Bacterial community dynamics during lignocellulose decomposition as affected by soil and residue types

Michel, Himaya Mula

30 April 2011

This study was conducted to determine dynamics of bacterial communities during decomposition and to find out whether the occurrence of bacterial communities was affected by soil and residue types. It was hypothesized that there would be a shift in bacterial community structure during decomposition. Also, distinct microbial communities in different two soils associated with two residues would result in colonization by different microbial taxa. The first hypothesis was based on expected changes in the composition of decomposing residues. The second hypothesis was based on the fact that soil microbial diversity is soil-specific and immense with numerous different functionally redundant but phylogeneticaly different microbial types. Residues with different chemical properties were also expected to affect bacterial community composition, however, its impact would be lesser compared to soil. A 2 x 2 x 4 factorial experiment was conducted consisting of switchgrass (Panicum virgatum) and rice (Oryza sativa) straw; 2 soil types (Sharkey and Marietta series); and 4 incubation periods (3, 23, 48 and 110 days). Clone libraries of the bacterial communities were constructed from the detritusphere (residues and adhering soil). Non-metric multidimensional scaling of the detritusphere communities showed distinct separation of the communities at day 3 which coincided with high levels of cellulase enzyme activity and reduction of soluble carbon. style='mso-spacerun:yes'> Availability of labile carbon appeared to be important in driving bacterial community succession at early stage of colonization. During the later stages of decomposition (day 23-110), bacterial communities were segregated into two groups according to soil type. Although important, this segregation was relatively small compared to the community-level similarities observed between the soils and residues. For example, 16 of the 22 most abundant OTU's, dominated by a-,b- and style='fontamily:Symbol'>g- Proteobacteria, Bacilli and Shingobacteria, were shared among all soil and residue treatments indicating that residue decomposition is carried out by few key-player taxa. These results run counter to our hypothesis and suggest that decomposition process may be mediated by certain domineering bacterial taxa which occur at the later stage of decomposition. Further research is needed to determine whether key functional ecosystem processes are dominated by only a few taxa despite taxonomically hyper-diverse soils.

bacterial decomposition

bacterial diversity and composition

16S rRNA clone library

Le microbiote du DEMODEX associé à la rosacée / Rosacea-associated microbiota of Demodex

Murillo, Nathalia

18 December 2013

Demodex est un genre d’acariens dont deux espèces sont connues pour coloniser la peau de l’homme : Demodex folliculorum et Demodex brevis. Leur implication dans le développement de la rosacée reste controversée. Cette maladie est caractérisée par une inflammation chronique de la peau et est définie en quatre sous-type majeurs : la rosacée érythémato-télangiectasique (ETR), la rosacée papulopustuleuse (PPR), la rosacée phymateuse et la rosacée oculaire. Certains pensent que le rôle des acariens est principalement d’exacerber une inflammation déjà enclenchée. Toutefois, l’isolation par culture d’un Bacillus oleronius à partir du broyat d’un Demodex de patient atteint de rosacée papulopustuleuse ont remis sur le devant de la scène le rôle de l’acarien en tant que vecteur de bactéries pathogènes. Le but de notre étude était de décrire le microbiote associé au Demodex par clonage du gène de l’ARN ribosomal 16S afin d’identifier par la suite d’éventuelles différences en fonction du statut de l’hôte (ETR, PPR ou sain). Le microbiote décrit présentait une diversité jusqu’alors insoupçonnée. Une partie des espèces identifiées n’avaient jamais été rapportées chez l’homme, pouvant donc correspondre au microbiote spécifique de l’acarien. Il serait composé comme d’une majorité de Protéobactéries. De manière intéressante, les proportions des phyla majeurs étaient différentes en fonction du groupe étudié. De plus, il semblerait que certaines espèces soient spécifiques des Demodex collectés chez des patients atteints de rosacée. Par exemple, Bartonella quintana n’a été détectée qu’à partir de Demodex d’une patiente atteinte de rosacée érythémato-télangiectasique. / Demodex is a genus of mites comprising two species known to colonize human skin: Demodex folliculorum and Demodex brevis. Their role in the pathogenesis of rosacea remains controversial. Rosacea is defined by a chronic inflammation of the skin and four main subtypes are defined : erythematotelangiectasic rosacea (ETR), papulopustular rosacea (PPR), phymatous rosacea and ocular rosacea. Mites are thought to be only involved in the exacerbation of a pre-existing inflammation. The growth of Bacillus oleronius from a crushed Demodex mite collected on a PPR patient gave rise to a new hypothesis that the mite is actually the vector of pathogenic bacteria. Present study aimed at describing the microbiote associated with Demodex mites by a 16S rRNA clone library approach. This allowed us to compare the obtained bacterial communities according to the group of patients the mites were collected from (erythematotelangiectasic rosacea, papulopustular rosacea or healthy subjects). The microbiota described here revealed an unexpected diversity. Part of the identified species had never been reported on human beings and could thus represent the microbiota specific to Demodex. As in many arthropods, this microbiota was predominantly composed of Proteobacteria. Interestingly, the proportion of the main phyla Proteobacteria, Firmicutes and Actinobacteria differed according to the host status. Though, some species appeared to be specific to Demodex collected from patients with erythematotelangiectasic rosacea or papulopustular rosacea. Among them, we identified Bartonella quintana only from a mite collected on a patient with erythematotelangiectasic rosacea.

Demodex

Acarien

Rosacée

Microbiote

Bartonella quintana

Clonage

16S

Demodex

Mite

Rosacea

Microbiota

Bartonella quintana

RRNA clone library

16S