by plant traits, local climate, and soil conditions.
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Collins CG, Spasojevic MJ, Alados CL, Aronson EL, Benavides JC, Cannone N, Caviezel C, Grau O, Guo H, Kudo G, Kuhn NJ, Müllerová J, Phillips ML, Pombubpa N, Reverchon F, Shulman HB, Stajich JE, Stokes A, Weber SE, and Diez JM
- Subjects
- Climate, Nitrogen analysis, Plants, Ecosystem, Soil
- Abstract
Global climate and land use change are causing woody plant encroachment in arctic, alpine, and arid/semi-arid ecosystems around the world, yet our understanding of the belowground impacts of this phenomenon is limited. We conducted a globally distributed field study of 13 alpine sites across four continents undergoing woody plant encroachment and sampled soils from both woody encroached and nearby herbaceous plant community types. We found that woody plant encroachment influenced soil microbial richness and community composition across sites based on multiple factors including woody plant traits, site level climate, and abiotic soil conditions. In particular, root symbiont type was a key determinant of belowground effects, as Nitrogen-fixing woody plants had higher soil fungal richness, while Ecto/Ericoid mycorrhizal species had higher soil bacterial richness and symbiont types had distinct soil microbial community composition. Woody plant leaf traits indirectly influenced soil microbes through their impact on soil abiotic conditions, primarily soil pH and C:N ratios. Finally, site-level climate affected the overall magnitude and direction of woody plant influence, as soil fungal and bacterial richness were either higher or lower in woody encroached versus herbaceous soils depending on mean annual temperature and precipitation. All together, these results document global impacts of woody plant encroachment on soil microbial communities, but highlight that multiple biotic and abiotic pathways must be considered to scale up globally from site- and species-level patterns. Considering both the aboveground and belowground effects of woody encroachment will be critical to predict future changes in alpine ecosystem structure and function and subsequent feedbacks to the global climate system., (© 2020 John Wiley & Sons Ltd.)
- Published
- 2020
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17. LINGO family receptors are differentially expressed in the mouse brain and form native multimeric complexes.
- Author
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Guillemain A, Laouarem Y, Cobret L, Štefok D, Chen W, Bloch S, Zahaf A, Blot L, Reverchon F, Normand T, Decoville M, Grillon C, Traiffort E, and Morisset-Lopez S
- Subjects
- Animals, HEK293 Cells, Humans, Membrane Proteins genetics, Mice, Nerve Tissue Proteins genetics, Protein Binding, Brain metabolism, Membrane Proteins metabolism, Nerve Tissue Proteins metabolism, Protein Multimerization
- Abstract
Leucine-rich repeat and immunoglobin-domain containing (LRRIG) proteins that are commonly involved in protein-protein interactions play important roles in nervous system development and maintenance. LINGO-1, one of this family members, is characterized as a negative regulator of neuronal survival, axonal regeneration, and oligodendrocyte precursor cell (OPC) differentiation into mature myelinating oligodendrocytes. Three LINGO-1 homologs named LINGO-2, LINGO-3, and LINGO-4 have been described. However, their relative expression and functions remain unexplored. Here, we show by in situ hybridization and quantitative polymerase chain reaction that the transcripts of LINGO homologs are differentially expressed in the central nervous system. The immunostaining of brain slices confirmed this observation and showed the co-expression of LINGO-1 with its homologs. Using BRET (bioluminescence resonance energy transfer) analysis, we demonstrate that LINGO proteins can physically interact with each of the other ones with comparable affinities and thus form the oligomeric states. Furthermore, co-immunoprecipitation experiments indicate that LINGO proteins form heterocomplexes in both heterologous systems and cortical neurons. Since LINGO-1 is a promising target for the treatment of demyelinating diseases, its ability to form heteromeric complexes reveals a new level of complexity in its functioning and opens the way for new strategies to achieve diverse and nuanced LINGO-1 regulation., (© 2020 Federation of American Societies for Experimental Biology.)
- Published
- 2020
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18. Hippocampal interleukin-33 mediates neuroinflammation-induced cognitive impairments.
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Reverchon F, de Concini V, Larrigaldie V, Benmerzoug S, Briault S, Togbé D, Ryffel B, Quesniaux VFJ, and Menuet A
- Subjects
- Animals, Cognitive Dysfunction etiology, Hippocampus drug effects, Inflammation complications, Mice, Mice, Knockout, Microglia drug effects, Microglia metabolism, Minocycline pharmacology, Spatial Memory drug effects, Spatial Memory physiology, Cognitive Dysfunction metabolism, Hippocampus metabolism, Inflammation metabolism, Interleukin-33 pharmacology
- Abstract
Background: Interleukin (IL)-33 is expressed in a healthy brain and plays a pivotal role in several neuropathologies, as protective or contributing to the development of cerebral diseases associated with cognitive impairments. However, the role of IL-33 in the brain is poorly understood, raising the question of its involvement in immunoregulatory mechanisms., Methods: We administered recombinant IL-33 (rmIL-33) by intra-hippocampal injection to C57BL/6 J (WT) and IL-1αβ deficient mice. Chronic minocycline administration was performed and cognitive functions were examined trough spatial habituation test. Hippocampal inflammatory responses were investigated by RT-qPCR. The microglia activation was assessed using immunohistological staining and fluorescence-activated cell sorting (FACS)., Results: We showed that IL-33 administration in mice led to a spatial memory performance defect associated with an increase of inflammatory markers in the hippocampus while minocycline administration limited the inflammatory response. Quantitative assessment of glial cell activation in situ demonstrated an increase of proximal intersections per radius in each part of the hippocampus. Moreover, rmIL-33 significantly promoted the outgrowth of microglial processes. Fluorescence-activated cell sorting analysis on isolated microglia, revealed overexpression of IL-1β, 48 h post-rmIL-33 administration. This microglial reactivity was closely related to the onset of cognitive disturbance. Finally, we demonstrated that IL-1αβ deficient mice were resistant to cognitive disorders after intra-hippocampal IL-33 injection., Conclusion: Thus, hippocampal IL-33 induced an inflammatory state, including IL-1β overexpression by microglia cells, being causative of the cognitive impairment. These results highlight the pathological role for IL-33 in the central nervous system, independently of a specific neuropathological model.
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- 2020
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19. Diffusible and volatile organic compounds produced by avocado rhizobacteria exhibit antifungal effects against Fusarium kuroshium.
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Guevara-Avendaño E, Bravo-Castillo KR, Monribot-Villanueva JL, Kiel-Martínez AL, Ramírez-Vázquez M, Guerrero-Analco JA, and Reverchon F
- Subjects
- Antibiosis, Antifungal Agents chemistry, Antifungal Agents metabolism, Bacillus isolation & purification, Bacillus metabolism, Fusarium growth & development, Lipopeptides chemistry, Lipopeptides metabolism, Lipopeptides pharmacology, Mycelium drug effects, Mycelium growth & development, Plant Diseases microbiology, Plant Diseases prevention & control, Soil Microbiology, Volatile Organic Compounds chemistry, Volatile Organic Compounds metabolism, Antifungal Agents pharmacology, Fusarium drug effects, Persea microbiology, Volatile Organic Compounds pharmacology
- Abstract
Rhizobacteria emit bioactive metabolites with antifungal properties that could be used for biocontrol of fungal diseases. In this study, we evaluated the potential of diffusible and volatile organic compounds (VOCs) emitted by avocado rhizobacteria to inhibit the growth of Fusarium kuroshium, one of the causal agents of Fusarium dieback (FD) in avocado. Three bacterial isolates (INECOL-6004, INECOL-6005, and INECOL-6006), belonging to the Bacillus genus, were selected based on their capacity to inhibit several avocado fungal pathogens, and tested in antagonism assays against F. kuroshium. The three bacterial isolates significantly inhibited F. kuroshium mycelial growth by up to 48%. The composition of bacterial diffusible compounds was characterized by the analysis of EtOAc and n-BuOH extracts by using ultra-performance liquid chromatography (UPLC) coupled to high-resolution mass spectrometry (HRMS). The three bacterial isolates produced cyclo-lipopeptides belonging to the iturin, fengycin, and surfactin families. The antifungal activity of n-BuOH extracts was larger than that of EtOAc extracts, probably due to the greater relative abundance of fengycin in the former than in the latter. In addition, isolates INECOL-6004 and INECOL-6006 significantly inhibited F. kuroshium mycelial growth through VOC emission by up to 69.88%. The analysis of their VOC profiles by solid phase micro-extraction (SPME) coupled to gas chromatography and mass spectrometry (GC-MS) revealed the presence of ketones and pyrazine compounds, particularly of 2-nonanone, which was not detected in the VOC profile of isolate INECOL-6005. These results emphasize the need to further investigate the antifungal activity of each bioactive compound for the development of new formulations against fungal phytopathogens.
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- 2020
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20. Forest tree associated bacteria for potential biological control of Fusarium solani and of Fusarium kuroshium, causal agent of Fusarium dieback.
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Báez-Vallejo N, Camarena-Pozos DA, Monribot-Villanueva JL, Ramírez-Vázquez M, Carrión-Villarnovo GL, Guerrero-Analco JA, Partida-Martínez LP, and Reverchon F
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- Forests, Plant Diseases microbiology, Plant Roots microbiology, RNA, Ribosomal, 16S, Rhizosphere, Volatile Organic Compounds chemistry, Antibiosis, Antifungal Agents pharmacology, Bacteria chemistry, Biological Control Agents chemistry, Fusarium pathogenicity, Plant Diseases prevention & control, Trees microbiology
- Abstract
Although the use of crop-associated bacteria as biological control agents of fungal diseases has gained increasing interest, the biotechnological potential of forest tree-associated microbes and their natural products has scarcely been investigated. The objective of this study was to identify bacteria or bacterial products with antagonistic activity against Fusarium solani and Fusarium kuroshium, causal agent of Fusarium dieback, by screening the rhizosphere and phyllosphere of three Lauraceae species. From 195 bacterial isolates, we identified 32 isolates that significantly reduced the growth of F. solani in vitro, which mostly belonged to bacterial taxa Bacillus, Pseudomonas and Actinobacteria. The antifungal activity of their volatile organic compounds (VOCs) was also evaluated. Bacterial strain Bacillus sp. CCeRi1-002, recovered from the rhizosphere of Aiouea effusa, showed the highest percentage of direct inhibition (62.5 %) of F. solani and produced diffusible compounds that significantly reduced its mycelial growth. HPLC-MS analyses on this strain allowed to tentatively identify bioactive compounds from three lipopeptide groups (iturin, surfactin and fengycin). Bacillus sp. CCeRi1-002 and another strain identified as Pseudomonas sp. significantly inhibited F. solani mycelial growth through the emission of VOCs. Chemical analysis of their volatile profiles indicated the likely presence of 2-nonanone, 2-undecanone, disulfide dimethyl and 1-butanol 3-methyl-, which had been previously reported with antifungal activity. In antagonism assays against F. kuroshium, Bacillus sp. CCeRi1-002 and its diffusible compounds exhibited significant antifungal activity and induced hyphal deformations. Our findings highlight the importance of considering bacteria associated with forest species and the need to include bacterial products in the search for potential antagonists of Fusarium dieback., (Copyright © 2020 Elsevier GmbH. All rights reserved.)
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- 2020
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21. Antifungal potential of Lauraceae rhizobacteria from a tropical montane cloud forest against Fusarium spp.
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Reverchon F, García-Quiroz W, Guevara-Avendaño E, Solís-García IA, Ferrera-Rodríguez O, and Lorea-Hernández F
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- Antifungal Agents chemistry, Antifungal Agents metabolism, Bacteria chemistry, Bacteria classification, Bacteria isolation & purification, Fusarium growth & development, Fusarium physiology, Plant Diseases microbiology, Plant Diseases prevention & control, Soil Microbiology, Volatile Organic Compounds chemistry, Volatile Organic Compounds metabolism, Antifungal Agents pharmacology, Bacteria metabolism, Fusarium drug effects, Lauraceae microbiology, Volatile Organic Compounds pharmacology
- Abstract
The occurrence of pests and diseases can affect plant health and productivity in ecosystems that are already at risk, such as tropical montane cloud forests. The use of naturally occurring microorganisms is a promising alternative to mitigate forest tree fungal pathogens. The objectives of this study were to isolate rhizobacteria associated with five Lauraceae species from a Mexican tropical montane cloud forest and to evaluate their antifungal activity against Fusarium solani and F. oxysporum. Fifty-six rhizobacterial isolates were assessed for mycelial growth inhibition of Fusarium spp. through dual culture assays. Thirty-three isolates significantly reduced the growth of F. solani, while 21 isolates inhibited that of F. oxysporum. The nine bacterial isolates that inhibited fungal growth by more than 20% were identified through 16S rDNA gene sequence analysis; they belonged to the genera Streptomyces, Arthrobacter, Pseudomonas, and Staphylococcus. The volatile organic compounds (VOC) produced by these nine isolates were evaluated for antifungal activity. Six isolates (Streptomyces sp., Arthrobacter sp., Pseudomonas sp., and Staphylococcus spp.) successfully inhibited F. solani mycelial growth by up to 37% through VOC emission, while only the isolate INECOL-21 (Pseudomonas sp.) inhibited F. oxysporum. This work provides information on the microbiota of Mexican Lauraceae and is one of the few studies identifying forest tree-associated microbes with inhibitory activity against tree pathogens.
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- 2019
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22. Avocado rhizobacteria emit volatile organic compounds with antifungal activity against Fusarium solani, Fusarium sp. associated with Kuroshio shot hole borer, and Colletotrichum gloeosporioides.
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Guevara-Avendaño E, Bejarano-Bolívar AA, Kiel-Martínez AL, Ramírez-Vázquez M, Méndez-Bravo A, von Wobeser EA, Sánchez-Rangel D, Guerrero-Analco JA, Eskalen A, and Reverchon F
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- Animals, Antifungal Agents metabolism, Biological Control Agents metabolism, Coleoptera microbiology, Volatile Organic Compounds metabolism, Antifungal Agents pharmacology, Bacillus metabolism, Biological Control Agents pharmacology, Colletotrichum drug effects, Fusarium drug effects, Persea microbiology, Phytophthora drug effects, Pseudomonas metabolism, Volatile Organic Compounds pharmacology
- Abstract
Recent studies showed that bacterial volatile organic compounds (VOCs) play an important role in the suppression of phytopathogens. The ability of VOCs produced by avocado (Persea americana Mill.) rhizobacteria to suppress the growth of common avocado pathogens was therefore investigated. We evaluated the antifungal activity of VOCs emitted by avocado rhizobacteria in a first screening against Fusarium solani, and in subsequent antagonism assays against Fusarium sp. associated with Kuroshio shot hole borer, Colletotrichum gloeosporioides and Phytophthora cinnamomi, responsible for Fusarium dieback, anthracnosis and Phytophthora root rot in avocado, respectively. We also analyzed the composition of the bacterial volatile profiles by solid phase microextraction (SPME) gas chromatography coupled to mass spectrometry (GC-MS). Seven isolates, belonging to the bacterial genera Bacillus and Pseudomonas, reduced the mycelial growth of F. solani with inhibition percentages higher than 20%. Isolate HA, related to Bacillus amyloliquefaciens, significantly reduced the mycelial growth of Fusarium sp. and C. gloeosporioides and the mycelium density of P. cinnamomi. Isolates SO and SJJ, also members of the genus Bacillus, reduced Fusarium sp. mycelial growth and induced morphological alterations of fungal hyphae whilst isolate HB, close to B. mycoides, inhibited C. gloeosporioides. The analysis of the volatile profiles revealed the presence of ketones, pyrazines and sulfur-containing compounds, previously reported with antifungal activity. Altogether, our results support the potential of avocado rhizobacteria to act as biocontrol agents of avocado fungal pathogens and emphasize the importance of Bacillus spp. for the control of emerging avocado diseases such as Fusarium dieback., (Copyright © 2018 Elsevier GmbH. All rights reserved.)
- Published
- 2019
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23. Antifungal activity of avocado rhizobacteria against Fusarium euwallaceae and Graphium spp., associated with Euwallacea spp. nr. fornicatus, and Phytophthora cinnamomi.
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Guevara-Avendaño E, Carrillo JD, Ndinga-Muniania C, Moreno K, Méndez-Bravo A, Guerrero-Analco JA, Eskalen A, and Reverchon F
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- Animals, Antifungal Agents metabolism, Bacillus classification, Bacillus metabolism, California, Insect Vectors microbiology, Plant Diseases microbiology, Plant Roots microbiology, RNA, Ribosomal, 16S genetics, Weevils microbiology, Ascomycota physiology, Bacillus isolation & purification, Fusarium physiology, Microbial Interactions physiology, Persea microbiology, Phytophthora physiology, Rhizosphere
- Abstract
Plant rhizobacteria have been successfully used as biocontrol agents against fungal phytopathogens. However, their potential to control two important avocado diseases, namely Fusarium dieback (FD) and Phytophthora root rot (PRR), has been poorly studied. FD is an emerging disease triggered by fungi associated with two ambrosia beetle species (Euwallacea fornicatus species complex), while PRR is caused by Phytophthora cinnamomi, a soil-borne oomycete. In the present work, the antifungal activity of bacteria isolated from avocado rhizosphere was tested in dual culture assays against Fusarium euwallaceae, Graphium euwallaceae and Graphium sp., causal agents of FD, and against P. cinnamomi. In 2015, rhizosphere soil samples of FD infested and non-infested avocado trees were collected from a commercial avocado orchard in Escondido, California. In an initial screening, 72 of the 168 assessed bacterial isolates reduced mycelial growth of F. euwallaceae by up to 46%. Eight bacterial isolates showing inhibition percentages larger than 40% were then selected for further antagonism assays against the other fungal pathogens. Five bacterial isolates, determined by 16S rDNA sequencing to belong to the Bacillus subtilis/Bacillus amyloliquefaciens species complex, successfully inhibited the mycelial growth of both Graphium species by up to 30%. The same isolates and an additional isolate identified as Bacillus mycoides, inhibited the growth of P. cinnamomi by up to 25%. This is the first report of avocado rhizobacteria with antifungal activity against pathogens responsible for FD and PRR in avocado.
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- 2018
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24. Plant growth-promoting rhizobacteria associated with avocado display antagonistic activity against Phytophthora cinnamomi through volatile emissions.
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Méndez-Bravo A, Cortazar-Murillo EM, Guevara-Avendaño E, Ceballos-Luna O, Rodríguez-Haas B, Kiel-Martínez AL, Hernández-Cristóbal O, Guerrero-Analco JA, and Reverchon F
- Subjects
- Antibiosis drug effects, Persea growth & development, Plant Development drug effects, Plant Development physiology, Plant Roots drug effects, Plant Roots growth & development, Plant Roots microbiology, Rhizobiaceae metabolism, Soil chemistry, Soil Microbiology, Volatile Organic Compounds metabolism, Antibiosis physiology, Persea microbiology, Phytophthora drug effects, Rhizobiaceae physiology, Rhizosphere, Volatile Organic Compounds pharmacology
- Abstract
Rhizobacteria associated with crops constitute an important source of potentially beneficial microorganisms with plant growth promoting activity or antagonistic effects against phytopathogens. In this study, we evaluated the plant growth promoting activity of 11 bacterial isolates that were obtained from the rhizosphere of healthy avocado trees and from that of avocado trees having survived root rot infestations. Seven bacterial isolates, belonging to the genera Bacillus, Pseudomonas and Arthrobacter, promoted in vitro growth of Arabidopsis thaliana. These isolates were then tested for antagonistic activity against Phytophthora cinnamomi, in direct dual culture assays. Two of those rhizobacterial isolates, obtained from symptomatic-declining trees, displayed antagonistic activity. Isolate A8a, which is closely related to Bacillus acidiceler, was also able to inhibit P. cinnamomi growth in vitro by 76% through the production of volatile compounds. Solid phase microextraction (SPME) and analysis by gas chromatography coupled with mass spectrometry (GC-MS) allowed to tentatively identify the main volatiles emitted by isolate A8a as 2,3,5-trimethylpyrazine, 6,10-dimethyl-5,9-undecadien-2-one and 3-amino-1,3-oxazolidin-2-one. These volatile compounds have been reported to show antifungal activity when produced by other bacterial isolates. These results confirm the significance of rhizobacteria and suggest that these bacteria could be used for biocontrol of soil borne oomycetes through their volatiles emissions.
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- 2018
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25. IL-33 receptor ST2 regulates the cognitive impairments associated with experimental cerebral malaria.
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Reverchon F, Mortaud S, Sivoyon M, Maillet I, Laugeray A, Palomo J, Montécot C, Herzine A, Meme S, Meme W, Erard F, Ryffel B, Menuet A, and Quesniaux VFJ
- Subjects
- Animals, Brain parasitology, Brain physiopathology, Cognitive Dysfunction etiology, Cognitive Dysfunction genetics, Cognitive Dysfunction parasitology, Female, Humans, Interleukin-1 Receptor-Like 1 Protein genetics, Interleukin-1beta genetics, Interleukin-1beta metabolism, Interleukin-33 genetics, Malaria, Cerebral genetics, Malaria, Cerebral metabolism, Malaria, Cerebral parasitology, Male, Mice, Mice, Inbred C57BL, Plasmodium berghei genetics, Brain metabolism, Cognitive Dysfunction metabolism, Interleukin-1 Receptor-Like 1 Protein metabolism, Interleukin-33 metabolism, Malaria, Cerebral complications, Plasmodium berghei physiology
- Abstract
Cerebral malaria (CM) is associated with a high mortality rate and long-term neurocognitive impairment in survivors. The murine model of experimental cerebral malaria (ECM) induced by Plasmodium berghei ANKA (PbA)-infection reproduces several of these features. We reported recently increased levels of IL-33 protein in brain undergoing ECM and the involvement of IL-33/ST2 pathway in ECM development. Here we show that PbA-infection induced early short term and spatial memory defects, prior to blood brain barrier (BBB) disruption, in wild-type mice, while ST2-deficient mice did not develop cognitive defects. PbA-induced neuroinflammation was reduced in ST2-deficient mice with low Ifng, Tnfa, Il1b, Il6, CXCL9, CXCL10 and Cd8a expression, associated with an absence of neurogenesis defects in hippocampus. PbA-infection triggered a dramatic increase of IL-33 expression by oligodendrocytes, through ST2 pathway. In vitro, IL-33/ST2 pathway induced microglia expression of IL-1β which in turn stimulated IL-33 expression by oligodendrocytes. These results highlight the IL-33/ST2 pathway ability to orchestrate microglia and oligodendrocytes responses at an early stage of PbA-infection, with an amplification loop between IL-1β and IL-33, responsible for an exacerbated neuroinflammation context and associated neurological and cognitive defects.
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- 2017
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26. Innate myeloid cell TNFR1 mediates first line defence against primary Mycobacterium tuberculosis infection.
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Segueni N, Benmerzoug S, Rose S, Gauthier A, Bourigault ML, Reverchon F, Philippeau A, Erard F, Le Bert M, Bouscayrol H, Wachter T, Garcia I, Kollias G, Jacobs M, Ryffel B, and Quesniaux VF
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- Animals, Cytokines metabolism, Lung metabolism, Mice, Mice, Knockout, Receptors, Tumor Necrosis Factor, Type I genetics, Tuberculosis metabolism, Tuberculosis physiopathology, Bone Marrow Cells metabolism, Immunity, Innate, Mycobacterium tuberculosis pathogenicity, Receptors, Tumor Necrosis Factor, Type I physiology
- Abstract
TNF is crucial for controlling Mycobacterium tuberculosis infection and understanding how will help immunomodulating the host response. Here we assessed the contribution of TNFR1 pathway from innate myeloid versus T cells. We first established the prominent role of TNFR1 in haematopoietic cells for controlling M. tuberculosis in TNFR1 KO chimera mice. Further, absence of TNFR1 specifically on myeloid cells (M-TNFR1 KO) recapitulated the uncontrolled M. tuberculosis infection seen in fully TNFR1 deficient mice, with increased bacterial burden, exacerbated lung inflammation, and rapid death. Pulmonary IL-12p40 over-expression was attributed to a prominent CD11b(+) Gr1(high) cell population in infected M-TNFR1 KO mice. By contrast, absence of TNFR1 on T-cells did not compromise the control of M. tuberculosis infection over 6-months. Thus, the protective TNF/TNFR1 pathway essential for controlling primary M. tuberculosis infection depends on innate macrophage and neutrophil myeloid cells, while TNFR1 pathway in T cells is dispensable.
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- 2016
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27. Spinal cord oligodendrocyte-derived alarmin IL-33 mediates neuropathic pain.
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Zarpelon AC, Rodrigues FC, Lopes AH, Souza GR, Carvalho TT, Pinto LG, Xu D, Ferreira SH, Alves-Filho JC, McInnes IB, Ryffel B, Quesniaux VF, Reverchon F, Mortaud S, Menuet A, Liew FY, Cunha FQ, Cunha TM, and Verri WA Jr
- Subjects
- Animals, Astrocytes metabolism, Mice, Knockout, Microglia metabolism, Pain Threshold physiology, Phosphatidylinositol 3-Kinases metabolism, Signal Transduction genetics, Signal Transduction physiology, Spinal Cord physiopathology, Alarmins metabolism, Hyperalgesia metabolism, Interleukin-33 metabolism, Neuralgia metabolism, Oligodendroglia metabolism, Spinal Cord metabolism
- Abstract
Neuropathic pain from injury to the peripheral and CNS represents a major health care issue. We have investigated the role of IL-33/IL-33 receptor (ST2) signaling in experimental models of neuropathic pain in mice. Chronic constriction injury (CCI) of the sciatic nerve induced IL-33 production in the spinal cord. IL-33/citrine reporter mice revealed that oligodendrocytes are the main cells expressing IL-33 within the spinal cord together with a minor expression by neurons, microglia. and astrocytes. CCI-induced mechanical hyperalgesia was reduced in IL-33R (ST2)(-/ -) mice compared with wild-type (WT) mice. Intrathecal treatment of WT mice with soluble IL-33 receptor (IL-33 decoy receptor) markedly reduced CCI-induced hyperalgesia. Consistent with these observations, intrathecal injection of IL-33 enhanced CCI hyperalgesia and induced hyperalgesia in naive mice. IL-33-mediated hyperalgesia during CCI was dependent on a reciprocal relationship with TNF-α and IL-1β. IL-33-induced hyperalgesia was markedly attenuated by inhibitors of PI3K, mammalian target of rapamycin, MAPKs (p38, ERK, and JNK), NF-κB, and also by the inhibitors of glial cells (microglia and astrocytes). Furthermore, targeting these signaling pathways and cells inhibited IL-33-induced TNF-α and IL-1β production in the spinal cord. Our study, therefore, reveals an important role of oligodendrocyte-derived IL-33 in neuropathic pain., (© FASEB.)
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- 2016
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28. Tree Plantation Systems Influence Nitrogen Retention and the Abundance of Nitrogen Functional Genes in the Solomon Islands.
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Reverchon F, Bai SH, Liu X, and Blumfield TJ
- Abstract
Tree mono-plantations are susceptible to soil nutrient impoverishment and mixed species plantations have been proposed as a way of maintaining soil fertility while enhancing biodiversity. In the Solomon Islands, mixed species plantations where teak (Tectona grandis) is inter-planted with a local tree species (Flueggea flexuosa) have been used as an alternative to teak mono-plantations and are expected to increase soil microbial diversity and modify microbial biogeochemical processes. In this study, we quantified the abundance of microbial functional genes involved in the nitrogen (N) cycle from soil samples collected in teak, flueggea, and mixed species plantations. Furthermore, we measured soil properties such as pH, total carbon (C) and total N, stable N isotope composition (δ(15)N), and inorganic N pools. Soil pH and δ(15)N were higher under teak than under flueggea, which indicates that intercropping teak with flueggea may decrease bacterial activities and potential N losses. Higher C:N ratios were found under mixed species plantations than those under teak, suggesting an enhancement of N immobilization that would help preventing fast N losses. However, inorganic N pools remained unaffected by plant cover. Inter-planting teak with flueggea in mixed species plantations generally increased the relative abundance of denitrification genes and promoted the enrichment of nosZ-harboring denitrifiers. However, it reduced the abundance of bacterial amoA (ammonia monooxygenase) genes compared to teak mono-plantations. The abundance of most denitrification genes correlated with soil total N and C:N ratio, while bacterial and archeal nitrification genes correlated positively with soil NH4 (+) concentrations. Altogether, these results show that the abundance of bacterial N-cycling functional guilds vary under teak and under mixed species plantations, and that inter-planting teak with flueggea may potentially alleviate N losses associated with nitrification and denitrification and favor N retention. Mixed plantations could also allow an increase in soil C and N stocks without losing the source of income that teak trees represent for local communities.
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- 2015
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29. Critical role of IL-33 receptor ST2 in experimental cerebral malaria development.
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Palomo J, Reverchon F, Piotet J, Besnard AG, Couturier-Maillard A, Maillet I, Tefit M, Erard F, Mazier D, Ryffel B, and Quesniaux VF
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- Animals, Brain immunology, Brain parasitology, Brain pathology, CD4-Positive T-Lymphocytes immunology, CD4-Positive T-Lymphocytes pathology, CD8-Positive T-Lymphocytes immunology, CD8-Positive T-Lymphocytes pathology, Disease Models, Animal, Female, Inflammation etiology, Inflammation immunology, Inflammation pathology, Interleukin-1 Receptor-Like 1 Protein, Interleukin-33, Interleukins metabolism, Lymphocyte Activation, Malaria, Cerebral immunology, Malaria, Cerebral parasitology, Mice, Mice, Inbred C57BL, Mice, Knockout, Receptors, Interleukin deficiency, Receptors, Interleukin genetics, Malaria, Cerebral etiology, Plasmodium berghei immunology, Plasmodium berghei pathogenicity, Receptors, Interleukin metabolism
- Abstract
Cerebral malaria, a severe complication of Plasmodium falciparum infection, can be modeled in murine Plasmodium berghei ANKA (PbA) infection. PbA-induced experimental cerebral malaria (ECM) is CD8(+) T-cell mediated, and influenced by TH 1/TH 2 balance. Here, we show that IL-33 expression is increased in brain undergoing ECM and we address the role of the IL-33/ST2 pathway in ECM development. ST2-deficient mice were resistant to PbA-induced neuropathology. They survived >20 days with no ECM neurological sign and a preserved cerebral microcirculation, while WT mice succumbed within 10 days with ECM, brain vascular leakage, distinct microvascular pathology obstruction, and hemorrhages. Parasitemia and brain parasite load were similar in ST2-deficient and WT mice. Protection was accompanied by reduced brain sequestration of activated CD4(+) T cells and perforin(+) CD8(+) T cells. While IFN-γ and T-cell-attracting chemokines CXCL9 and CXCL10 were not affected in the absence of functional ST2 pathway, the local expression of ICAM-1, CXCR3, and LT-α, crucial for ECM development, was strongly reduced, and this may explain the diminished pathogenic T-cell recruitment and resistance to ECM. Therefore, IL-33 is induced in PbA sporozoite infection, and the pathogenic T-cell responses with local microvascular pathology are dependent on IL-33/ST2 signaling, identifying IL-33 as a new actor in ECM development., (© 2015 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)
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- 2015
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30. Soil and foliar nutrient and nitrogen isotope composition (δ(15)N) at 5 years after poultry litter and green waste biochar amendment in a macadamia orchard.
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Bai SH, Xu CY, Xu Z, Blumfield TJ, Zhao H, Wallace H, Reverchon F, and Van Zwieten L
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- Animals, Charcoal, Fertilizers, Macadamia chemistry, Manure, Phosphorus metabolism, Time Factors, Agriculture methods, Macadamia growth & development, Nitrogen Isotopes analysis, Plant Leaves chemistry, Poultry, Soil chemistry
- Abstract
This study aimed to evaluate the improvement in soil fertility and plant nutrient use in a macadamia orchard following biochar application. The main objectives of this study were to assess the effects of poultry litter and green waste biochar applications on nitrogen (N) cycling using N isotope composition (δ(15)N) and nutrient availability in a soil-plant system at a macadamia orchard, 5 years following application. Biochar was applied at 10 t ha(-1) dry weight but concentrated within a 3-m diameter zone when trees were planted in 2007. Soil and leaf samples were collected in 2012, and both soil and foliar N isotope composition (δ(15)N) and nutrient concentrations were assessed. Both soil and foliar δ(15)N increased significantly in the poultry litter biochar plots compared to the green waste biochar and control plots. A significant relationship was observed between soil and plant δ(15)N. There was no influence of either biochars on foliar total N concentrations or soil NH4 (+)-N and NO3 (-)-N, which suggested that biochar application did not pose any restriction for plant N uptake. Plant bioavailable phosphorus (P) was significantly higher in the poultry litter biochar treatment compared to the green waste biochar treatment and control. We hypothesised that the bioavailability of N and P content of poultry litter biochar may play an important role in increasing soil and plant δ(15)N and P concentrations. Biochar application affected soil-plant N cycling and there is potential to use soil and plant δ(15)N to investigate N cycling in a soil-biochar-tree crop system. The poultry litter biochar significantly increased soil fertility compared to the green waste biochar at 5 years following biochar application which makes the poultry litter a better feedstock to produce biochar compared to green waste for the tree crops.
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- 2015
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31. IL-33-mediated protection against experimental cerebral malaria is linked to induction of type 2 innate lymphoid cells, M2 macrophages and regulatory T cells.
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Besnard AG, Guabiraba R, Niedbala W, Palomo J, Reverchon F, Shaw TN, Couper KN, Ryffel B, and Liew FY
- Subjects
- Adoptive Transfer, Animals, Coculture Techniques, Disease Models, Animal, Enzyme-Linked Immunosorbent Assay, Female, Flow Cytometry, Immunity, Innate, Mice, Mice, Inbred C57BL, Plasmodium berghei immunology, Real-Time Polymerase Chain Reaction, Interleukin-33 immunology, Macrophages immunology, Malaria, Cerebral immunology, T-Lymphocytes, Regulatory immunology, Th2 Cells immunology
- Abstract
Cerebral malaria (CM) is a complex parasitic disease caused by Plasmodium sp. Failure to establish an appropriate balance between pro- and anti-inflammatory immune responses is believed to contribute to the development of cerebral pathology. Using the blood-stage PbA (Plasmodium berghei ANKA) model of infection, we show here that administration of the pro-Th2 cytokine, IL-33, prevents the development of experimental cerebral malaria (ECM) in C57BL/6 mice and reduces the production of inflammatory mediators IFN-γ, IL-12 and TNF-α. IL-33 drives the expansion of type-2 innate lymphoid cells (ILC2) that produce Type-2 cytokines (IL-4, IL-5 and IL-13), leading to the polarization of the anti-inflammatory M2 macrophages, which in turn expand Foxp3 regulatory T cells (Tregs). PbA-infected mice adoptively transferred with ILC2 have elevated frequency of M2 and Tregs and are protected from ECM. Importantly, IL-33-treated mice deleted of Tregs (DEREG mice) are no longer able to resist ECM. Our data therefore provide evidence that IL-33 can prevent the development of ECM by orchestrating a protective immune response via ILC2, M2 macrophages and Tregs.
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- 2015
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32. A preliminary assessment of the potential of using an acacia--biochar system for spent mine site rehabilitation.
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Reverchon F, Yang H, Ho TY, Yan G, Wang J, Xu Z, Chen C, and Zhang D
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- Acacia growth & development, Acacia metabolism, Biodegradation, Environmental drug effects, Biomass, Charcoal chemistry, Eucalyptus chemistry, Soil chemistry, Acacia drug effects, Charcoal pharmacology, Mining
- Abstract
Mining activities result in extensive soil degradation by removing the top soil, disturbing soil structure and altering microbial communities. Rehabilitation of spent mine sites through revegetation thus requires proper soil amendments. In this study, a pot trial was conducted to investigate the effects of a jarrah biochar on the growth and nutrient status of a native legume, Acacia tetragonophylla, grown in a mixture of topsoil and mine rejects. Two biochar application rates (37 and 74 t ha(-1)) and two types of biochar, namely nutrient-enriched and non-enriched, were tested. We measured the soil pH and electrical conductivity, the carbon (C) and nitrogen (N) contents and C and N isotope composition (δ(13)C and δ(15)N) of soil and plants, the foliar phosphorus content and the growth and leaf biomass of the plants. Whilst no significant effect of biochar was observed on plant growth, biochar amendment affected soil properties and plant nutritional status. The highest rate of biochar application increased soil pH, C content and C/N ratio, and decreased soil δ(13)C. Biochar application also enhanced photosynthetic N use efficiency, as showed by the increase in foliar C/N ratio, and biological N fixation rates, as indicated by foliar δ(15)N. These positive effects were not observed when biochar was nutrient-enriched due to the associated increase in soil N. Revegetation of mine sites with acacia in combination with biochar amendment constitutes a plausible alternative to the wide use of N fertiliser through the supply of additional N to the system, even though other nutrients may be required in order to enhance plant early growth.
- Published
- 2015
- Full Text
- View/download PDF
33. Role of IL-1β in experimental cystic fibrosis upon P. aeruginosa infection.
- Author
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Palomo J, Marchiol T, Piotet J, Fauconnier L, Robinet M, Reverchon F, Le Bert M, Togbe D, Buijs-Offerman R, Stolarczyk M, Quesniaux VF, Scholte BJ, and Ryffel B
- Subjects
- Animals, Bronchoalveolar Lavage Fluid microbiology, Cytokines metabolism, Histological Techniques, Lung metabolism, Mice, Mice, Inbred CFTR, Mice, Knockout, Neutrophils immunology, Pseudomonas Infections physiopathology, Receptors, Interleukin-1 Type I genetics, Statistics, Nonparametric, Tumor Necrosis Factor-alpha metabolism, Cystic Fibrosis immunology, Cystic Fibrosis microbiology, Interleukin-1beta metabolism, Lung pathology, Pseudomonas Infections immunology, Pseudomonas aeruginosa, Signal Transduction immunology
- Abstract
Cystic fibrosis is associated with increased inflammatory responses to pathogen challenge. Here we revisited the role of IL-1β in lung pathology using the experimental F508del-CFTR murine model on C57BL/6 genetic background (Cftr(tm1eur) or d/d), on double deficient for d/d and type 1 interleukin-1 receptor (d/d X IL-1R1-/-), and antibody neutralization. At steady state, young adult d/d mice did not show any signs of spontaneous lung inflammation. However, IL-1R1 deficiency conferred partial protection to repeated P. aeruginosa endotoxins/LPS lung instillation in d/d mice, as 50% of d/d mice succumbed to inflammation, whereas all d/d x IL-1R1-/- double mutants survived with lower initial weight loss and less pulmonary collagen and mucus production, suggesting that the absence of IL-1R1 signaling is protective in d/d mice in LPS-induced lung damage. Using P. aeruginosa acute lung infection we found heightened neutrophil recruitment in d/d mice with higher epithelial damage, increased bacterial load in BALF, and augmented IL-1β and TNF-α in parenchyma as compared to WT mice. Thus, F508del-CFTR mice show enhanced IL-1β signaling in response to P. aeruginosa. IL-1β antibody neutralization had no effect on lung homeostasis in either d/d or WT mice, however P. aeruginosa induced lung inflammation and bacterial load were diminished by IL-1β antibody neutralization. In conclusion, enhanced susceptibility to P. aeruginosa in d/d mice correlates with an excessive inflammation and with increased IL-1β production and reduced bacterial clearance. Further, we show that neutralization of IL-1β in d/d mice through the double mutation d/d x IL-1R1-/- and in WT via antibody neutralization attenuates inflammation. This supports the notion that intervention in the IL-1R1/IL-1β pathway may be detrimental in CF patients.
- Published
- 2014
- Full Text
- View/download PDF
34. Structure and species composition of ectomycorrhizal fungal communities colonizing seedlings and adult trees of Pinus montezumae in Mexican neotropical forests.
- Author
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Reverchon F, Ortega-Larrocea Mdel P, Bonilla-Rosso G, and Pérez-Moreno J
- Subjects
- Adult, Ecosystem, Female, Humans, Mexico, Mycorrhizae genetics, Mycorrhizae growth & development, Phylogeny, Pinus growth & development, Pinus physiology, Plant Roots growth & development, Plant Roots microbiology, Seedlings growth & development, Seedlings microbiology, Trees growth & development, Trees microbiology, Mycorrhizae classification, Pinus microbiology
- Abstract
Mexico is a center of diversity for pines, but few studies have examined the ectomycorrhizal (ECM) fungal communities associated with pines in this country. We investigated the ECM communities associated with Pinus montezumae seedlings and mature trees in neotropical forests of central Mexico and compared their structure and species composition. Root tips were sampled on both planted seedlings and naturally occurring adult trees. A total of 42 ECM operational taxonomic units (OTUs) was found on P. montezumae. Diversity and similarity indices showed that community structure was similar for both plant growth stages, but phylogenetic diversity and Chao-estimated richness were higher for seedlings. Species composition differed between communities. The dominant OTUs belonged to the families Atheliaceae, Cortinariaceae, and Sebacinaceae, although different taxa appeared to colonize seedlings and adults. Only 12 OTUs were shared between seedlings and adults, which suggests that ECM fungi which colonize seedlings are still not fully incorporated into mycelial networks and that ECM taxa colonizing young individuals of P. montezumae are likely to come from fungal propagules. Intra-generic diversity could be an insurance mechanism to maintain forest productivity under stressed conditions. This is the first report describing the abundance of Atheliaceae in tree roots in neotropical ecosystems., (© 2012 Federation of European Microbiological Societies. Published by Blackwell Publishing Ltd. All rights reserved.)
- Published
- 2012
- Full Text
- View/download PDF
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