外加碳酸盐增加石灰性土壤密闭培养过程中CO2的释放量

¹ College of Natural Resources and Environment, Northwest A&F University, Yangling 712100 (China)
²Key Laboratory of Plant Nutrition and the Agri-Environment in Northwest China, Ministry of Agriculture, Yangling 712100 (China)

ABSTRACT

The closed-jar incubation method is widely used to estimate the mineralization of soil organic C. There are two C pools (i.e., organic and inorganic C) in calcareous soil. To evaluate the effect of additional carbonates on CO₂ emission from calcareous soil during closed-jar incubation, three incubation experiments were conducted by adding different types (CaCO₃ and MgCO₃) and amounts of carbonate to the soil. The addition of carbonates significantly increased CO₂ emission from the soil; the increase ranged from 12.0% in the CaCO₃ amended soil to 460% in the MgCO₃ amended soil during a 100-d incubation. Cumulative CO₂ production at the end of the incubation was three times greater in the MgCO₃ amended soil compared to the CaCO₃ amended one. The CO₂ emission increased with the amount of CaCO₃ added to the soil. In contrast, CO₂ emission decreased as the amount of MgCO₃ added to the soil increased. Our results confirmed that the closed-jar incubation method could lead to an overestimate of organic C mineralization in calcareous soils. Because of its effect on soil pH and the dissolution of carbonates, HgCl₂ should not be used to sterilize calcareous soil if the experiment includes the measurement of soil CO₂ production.

Key Words: CaCO₃, incubation method, inorganic carbon, MgCO₃, soil organic carbon

Citation: Dong, Y. J., Cai, M., Liang, B. and Zhou, J. B. 2013. Effect of additional carbonates on CO₂ emission from calcareous soil during the closed-jar incubation. Pedosphere. 23(2): 137-142.

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