China’s forests have functioned as important carbon sinks. They are expected to have substantial future potential for biomass carbon sequestration (BCS) resulting from afforestation and reforestation. However, previous estimates of forest BCS have included large uncertainties due to the limitations of sample size, multiple data sources, and inconsistent methodologies. This study refined the BCS estimation of China’s forests from 2010 to 2050 using the national forest inventory data (FID) of 2009−2013, as well as the relationships between forest biomass and stand age retrieved from field observations for major forest types in different regions of China. The results showed that biomass–age relationships were well-fitte...
Abstract In the realm of forest resource inventory and monitoring, stand-level biomass carbon models...
International Science and Technology Cooperation Project 2010DFA22480;Major State Basic Research De...
Forests play a leading role in regional and global terrestrial carbon (C) cycles. Changes in C seque...
China’s forests have functioned as important carbon sinks. They are expected to have substanti...
China's forests are characterized by young forest age, low carbon density and a large area of p...
The planted forest area and carbon sequestration have increased significantly in China, because of l...
Plantation forests are the most effective and ecologically friendly way of absorbing CO2 and increas...
We developed a volume-to-biomass method based on age groups representative of forest development sta...
Over the last several decades, China has taken multiple measures for afforestation and natural fores...
The Location and mechanisms responsible for the carbon sink in northern mid-latitude Lands are uncer...
Tibet's forests, in contrast to China's other forests, are characterized by primary forests, high ca...
Accurate estimates of forest carbon storage and changes in storage capacity are critical for scienti...
Abstract Afforestation and land use changes that sequester carbon from the atmosphere in the form of...
China's forests are characterized by young age, low carbon (C) density and a large plantation area, ...
China's forests are characterized by young age, low carbon (C) density and a large plantation a...
Abstract In the realm of forest resource inventory and monitoring, stand-level biomass carbon models...
International Science and Technology Cooperation Project 2010DFA22480;Major State Basic Research De...
Forests play a leading role in regional and global terrestrial carbon (C) cycles. Changes in C seque...
China’s forests have functioned as important carbon sinks. They are expected to have substanti...
China's forests are characterized by young forest age, low carbon density and a large area of p...
The planted forest area and carbon sequestration have increased significantly in China, because of l...
Plantation forests are the most effective and ecologically friendly way of absorbing CO2 and increas...
We developed a volume-to-biomass method based on age groups representative of forest development sta...
Over the last several decades, China has taken multiple measures for afforestation and natural fores...
The Location and mechanisms responsible for the carbon sink in northern mid-latitude Lands are uncer...
Tibet's forests, in contrast to China's other forests, are characterized by primary forests, high ca...
Accurate estimates of forest carbon storage and changes in storage capacity are critical for scienti...
Abstract Afforestation and land use changes that sequester carbon from the atmosphere in the form of...
China's forests are characterized by young age, low carbon (C) density and a large plantation area, ...
China's forests are characterized by young age, low carbon (C) density and a large plantation a...
Abstract In the realm of forest resource inventory and monitoring, stand-level biomass carbon models...
International Science and Technology Cooperation Project 2010DFA22480;Major State Basic Research De...
Forests play a leading role in regional and global terrestrial carbon (C) cycles. Changes in C seque...