CMET

Center for Microbial Ecology and Technology

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CMET researchers study microbial communities & interactions to better understand and steer ecological processes with an ultimate aim of improving and enabling biotechnological applications.

The Center for Microbial Ecology and Technology (CMET) is a part of the Faculty of Bioscience Engineering at Ghent University. CMET is specialized in the study and application of mixed microbial cultures or communities. A microbial community consists of several populations, which each represent a functional biological entity and thus a diverse metabolic capacity. The assemblage of these biological entities represents -when properly organized- a powerful resource. CMET researchers focus on the optimal management of these microbial resources. We define it as Microbial Resource Management (MRM), enabling us to develop novel products and (technological) processes to improve our environment or human health in the most sustainable way.

Research domains

CMET focuses on areas like disease prevention, applied microbial ecology, host-microbe interactions, life support in space, microbial electrocatalysis, resource recovery, and water treatment.

Microbial
Community Engineering

We study and manage complex microbial communities and microbial interactions such as cell-cell communication, horizontal gene transfer and biofilm formation.

Prof. Nico Boon
Prof. Kankana Kundu

Host-Microbe
Interaction

We obtain a mechanistic understanding of the host-microbiome interaction and shape future preventive and therapeutic strategies to support human health.

Prof. Tom Van de Wiele

Bioprocess
Engineering

We focus on microbial and physicochemical waste treatment technologies that enable recovery of water, nutrients and carbon from human waste and crop residues.

Prof. Ramon Ganigué

Architecture of
Microbial Ecology

We focus on understanding the nature of the interaction between the microorganisms and the electrodes as well as on innovative process and technology development.

Prof. Jo De Vrieze

Bacterial
Disease Control

We investigate novel strategies to control bacterial infections by unravelling bacterial disease mechanisms and develop strategies to interfere with these mechanisms.

Prof. Tom Defoirdt

Water
Treatment & Production

We study microbiological interactions in aerobic, anoxic and anaerobic conditions, and further develop biological nutrient en micropollutant management strategies.

Prof. Bart De Gusseme
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Research Projects

Bioloop2

BIOLOOP

The BIOLOOP project aims to strengthen the connection between supply and demand, paving the way for high-value bio-based applications across a wide range of industries. By leveraging Flanders’ strategic position as a central logistics hub, the project seeks to position the region as a leader in the bioeconomy.

Manureref

ManuREfinery

In ManuREfinery, we are producing caproic acid oil from grass, fertilized with recovered nutrients.

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Micro4biogas

MICRO4BIOGAS

In MICRO4BIOGAS we characterize and select the best microbial strains and consortia to optimize biogas production

Our aim is to boost the biogas sector in Europe by increasing the yield, speed, quality and reproducibility of biogas production. For this purpose, we will develop highly efficient microbial consortia based on strains that naturally inhabit anaerobic digesters.  With our novel approach we hope to consolidate this renewable energy as an environmentally, politically, and economically viable option.

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Agriloop logocmyk

Agriloop

In Agriloop, we convert agricultural residues into selected mixtures of carboxylic acids. Our research integrates fundamental understanding of anaerobic fermentations with bioprocess optimization.

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Waste2Ethanol

In Waste2Ethanol, we study the metabolic interactions between yeasts and lactic acid bacteria to develop a mixed culture bioprocess to produce ethanol from food waste.

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