Ecosystem organic carbon storage and their drivers across the drylands of China

Earth's drylands store large amounts of organic carbon and thus play an important role in regulating atmospheric CO2 concentrations and mitigating climate change. However, little is known about the magnitude and the drivers of organic carbon stocks because of limited data, in particular in desert ecosystems. To fill this gap, we surveyed 763 plots and collected 5091 soil samples from 170 sites covering grassland and desert ecosystems across the drylands of China. The results show that 10.96 Pg organic carbon is stored in these ecosystems (7.07 Pg in grasslands and 3.89 Pg in deserts). The effects of environmental variables on carbon density were found to be contingent on ecosystem type and soil depth. Mean annual precipitation had a strong positive effect on the spatial distributions of vegetation carbon density in both types of ecosystems. The spatial variations of surface (0-40 cm) and subsurface (40-100 cm) soil organic carbon (SOC) density in grasslands were mainly correlated with plant productivity and mean annual temperature (MAT), respectively, while in desert ecosystems, they were mainly correlated with soil salinity (electrical conductivity). The spatial sensitivities (linear regression slopes) of the surface SOC density versus MAT increased from dry subhumid to semi-arid regions and then gradually shifted to decrease from semi-arid to hyper-arid regions, indicating that the surface SOC stock is more sensitive to temperature in semi-arid regions. This study provides a comprehensive survey of ecosystem carbon stocks in China's drylands, fills a gap in our knowledge about carbon stocks in deserts, complements estimates of ecosystem carbon stocks throughout China, and provides insights into our understanding of the carbon cycle in drylands.

Automated summary

Earth's drylands store a significant amount of organic carbon, playing a crucial role in regulating atmospheric CO2 concentrations and mitigating climate change. However, our understanding of the magnitude and drivers of organic carbon stocks in these ecosystems, particularly in deserts, is limited. This study surveyed a large number of plots and collected soil samples from grassland and desert ecosystems in China's drylands, revealing the distribution and factors influencing organic carbon stocks. The findings provide valuable insights into the carbon cycle in drylands and complement our understanding of ecosystem carbon stocks in China.