Effects of land use and land cover change on soil organic carbon storage in the Hexi regions, Northwest China

土壤碳 环境科学 草原 土地利用 土地覆盖 干旱 土地利用、土地利用的变化和林业 气候变化 水文学(农业) 自然地理学 土壤科学 林业 地理 土壤水分 农学 地质学 生态学 古生物学 海洋学 岩土工程 生物
作者
Yongge Li,Wei Liu,Feng Qi,Meng Zhu,Linshan Yang,Jutao Zhang
出处
期刊:Journal of Environmental Management [Elsevier BV]
卷期号:312: 114911-114911 被引量:106
标识
DOI:10.1016/j.jenvman.2022.114911
摘要

Soil organic carbon (SOC) storage in arid inland regions is significantly affected by land use and land cover change (LUCC) associated with climate change and agricultural activities. A systematic evaluation to the LUCC effects on SOC storage could enable us to better manage soil carbon pools in arid inland regions. Here, we evaluated the effects of LUCC on SOC storage in the Hexi Regions based on high-resolution SOC and LUCC maps derived from Landsat imagery and digital soil mapping using machine learning algorithm and environmental covariates. The results showed that SOC generally increased from northwest to southeast over the Hexi Regions with an average stock of 7.15 kg C m-2 at a soil depth of 100 cm and a total storage of 2783.05 Tg C. The SOC stock and storage in the Qilian Mountains (mountains) was about 3.90 and 4.55 times higher than that in the Hexi Corridor (plains), respectively. It was estimated that LUCC over the past four decades caused a net increase of 23.41 and 18.19 Tg C in total SOC storage for the Qilian Mountains and Hexi Corridor, respectively. Specifically, the development in grasslands quality as well as the land-use category conversion from the bare land to grassland mainly contributed to the increase in SOC storage of the Qilian Mountains, where the LUCC was mainly driven by climate change. By contrast, the SOC storage change in the Hexi Corridor was mainly associated with the conversion from sandy land and low-cover grassland to cropland as well as sandy land to grassland, being mainly affected by intense cropland expansion and desertification control. Our results highlighted the importance of climate change and cropland expansion in enhancing SOC storage of the Qilian Mountains and Hexi corridor, respectively.
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