The Location and mechanisms responsible for the carbon sink in northern mid-latitude Lands are uncertain. Here, we used an improved estimation method of forest biomass and a 50-year national forest resource inventory in China to estimate changes in the storage of Living biomass between 1949 and 1998. Our results suggest that Chinese forests released about 0.68 petagram of carbon between 1949 and 1980, for an annual emission rate of 0.022 petagram of carbon. Carbon storage increased significantly after the Late 1970s from 4.38 to 4.75 petagram of carbon by 1998, for a mean accumulation rate of 0.021 petagram of carbon per year, mainly due to forest expansion and regrowth. Since the mid-1970s, planted forests (afforestation and reforestation)...
Accurate estimates of forest carbon storage and changes in storage capacity are critical for scienti...
Forests are major contributor of terrestrial ecosystem carbon (C) pools, and are thus crucial compon...
Forests play a leading role in regional and global terrestrial carbon (C) cycles. Changes in C seque...
The planted forest area and carbon sequestration have increased significantly in China, because of l...
Abstract In the realm of forest resource inventory and monitoring, stand-level biomass carbon models...
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...
Changes in forest carbon stocks are a determinant of the regional carbon budget. In the past several...
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...
Plantation forests are the most effective and ecologically friendly way of absorbing CO2 and increas...
We estimated forest biomass carbon storage and carbon density from 1949 to 2008 based on nine consec...
Accurately estimating the carbon storage of forest ecosystems and deriving the driving factors affec...
Changes in forest carbon stocks are a determinant of the regional carbon budget. In the past several...
Forests play a leading role in regional and global terrestrial carbon (C) cycles. Changes in C seque...
Accurate estimates of forest carbon storage and changes in storage capacity are critical for scienti...
Forests are major contributor of terrestrial ecosystem carbon (C) pools, and are thus crucial compon...
Forests play a leading role in regional and global terrestrial carbon (C) cycles. Changes in C seque...
The planted forest area and carbon sequestration have increased significantly in China, because of l...
Abstract In the realm of forest resource inventory and monitoring, stand-level biomass carbon models...
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...
Changes in forest carbon stocks are a determinant of the regional carbon budget. In the past several...
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...
Plantation forests are the most effective and ecologically friendly way of absorbing CO2 and increas...
We estimated forest biomass carbon storage and carbon density from 1949 to 2008 based on nine consec...
Accurately estimating the carbon storage of forest ecosystems and deriving the driving factors affec...
Changes in forest carbon stocks are a determinant of the regional carbon budget. In the past several...
Forests play a leading role in regional and global terrestrial carbon (C) cycles. Changes in C seque...
Accurate estimates of forest carbon storage and changes in storage capacity are critical for scienti...
Forests are major contributor of terrestrial ecosystem carbon (C) pools, and are thus crucial compon...
Forests play a leading role in regional and global terrestrial carbon (C) cycles. Changes in C seque...