Publication: Aridity shifts the difference in carbon uptake and storage between wooded and pure grasslands from positive to negative
Aridity shifts the difference in carbon uptake and storage between wooded and pure grasslands from positive to negative
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Liu, Y., Cheng, J., Schmid, B., & Sheng, J. (2023). Aridity shifts the difference in carbon uptake and storage between wooded and pure grasslands from positive to negative. Science of the Total Environment, 861, 160614. https://doi.org/10.1016/j.scitotenv.2022.160614
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Woody plant encroachment in arid grasslands may reduce plant uptake and soil storage of carbon (C) with consequences for the global C cycle, yet multi-site comparative studies have not been done so far and experiments are not feasible due to the long time needed for soil organic C (SOC) to accumulate. We selected multiple grassland sites with ≥50 % or 0 % woody plant aboveground biomass in each of six vegetation types representing a gradient of increasing aridity, resulting in a comparative study design with a total of 178 pure and 10
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- Liu, Yunhua
- Cheng, Junhui
- Sheng, Jiandong
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Liu, Y., Cheng, J., Schmid, B., & Sheng, J. (2023). Aridity shifts the difference in carbon uptake and storage between wooded and pure grasslands from positive to negative. Science of the Total Environment, 861, 160614. https://doi.org/10.1016/j.scitotenv.2022.160614
