Abstract
The greenhouse gases sequestrated by ecosystems are of great relevance to global carbon cycle and climate regulation. However, it is time-consuming and laborious to conduct sampling analysis, and it is also difficult to analyze the variation of potential sequestration of various ecosystems for greenhouse gases in China. This study used six 5-year periods of land use data for China between 1990 and 2015 to analyze the changes of three natural ecosystems (forest, grassland, and wetland). Correspondingly, the potential sequestration of the three ecosystems for three major greenhouse gases (carbon dioxide CO2, methane, and nitrous oxide) during the 25 years were simulated through a greenhouse gas value (GHGV) model. The GHGV model was found to be a reliable alternative to calculating the carbon sequestration of natural ecosystems in China. The total greenhouse gas sequestration of China’s natural ecosystems remained at around 267 Pg CO2-equivalent; however, the greenhouse gas sequestration had decreased by 3.3 Pg CO2-equivalent between 1990 and 2015. Comparison of the simulation results of the GHGV model based on the localized parameters and the model default parameters revealed that the simulated potential sequestration of the greenhouse gases for forest and wetland ecosystems (but not the grassland ecosystem) were smaller when run with localized parameters than the model default parameters. Moreover, the carbon sequestration of natural ecosystems was greater than the amount of anthropogenic carbon emissions, but the potential sequestration of natural ecosystems for greenhouse gas has become increasingly limited. Our study reveals the model can act as an important supplement for assessing the potential sequestration of the greenhouse gases for ecosystems at a regional scale.
Highlights
Ecosystems can absorb carbon dioxide (CO2 ) through photosynthesis
This study aimed to introduce the use of the greenhouse gas value (GHGV) model to assess the potential sequestration of three major greenhouse gases (CO2, CH4, and nitrous oxide (N2 O)) by these three natural ecosystems
The distribution of each ecosystem remained basically stable during the study period, there were some changes to their areas
Summary
Carbon sequestration refers to the amount of major greenhouse gases carried or encapsulated in ecosystems in various forms [1]. The greenhouse gases sequestered by terrestrial ecosystems directly affects the concentration of greenhouse gases in the atmosphere and is one of the core concerns of biogeochemical cycling and climate change research. Of the global terrestrial ecosystem carbon, 46% is stored in forests and 23% is stored in tropical and Forests 2020, 11, 128; doi:10.3390/f11020128 www.mdpi.com/journal/forests. Changes in ecosystem type, such as deforestation, grassland desertification, reclamation of wetlands, and returning farmland to forests and grasslands will cause corresponding changes in vegetation biomass [5]. In order to evaluate the warming effect of these two greenhouse gases, the intergovernmental panel on climate change (IPCC) used a concept of global warming potential (GWP)
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