Tandem Project

Spotlight on survival artists: Saltwater plants as biomass for energy production?

Halophytes are able to survive and to reproduce in environments with high salinity levels. It is time to spotlight these tough survival artists. AGYA members Ahmed Debez and Skander Elleuche invited their fellow members Jan Friesen and Carsten Montzka to take on this mission and investigated if halophytes could constitute a valuable resource in the bioenergy sector.

Halophytes are obviously plant outsiders - what makes them so attractive to four researchers of different disciplines?

The topic “Halophytes for biofuel production” can only be addressed from an interdisciplinary angle. Within AGYA there is a wide range of scientific expertise provided by the members of our academy. We were amazed by the fact that this little outsider is a connecting element of our quite diverse research backgrounds. The topic of “Halophytes for biofuel production” is a common denominator.

How did you approach the topic from your own disciplinary backgrounds?

Ahmed’s expertise is biotechnology, and specifically, bio-physiological adaptions. His contribution started by providing key information about halophyte plants.

Halophyte plants are native of saline ecosystems, whether coastal or inland, with a particular emphasis on their salt-tolerance limits. These limits are known to vary significantly between and even within species. Therefore, I identified halophytes with bioenergy potential.

Jan addresses the topic from a geographer’s perspective and has focused on the global distribution of halophyte habitats.

One major challenge is, of course, that there is a large number of different halophyte species with different characteristics regarding their regional distribution. I therefore generated maps that show the distribution of saline soils and coastal regions. I have worked closely with Carsten, who focused on saline soils and their properties.

In my research area–remote sensing of soil moisture for climate simulations–hydraulic soil properties are of utmost importance. However, these hydraulic characteristics are closely linked to the physical and chemical composition of the soil inherited from the sediment and modified by climatic influences. Now, Skander is a biotechnologist with an expertise in biomass degradation. He determined biocatalysts which are capable of decomposing plant materials from halophytes.

Since halophytes exhibit certain salt concentrations that influence further industrial processing by corrosion of a production plant and inhibition of salt sensitive enzymes, I focused on the production of biocatalysts from halophilic microbes. These bacterial and archaeal species do not only survive but also thrive in high salt environments. Their enzymes might be most suitable for halophytic plant biomass degradation.

How can the Arab countries and Germany benefit from the results of this research?

Ahmed: Halophytes are distributed all over the coasts of most Arab countries but are neither utilized nor recycled. Sustainable technologies that establish such processes still need to be developed.

The discussion regarding renewable energy and especially bioenergy is currently gaining momentum. In view of plant based-energy products, there are issues that affect both the Arab world and Germany, for example, the food-versus-fuel debate in regard to bioenergy. As to the potential regions for halophyte production, those are mostly found in the Arab countries, especially in the southern Mediterranean.

Ahmed: Halophytes could play a role in sustainable biomass production in the Arab world but more interdisciplinary research is needed to identify the technically and economically feasible solutions.

Members in Charge

Ahmed Debez

Laboratoire des Plantes Extrêmophiles, Centre de Biotechnologie de Borj Cedria (CBBC)

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Skander Elleuche

Miltenyi Biotec GmbH

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Jan Friesen

Environmental Studies
Helmholtz Centre for Environmental Research - UFZ, Department Catchment Hydrology

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Carsten Montzka

Computer Sciences, Environmental Studies
Research Center Jülich Institute of Bio- & Geosphere: Agrosphere (IBG 3)

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