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Rhizospheric biofilms at root-microbe-mineral interfaces: A key to improve productivity, sustainability and CO2 balance in forests

Objective

In the past decades, forest productivity was maximized by the use of large quantities of fertilizers and pesticides. These chemicals are produced by complex processes, which consume high levels of energy from fossil fuels and emit large amounts of CO2. The secondary effects of the chemicals include increased ground and surface water pollution and soil degradation in all forested ecosystems in Europe and other parts of the world. Part of the problem is a lack of fundamental understanding about mineral-derived nutrient dynamics in forests, their weathering release, storage and transport in soils and roots to maintain high, but sustainable, production of high quality wood products. If practices could be developed to enhance natural processes for nutrient acquisition and transport, pesticide and fertilizer use could be reduced, energy could be saved, CO2 emission decreased, and environmental sustainability insured. Root-microbe-mineral interactions in the rhizosphere regulate mineral-derived nutrient acquisition and transport to plant roots. I will investigate these interactions to improve understanding of rhizospheric biofilms formed in symbiotic associations. My research sofar shows that these biofilms enhance silicates mineral weathering, sequester atmospheric CO2 in the hydrosphere, and decrease the loss of mineral-derived nutrients to ground and surface water. To expand on this, I will examine the chemical and physical structure of the root-microbe-mineral interface, using stat-of-the-art nano-scale techniques combined with microbiological and biogeochemical approaches under natural and controlled growth conditions. I will also characterize the biofilms under elevated CO2 levels. The science and technology results gained from this project will contribute directly the the scientific community and to the society through improvements in commercial tree production, forest health and sustainability under the increased CO2 levels.
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Coordinator

KOBENHAVNS UNIVERSITET

Address

Norregade 10
1165 Kobenhavn

Denmark

Activity type

Higher or Secondary Education Establishments

EU Contribution

€ 218 119,79

Administrative Contact

Ivan Kristoffersen (Mr.)

Project information

Grant agreement ID: 235879

Status

Closed project

  • Start date

    1 July 2010

  • End date

    30 June 2012

Funded under:

FP7-PEOPLE

Coordinated by:

KOBENHAVNS UNIVERSITET

Denmark