Add to ORKGThe development of high throughput sequencing techniques has allowed for greater investigations into environmental microbial communities in this thesis. Using the Illumina Solexa sequencing technology we investigated prokaryote communities in replicate soil samples from four soil types: both the organic and mineral layers of two UK forest sites, an oak stand and a Corsican pine stand. Prokaryote diversity was assessed using the 16S SSU rRNA encoding genes from DNA and rRNA (reverse transcribed to cDNA) extracted simultaneously from the same sample. From a total of > 4.5 million sequence reads, only 0.6 % of the reads overlapped between RNA and DNA samples. Marked differences were seen between the distribution of Phyla from RNA and DNA. The ...
The emergence of high-throughput DNA sequencing methods provides unprecedented opportunities to furt...
Metabarcoding approaches are exponentially increasing our understanding of soil biodiversity, with a...
Soil microbial communities contain the highest level of prokaryotic diversity of any environment, an...
The development of high throughput sequencing techniques has allowed for greater investigations into...
Soil is one of the most important reservoirs of microbiological diversity on our planet and, above ...
A recent large-scale assessment of bacterial communities across a range of UK soil types showed that...
PhD ThesisSoils are complex and highly variable ecosystems within which a multitude of diverse micro...
High-throughput sequencing (HTS) of soil environmental DNA (eDNA) allows assessing the full diversit...
Soil biogeochemistry domination by Bacteria has driven towards intensive studying of their diversity...
Background: Soil ecosystems harbor the most complex prokaryotic and eukaryotic microbial communities...
International audienceRecent advances in molecular ecology have dramatically improved our knowledge ...
Abstract We studied the distribution of the indigenous bacterial and fungal communities in a forest...
Recent studies have highlighted the surprising richness of soil bacterial communities; however, bact...
The emergence of high-throughput DNA sequencing methods provides unprecedented opportunities to furt...
Metabarcoding approaches are exponentially increasing our understanding of soil biodiversity, with a...
Soil microbial communities contain the highest level of prokaryotic diversity of any environment, an...
The development of high throughput sequencing techniques has allowed for greater investigations into...
Soil is one of the most important reservoirs of microbiological diversity on our planet and, above ...
A recent large-scale assessment of bacterial communities across a range of UK soil types showed that...
PhD ThesisSoils are complex and highly variable ecosystems within which a multitude of diverse micro...
High-throughput sequencing (HTS) of soil environmental DNA (eDNA) allows assessing the full diversit...
Soil biogeochemistry domination by Bacteria has driven towards intensive studying of their diversity...
Background: Soil ecosystems harbor the most complex prokaryotic and eukaryotic microbial communities...
International audienceRecent advances in molecular ecology have dramatically improved our knowledge ...
Abstract We studied the distribution of the indigenous bacterial and fungal communities in a forest...
Recent studies have highlighted the surprising richness of soil bacterial communities; however, bact...
The emergence of high-throughput DNA sequencing methods provides unprecedented opportunities to furt...
Metabarcoding approaches are exponentially increasing our understanding of soil biodiversity, with a...
Soil microbial communities contain the highest level of prokaryotic diversity of any environment, an...