Microbial community biotechnology applications have the potential to create carbon neutral sources of bioproducts and bioenergy that could displace similar fossil fuel-based technologies. Microbial communities are preferable to pure cultures because they can use complex substrates to produce a range of products, and they benefit from mutualistic and synergistic interactions that can increase overall process efficiency. Additionally, processes using microbial communities can be run under non-sterile conditions, thereby lowering production costs. There are a number of challenges; however, that must be resolved before successful implementation of these communities at an industrial scale, and in bioreactor cultures in particular. One of the big...
The spatiotemporal development of a bacterial community in an exoelectrogenic biofilm was investigat...
To maximize the production of carboxylic acids with open cultures of microbial consortia (reactor mi...
Plant lignocellulose is the most abundant raw material on the planet and a promising substrate for b...
Proteins, metabolites, and 16S rRNA measurements were used to examine the community structure and fu...
Proteins, metabolites, and 16S rRNA measurements were used to examine the community structure and fu...
Efficient industrial fermentation of lignocellulosic waste containing a large part of glucose and xy...
Methanogenic bioreactor communities were used as model ecosystems to evaluate the relationship betwe...
Microbial fuel cells (MFCs) are an evolving technology built around the idea of treating waste water...
Graduation date: 2017The complex, dynamic nature of microbial communities in both natural and engine...
Microbial mixed cultures present a broad metabolic flexibility and allow considering complex organic...
Enzymatic hydrolysis of cellulose is a key process in the global carbon cycle and the industrial con...
A mechanistic understanding of microbial community establishment and product formation in open ferme...
Naturally occurring microbial communities from high-salt and/or high-temperature environments were c...
[en] A cellulolytic consortium was isolated from a composting plant in order to boost the initial hy...
Biological robustness is a key attribute of biosystems that guarantees the maintenance of structural...
The spatiotemporal development of a bacterial community in an exoelectrogenic biofilm was investigat...
To maximize the production of carboxylic acids with open cultures of microbial consortia (reactor mi...
Plant lignocellulose is the most abundant raw material on the planet and a promising substrate for b...
Proteins, metabolites, and 16S rRNA measurements were used to examine the community structure and fu...
Proteins, metabolites, and 16S rRNA measurements were used to examine the community structure and fu...
Efficient industrial fermentation of lignocellulosic waste containing a large part of glucose and xy...
Methanogenic bioreactor communities were used as model ecosystems to evaluate the relationship betwe...
Microbial fuel cells (MFCs) are an evolving technology built around the idea of treating waste water...
Graduation date: 2017The complex, dynamic nature of microbial communities in both natural and engine...
Microbial mixed cultures present a broad metabolic flexibility and allow considering complex organic...
Enzymatic hydrolysis of cellulose is a key process in the global carbon cycle and the industrial con...
A mechanistic understanding of microbial community establishment and product formation in open ferme...
Naturally occurring microbial communities from high-salt and/or high-temperature environments were c...
[en] A cellulolytic consortium was isolated from a composting plant in order to boost the initial hy...
Biological robustness is a key attribute of biosystems that guarantees the maintenance of structural...
The spatiotemporal development of a bacterial community in an exoelectrogenic biofilm was investigat...
To maximize the production of carboxylic acids with open cultures of microbial consortia (reactor mi...
Plant lignocellulose is the most abundant raw material on the planet and a promising substrate for b...