Synthesis of remote sensing approaches for forest carbon estimation: reporting to the Kyoto Protocol
Synthesis of remote sensing approaches for forest carbon estimation: reporting to the Kyoto Protocol
The Kyoto Protocol requires that signatory countries reduce their human-induced emissions of CO2 by at least 5% below their emission levels of 1990 by 2008–2012. Parties ratifying the agreement are given the option to meet part of their reduction requirements through the conservation and enhancement of the carbon stored in forest ecosystems. To do this, they must estimate carbon stocks in 1990 and any changes since 1990 from all afforestation, reforestation and deforestation activities. In the UK, although some data are already available, the Protocol will require additional monitoring. To address this, we provide a quantitative assessment of remote sensing approaches for: (1) land cover discrimination to monitor deforestation; and (2) above-ground forest carbon stocks estimation. For land cover discrimination, both optical and radar remote sensing have been successful. For forest carbon stock monitoring, radar is most appropriate until LiDAR is made available from satellite platforms. While focusing on the requirements specific to the UK, our treatment is relevant for Parties having similar requirements. Finally, we stress the need for a synergetic use of approaches and for the launch of satellite missions designed especially for terrestrial carbon stock monitoring. We also highlight future requirements for improving the current forest inventory scheme.
remote sensing, Kyoto Protocol, land use change and forestry (LUCF), carbon, biomass
161-178
Patenaude, Genevieve
88834776-fe8d-40f4-ba4d-a41b5e1f4b4d
Milne, Ronald
e424a51f-9aa7-4f4a-aa2d-0db16c2c026a
Dawson, Terence P.
0c9227ce-1d62-47b5-9571-a8a1864321af
April 2005
Patenaude, Genevieve
88834776-fe8d-40f4-ba4d-a41b5e1f4b4d
Milne, Ronald
e424a51f-9aa7-4f4a-aa2d-0db16c2c026a
Dawson, Terence P.
0c9227ce-1d62-47b5-9571-a8a1864321af
Patenaude, Genevieve, Milne, Ronald and Dawson, Terence P.
(2005)
Synthesis of remote sensing approaches for forest carbon estimation: reporting to the Kyoto Protocol.
Environmental Science & Policy, 8 (2), .
(doi:10.1016/j.envsci.2004.12.010).
Abstract
The Kyoto Protocol requires that signatory countries reduce their human-induced emissions of CO2 by at least 5% below their emission levels of 1990 by 2008–2012. Parties ratifying the agreement are given the option to meet part of their reduction requirements through the conservation and enhancement of the carbon stored in forest ecosystems. To do this, they must estimate carbon stocks in 1990 and any changes since 1990 from all afforestation, reforestation and deforestation activities. In the UK, although some data are already available, the Protocol will require additional monitoring. To address this, we provide a quantitative assessment of remote sensing approaches for: (1) land cover discrimination to monitor deforestation; and (2) above-ground forest carbon stocks estimation. For land cover discrimination, both optical and radar remote sensing have been successful. For forest carbon stock monitoring, radar is most appropriate until LiDAR is made available from satellite platforms. While focusing on the requirements specific to the UK, our treatment is relevant for Parties having similar requirements. Finally, we stress the need for a synergetic use of approaches and for the launch of satellite missions designed especially for terrestrial carbon stock monitoring. We also highlight future requirements for improving the current forest inventory scheme.
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Published date: April 2005
Keywords:
remote sensing, Kyoto Protocol, land use change and forestry (LUCF), carbon, biomass
Organisations:
Remote Sensing & Spatial Analysis
Identifiers
Local EPrints ID: 58502
URI: http://eprints.soton.ac.uk/id/eprint/58502
ISSN: 1462-9011
PURE UUID: c0c3e4f5-9ae9-475a-b9ea-da40ef3ec2c9
Catalogue record
Date deposited: 14 Aug 2008
Last modified: 15 Mar 2024 11:11
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Contributors
Author:
Genevieve Patenaude
Author:
Ronald Milne
Author:
Terence P. Dawson
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