88 research outputs found

    Root presence modifies the long-term decomposition dynamics of fungal necromass and the associated microbial communities in a boreal forest

    Get PDF
    Recent studies have highlighted that dead fungal mycelium represents an important fraction of soil carbon (C) and nitrogen (N) inputs and stocks. Consequently, identifying the microbial communities and the ecological factors that govern the decomposition of fungal necromass will provide critical insight into how fungal organic matter (OM) affects forest soil C and nutrient cycles. Here, we examined the microbial communities colonising fungal necromass during a multiyear decomposition experiment in a boreal forest, which included incubation bags with different mesh sizes to manipulate both plant root and microbial decomposer group access. Necromass-associated bacterial and fungal communities were taxonomically and functionally rich throughout the 30 months of incubation, with increasing abundances of oligotrophic bacteria and root-associated fungi (i.e., ectomycorrhizal, ericoid mycorrhizal and endophytic fungi) in the late stages of decomposition in the mesh bags to which they had access. Necromass-associated beta-glucosidase activity was highest at 6 months, while leucine aminopeptidase peptidase was highest at 18 months. Based on an asymptotic decomposition model, root presence was associated with an initial faster rate of fungal necromass decomposition, but resulted in higher amounts of fungal necromass retained at later sampling times. Collectively, these results indicate that microbial community composition and enzyme activities on decomposing fungal necromass remain dynamic years after initial input, and that roots and their associated fungal symbionts result in the slowing of microbial necromass turnover with time.Peer reviewe

    "Truffinet": Inférence de réseaux d'interactions microbiennes dans la truffe. Rapport scientique du PEPS Mirabelles 2014

    Get PDF
    L'objectif est de caractériser les interactions microbiennes dans un environnement particulier : la truffe. La truffe abrite en effet de nombreuses communautés bactériennes, qui interagissent entre elles de façon complexe. Il est communément admis que les bactéries jouent un rôle dans le développement de la truffe, et en particulier de son arôme, mais quasiment rien n'est connu en ce qui concerne les interactions et les fonctionnalités potentielles des différentes communautés bactériennes habitant la truffe. D'un point de vue mathématique, deux micro-organismes interagissent entre eux si ils ne sont pas indépendants, conditionnellement aux autres micro-organismes. Plusieurs modèles mathématiques peuvent s'adapter à cette définition, en particulier les modèles graphiques gaussiens, les réseaux bayésiens, et les modèles graphiques log-linéaires. Or les données dont nous disposons sont à inflations de zéros. Cela nécessite donc de développer de nouveaux modèles. De plus, à cause du nombre très important de micro-organismes recensé, et du coût des techniques de comptage, les tailles d'échantillons dont nous disposons sont très petites par rapport au nombre de variables considérées

    Genome-wide haplotype association study identifies the FRMD4A gene as a risk locus for Alzheimer's disease

    Get PDF
    Recently, several genome-wide association studies (GWASs) have led to the discovery of nine new loci of genetic susceptibility in Alzheimer's disease (AD). However, the landscape of the AD genetic susceptibility is far away to be complete and in addition to single-SNP (single-nucleotide polymorphism) analyses as performed in conventional GWAS, complementary strategies need to be applied to overcome limitations inherent to this type of approaches. We performed a genome-wide haplotype association (GWHA) study in the EADI1 study (n=2025 AD cases and 5328 controls) by applying a sliding-windows approach. After exclusion of loci already known to be involved in AD (APOE, BIN1 and CR1), 91 regions with suggestive haplotype effects were identified. In a second step, we attempted to replicate the best suggestive haplotype associations in the GERAD1 consortium (2820 AD cases and 6356 controls) and observed that 9 of them showed nominal association. In a third step, we tested relevant haplotype associations in a combined analysis of five additional case-control studies (5093 AD cases and 4061 controls). We consistently replicated the association of a haplotype within FRMD4A on Chr.10p13 in all the data set analyzed (OR: 1.68; 95% CI: (1.43-1.96); P=1.1 × 10 -10). We finally searched for association between SNPs within the FRMD4A locus and Aβ plasma concentrations in three independent non-demented populations (n=2579). We reported that polymorphisms were associated with plasma Aβ42/Aβ40 ratio (best signal, P=5.4 × 10 -7). In conclusion, combining both GWHA study and a conservative three-stage replication approach, we characterised FRMD4A as a new genetic risk factor of AD

    Mise en évidence d'un facteur racinaire impliqué dans la croissance des champignons mycorhiciens à arbuscules

    No full text
    TOULOUSE3-BU Sciences (315552104) / SudocSudocFranceF

    Richesse et diversité des assemblages de champignons et d'oomycètes de hêtraies, en relation avec des facteurs climatiques et édaphiques (de la parcelle au continent)

    No full text
    Les sols forestiers sont des habitats hétérogènes, véritables réservoirs de microorganismes. Parmi ces microorganismes, les eucaryotes filamenteux (champignons et oomycètes) sont très divers et jouent un rôle important dans le fonctionnement et la durabilité des écosystèmes forestiers. Leur diversité et leur répartition spatiale à différentes échelles sont encore peu connues et les facteurs qui sous-tendent cette dispersion sont encore peu étudiés. Aussi, les objectifs étaient (i) d'exploiter le séquençage haut-débit pour des études d'écologie microbienne à large échelle et valider son application aux communautés d'oomycètes pathogènes en milieu forestier, (ii) de décrire ces communautés microbiennes, en termes de diversité et de structure, à différentes échelles spatiales (locale, régionale et continentale), (iii) de caractériser les variables biotiques et abiotiques structurant ces communautés et (iv) d'évaluer la réponse éventuelle des communautés aux variations climatiques. Une première étude pilote à l'échelle de la parcelle a été suivi de deux études à grande échelle spatiale le long de gradients environnementaux. Des gradients d'altitude et un gradient latitudinal, à l'échelle continentale, ont été utilisés comme gradient climatique. L'étude préliminaire a donc validé l'utilisation du pyroséquençage pour les communautés fongiques, et en particulier pour les espèces ectomycorhiziennes, et apporté des éléments pour établir une méthodologie d'échantillonnage couplée à cette technique. L'application de ces outils moléculaires à l'étude des communautés oomycètes pathogènes reste à optimiser. Les résultats obtenus sur les communautés fongiques telluriques suggèrent que dans l'hypothèse d'un réchauffement climatique, la richesse fongique ne serait pas directement affectée mais la composition des communautés le serait. La composition des communautés fongiques est également fortement liée au pH du sol. Ces résultats sont à affiner en étudiant plus en détail divers groupes taxonomiques et écologiques en lien avec des variables climatiques plus précises. Par ailleurs, de nombreuses perspectives sont envisageables pour améliorer la détection des oomycètes dans les sols forestiers, qui reste un challenge en écologie microbienneForest soils are heterogeneous habitats full of microorganisms. In particular, the filamentous eukaryotes (fungi and oomycetes) exhibit a huge diversity and play essential functions in the dynamic and sustainable growth of the forest ecosystem. However, their diversity and their distribution are poorly known; thus, so are the structuring factors of these microbial communities. The main goals were: (i) use a high-throughput pyrosequencing to study soil microbial communities at a broad geographical scale, and particularly to validate its use for the study of soil forest pathogenic oomycete communities, (ii) study the diversity and structure of fungal and pathogenic oomycetes communities at several spatial scales, (iii) identify possible climatic and edaphic variables structuring these communities and (iv) estimate the possible response of these microbial communities to climatic variation. A pilot study was undertaken at the stand scale. Then, two additional studies were carried out along environmental gradients at the regional and continental scales. The use of the pyrosequencing technique was found appropriate for the fungal communities, but difficulties arose in studying the pathogenic oomycete community. At the stand scale, results suggested the soil to be a valuable substitute for the roots to access the ectomycorrhizal richness and composition using pyrosequencing. The results along the broad scale gradients suggested that fungal richness may not be affected by climate warming but that the composition would be. Moreover, our work indicated that soil pH is a major factor explaining fungal community composition. The main conclusions are still to be confirmed and deeper knowledge of the response of different fungal phylum, or family, would be required. The detection and thus the diversity estimation of the pathogenic oomycetes in forest soil remains a current challengeMETZ-SCD (574632105) / SudocNANCY1-Bib. numérique (543959902) / SudocNANCY2-Bibliotheque electronique (543959901) / SudocNANCY-INPL-Bib. électronique (545479901) / SudocSudocFranceF

    Molecular technologies applied to the ecology of ectomycorrhizal communities

    No full text
    International audienc

    Root-endophytic fungi cause morphological and functional differences in Scots pine roots in contrast to ectomycorrhizal fungi

    No full text
    Endophytic fungi and ectomycorrhizal fungi co-exist in the mycorrhizal root tips of boreal forest trees. However, very little is known about the functional role they play in their host's biology. The activity of enzymes responsible for important biochemical processes is used to determine the functional role of root-associated mycorrhizal fungi. However, enzyme activity is never studied in the presence of endophytic fungi in-planta. The aims of this study were to investigate the effect of Scots pine (Pinus sylvestris L.) root-isolated fungal endophytes on the host plant root morphology, to determine their functional effects using host root-excreted enzyme activity measurements, and to compare them with roots colonized by decomposer and ectomycorrhizal fungal strains and noncolonised Scots pine root tips. Our results show that endophytic fungi did not damage the pine roots in contrast to the decomposer fungi. The endophytic fungi penetrated the cortical cells of the host plant. The roots colonised by endophytic fungi produce different exo-enzymes compared with those produced by roots colonized by other fungal groups or noncolonized control root tips. Our results indicate that endophytic fungi are clearly a distinctive ecological group of fungi that have functional traits different from those of ectomycorrhizal and decomposer fungi.201

    NADP-dependent glutamate dehydrogenase: a dispensable function in ectomycorrhizal fungi

    No full text
    International audienc
    corecore