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FP6 - GOCE-CT-2003-505572
CARBOEUROPE - Assessment of the European Terrestrial Carbon Balance
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Contacts
Website:
www.carboeurope.org
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FP6 Projects
| Type of Project |
Integrated Project |
| Contract No |
FP6 - GOCE-CT-2003-505572 |
| Total Cost |
25,115 KEuro |
| EC Contribution |
16,310 KEuro |
| Start Date |
1-1-2004 |
| Duration |
60 Months |
Summary
Aim
CarboEurope-IP aims to understand and quantify the present terrestrial carbon balance of
Europe and the associated uncertainty at local, regional and continental scale. This means to
- determine the European carbon balance with its spatial and temporal patterns
- understand the controlling processes and mechanisms of carbon cycling
in European ecosystems and how these are affected by climate change and
variability and human management
- develop an observation system to detect changes in atmospheric CO2
concentrations and ecosystem carbon stocks related to the European commitments under the
Kyoto Protocol.
Approach
In order to achieve these aims, CarboEurope-IP addresses the following major topics:
- Determination of the carbon balance of the European continent, its geographical
patterns, and changes over time. This is achieved by (1) executing a strategically focussed
set of surface based ecological measurements of carbon pools and CO2 exchange, (2) further enhancement of an atmospheric high precision observation system for CO2 and other trace gases, (3) execution of a regional high spatial resolution experiment, and (4) integration of these components by means of innovative data assimilation systems, bottom-up process modelling and top-down inverse modelling. The key innovation of the CarboEurope-IP is in its conception as to apply single comprehensive experimental strategy, and its integration into a comprehensive carbon data assimilation framework. It is solving the scientific challenge of quantifying the terrestrial carbon balance at different scales and with known, acceptable uncertainties. The increase in spatial and temporal resolution of the observational and modelling program will allow for the first time a consistent application of a multiple constraint approach of bottom-up and top-down estimates to determine the terrestrial carbon balance of Europe w
ith the geographical patterns and variability of sources and sinks.
- Enhanced understanding of the controlling mechanisms of carbon cycling in
European ecosystems, and the impact of climate change and variability, and changing
land management on the European carbon balance. This is achieved by
(1) the partitioning of carbon fluxes into their constituent parts (assimilation, respiration,
fossil fuel burning), at local, regional and continental scales,
(2) the quantification of the effects of management on net ecosystem carbon
exchange based on data synthesis, and (3) the development, evaluation and
optimisation of ecosystem process models.
- Design and development of an observation system to detect changes
of carbon stocks and carbon fluxes related to the European commitments under the
Kyoto Protocol. This is achieved by (1) atmospheric measurements and a modelling framework
to detect changes in atmospheric CO2 concentrations during the time frame of a Kyoto
commitment period, and (2) the outline of a carbon accounting system for the second
Commitment period based on measuring carbon fluxes, stock changes by soil and biomass
inventories, vegetation properties by remote sensing, and atmospheric concentrations.
Coordinator
Max-Planck-Institute for Biogeochemistry, Germany
Partners
The consortium consists of 61 Contractor Institutes from 17 European countries, plus
about 30 Associated Partners within Europe and further Collaborating Institutes
outside Europe. CarboEurope-IP is open to associate further partners.
Contacts
Contact
