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Home  Library 2005 Vision and Framework for Strategy and Planning (August 2005) CCTP Goal 5: Improve Capabilities to Measure and Monitor GHG |
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Home Library 2005 Vision and Framework for Strategy and Planning (August 2005) CCTP Goal 5: Improve Capabilities to Measure and Monitor GHG |
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Updated 16 September 2005
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Vision and Framework for Strategy and Planning
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Also available: Order a hardcopy of this report from GCRIO Online Catalog. Back to
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CCTP Goal 5: Improve Capabilities to Measure and Monitor GHG EmissionsImproved technologies for measuring, estimating, and monitoring GHG emissions and the flows of GHGs across various media and boundaries, will help characterize emission levels and mark progress in reducing emissions. With enhanced means for GHG measuring and monitoring, future strategies to reduce, avoid, capture, or sequester CO2 and other GHG emissions can be better supported, guided, enabled and evaluated. Key areas of technology R&D related to this goal are grouped into four areas: Anthropogenic EmissionsMeasurement and monitoring technologies can enhance and provide direct and indirect emissions measurements for point and mobile sources using data transmission and archiving, along with inventory-based reporting systems and local-scale atmospheric measurements or indicators. Carbon Capture, Storage and SequestrationAdvances in measurement and monitoring technologies for geologic storage can assess the integrity of subsurface reservoirs, transportation and pipeline systems, and potential leakage from geologic storage. Measurement and monitoring systems for terrestrial sequestration are also needed to integrate carbon sequestration measurements of different components of the landscape (e.g., soils versus vegetation) across a range of spatial scales. Non-CO2 Greenhouse GasesMonitoring the emissions of methane, nitrous oxide, black carbon aerosols, hydrofluorocarbons, perfluorocarbons, and sulfur hexachloride is important because of their high global warming potential of these GHGs and, for some, the long atmospheric lifetimes. Advanced technologies can make an important contribution to direct and indirect measurement and monitoring approaches for both point and diffused sources of these emissions. Integrated Measuring and Monitoring System ArchitectureAn effective measurement and monitoring capability is one that can collect, analyze, and integrate data across spatial and temporal scales, and at many different levels of resolution. This may require technologies such as sensors and continuous emission monitors, protocols for data gathering and analysis, development of emissions accounting methods, and coordination of related basic science and research in collaboration with the Climate Change Science Program and the Integrated Earth Observation System.21
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