Monday, September 13, 2010
Carbon mapping breakthrough
Space Mart: By integrating satellite mapping, airborne-laser technology, and ground-based plot surveys, scientists from the Carnegie Institution's Department of Global Ecology, with colleagues from the World Wildlife Fund and in coordination with the Peruvian Ministry of the Environment (MINAM), have revealed the first high-resolution maps of carbon locked up in tropical forest vegetation and emitted by land-use practices.
These new maps pave the way for accurate monitoring of carbon storage and emissions for the proposed United Nations initiative on Reduced Emissions from Deforestation and Degradation (REDD). The study is published in the September 6, 2010, early edition of the Proceedings of the National Academy of Sciences.
The United Nations REDD initiative could create financial incentives to reduce carbon emissions from deforestation and degradation. However, this and similar carbon monitoring programs have been hindered by a lack of accurate, high-resolution methods to account for changes in the carbon stored in vegetation and lost through deforestation, selective logging, and other land-use disturbances.
The new high-resolution mapping method will have a major impact on the implementation of REDD in tropical regions around the world….
Aboveground carbon throughout the 4.3 million ha study region based CLASlite, LiDAR, and field plot data, from the Carnegie Airborne Observatory
These new maps pave the way for accurate monitoring of carbon storage and emissions for the proposed United Nations initiative on Reduced Emissions from Deforestation and Degradation (REDD). The study is published in the September 6, 2010, early edition of the Proceedings of the National Academy of Sciences.
The United Nations REDD initiative could create financial incentives to reduce carbon emissions from deforestation and degradation. However, this and similar carbon monitoring programs have been hindered by a lack of accurate, high-resolution methods to account for changes in the carbon stored in vegetation and lost through deforestation, selective logging, and other land-use disturbances.
The new high-resolution mapping method will have a major impact on the implementation of REDD in tropical regions around the world….
Aboveground carbon throughout the 4.3 million ha study region based CLASlite, LiDAR, and field plot data, from the Carnegie Airborne Observatory
Labels:
2010_Annual,
carbon,
forests,
maps,
monitoring,
REDD,
satellite,
science,
sinks
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