论文
论文题目: Three-dimensional quantification of soil pore structure in wind-deposited loess under different vegetation types using industrial X-ray computed tomography
第一作者: Qiao Jiangbo, Liu Xingting, Zhu Yuanjun, Jia Xiaoxu, Shao Ming'an
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发表年度: 2021
摘  要:
英文摘要: The temperature sensitivity (O-10) of soil microbial respiration (R-s) is a critical parameter for predicting soil carbon (C) fluxes under changing climatic conditions, and labile C is continuously input into soil via root exudates or plant litter in field. However, how Q(10) responds to labile C input remains uncertain, especially across large geographical regions. We collected eight soils from tropical to cold-temperate forests along a north-south transect in eastern China, and soils were added with either water as a control or glucose as an analogue for labile C input to investigate how Q(10) responds to labile C input at a large geographical scale. Then, soils were incubated under varying temperature conditions from 5 to 30 degrees C for 2-weeks, and R-s was measured at a high frequency (each sample was measured at 20 min intervals within 12 h) after 1 d, 7 d and 14 d incubation. R-s and Q(10) were then calculated for both the control and glucose addition treatments. Compared with those in the control, glucose addition significantly increased R-s and Q(10) in all forest soils. The increase in Q(10) (Delta Q(10)) between the control and glucose addition treatments differed significantly among the eight forest soils and was the highest in mid-latitude regions. Furthermore, Q(10) was significantly and negatively correlated with the soil C availability index (CAI), indicating that the Q(10) of soils with lower basal substrate availability (e.g., soils in mid-latitudes of eastern China) are enhanced more by labile C input than those of higher basal substrate availability. A significant negative relationship between Q(10) and substrate quality (SQI, measured as basal microbial respiration rate at 0 degrees C) without glucose addition supported the carbon quality temperature hypothesis; however, this hypothesis was not always valid after adding glucose. Our findings highlight the importance of basal substrate availability in influencing Q(10) after labile C addition, suggesting that C-climate models should incorporate different scenarios of labile C input in the future.
刊物名称: SOIL BIOLOGY & BIOCHEMISTRY
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论文类别: SCI