Biofilm communities are exposed to long periods of desiccation in temporary streams. We investigated how water flow intermittency affected the bacterial community structure colonizing three different streambed compartments in a Mediterranean stream. Massive parallel sequencing revealed different bacterial communities in biofilms from sand sediments and cobbles. Bacterial communities were similar (62% of shared operational taxonomic units) in the epipsammic and hyporheic biofilms, and more diverse than those in the epilithic biofilms. The non-flow phase caused a decrease of bacterial diversity in the biofilms, when communities included only bacterial taxa assumed to be adapted to water stress. The most sensitive bacterial communities to flow...
Headwaters in extended temperate regions of the world, including Central Europe, are going to be exp...
Microbial biofilms are important for the turnover of organic matter in small streams. A rapid coloni...
Biofilms are a ubiquitous formation of microbial communities found on surfaces in aqueous environmen...
Biofilm communities are exposed to long periods of desiccation in temporary streams. We investigated...
Flow is an important physical driver of biofilm communities. Here, we tested the effects of the near...
Laboratory studies have documented the extensive architectural differentiation of biofilms into comp...
Climate change affects running waters not only by increasing temperatures but also by increasing dis...
Biofilms represent a metabolically active and structurally complex component of freshwater ecosystem...
Streams experiencing a recurrent non-flow phase (i.e., flow intermittency) are characteristic of wor...
Abstract Water-column bacterial communities are assembled by different mechanisms at different stre...
Streams are highly heterogeneous ecosystems, in terms of both geomorphology and hydrodynamics. While...
In the natural environment, microbial community structure of river biofilm is controlled by biotic a...
[Departement_IRSTEA]Eaux [TR1_IRSTEA]BELCAInternational audienceThis study evaluates the sequences o...
Freshwater bacterioplankton communities are influenced by the transport of bacteria from the surroun...
International audienceMicrobial communities developing in biofilms have a major effect in lotic ecos...
Headwaters in extended temperate regions of the world, including Central Europe, are going to be exp...
Microbial biofilms are important for the turnover of organic matter in small streams. A rapid coloni...
Biofilms are a ubiquitous formation of microbial communities found on surfaces in aqueous environmen...
Biofilm communities are exposed to long periods of desiccation in temporary streams. We investigated...
Flow is an important physical driver of biofilm communities. Here, we tested the effects of the near...
Laboratory studies have documented the extensive architectural differentiation of biofilms into comp...
Climate change affects running waters not only by increasing temperatures but also by increasing dis...
Biofilms represent a metabolically active and structurally complex component of freshwater ecosystem...
Streams experiencing a recurrent non-flow phase (i.e., flow intermittency) are characteristic of wor...
Abstract Water-column bacterial communities are assembled by different mechanisms at different stre...
Streams are highly heterogeneous ecosystems, in terms of both geomorphology and hydrodynamics. While...
In the natural environment, microbial community structure of river biofilm is controlled by biotic a...
[Departement_IRSTEA]Eaux [TR1_IRSTEA]BELCAInternational audienceThis study evaluates the sequences o...
Freshwater bacterioplankton communities are influenced by the transport of bacteria from the surroun...
International audienceMicrobial communities developing in biofilms have a major effect in lotic ecos...
Headwaters in extended temperate regions of the world, including Central Europe, are going to be exp...
Microbial biofilms are important for the turnover of organic matter in small streams. A rapid coloni...
Biofilms are a ubiquitous formation of microbial communities found on surfaces in aqueous environmen...