Characteristics of CO2 release from forest soil in the mountains near Beijing

Carbon dioxide plays important role in various spheres of the Earth system (lithosphere, soil, hydrosphere, atmosphere and biosphere) for material of storage, transformation, transfer and interaction. In the research, two approached to measure CO2flux at soil surface and in profiles was carried out in situ in arid area. The background CO2concentration was 323.49 ± 21.36 × 10-6(volume fraction) in the surface of the atmosphere, and there are seasonal and diurnal change in the carbon dioxide concentration. For CO2flux between soil and atmosphere, the average CO2flux was 230.05 μmol·m-2·h-1 from the four kind soils, and CO2flux exhibited seasonal and diurnal variations too. For CO2flux from soil (the chestnut soil, sierozem soil, fragmental soil, and gray-cinnamon soil) that was exposed to air, CO2flux increased when soil from 0–60 cm depth was exposed but decreased when soil at 61–70 cm depth was exposed. The results show that 1) vegetation characteristics and temperature greatly affect CO2concentrationat the soil surface; 2) CO2may be released from the soil into the atmosphere at 254.6 t·km-2·yr-1if the soil at 0–70 cm depth is exposed to the air because of a change in land use or land cover; 3) the soil may absorbed CO2when plants were not growing in northern hemisphere; 4) The differences in the distribution of heat energy on the Earth's surface indicate a mechanism by which soil can regulate the concentration of CO2in the atmosphere of temperate-arid regions in northern hemisphere.

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CO2 Concentration at the Soil Surface and CO2 Flux between Soil and Atmosphere in Temperate-Arid Regions in Northern Hemisphere

Sun

Liu

Gao

2014

AMR

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Practice for In Situ Measurement of CO2 Flux at Soils Profiles in Arid Areas

Sun

Liu

Gao

2014

AMR

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An approach is described for thein situmeasurement of CO2flux at various depths in arid soil. In this method, a sampling tube is inserted to the desired soil depth in a pre-drilled hole, and an infrared CO2gas analyzer connected to the sampling tube is used to quantify CO2(based on absorption of CO2by infrared rays). In a preliminary test, the method was used to quantify CO2concentration and flux in an arid grassland soil. The results indicated that it could be used to quantify CO2flux in soil from 0–200 cm depths , and should be useful for estimating CO2flux and storage at different soil depths, for estimating the change in CO2emission from soil caused by change in land-use/land-cover, for assessing the rate of restoration of soil fertility and other soil properties in arid soils, and for monitoring leakage from geological storage of CO2.

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Characteristics of CO2 release from forest soil in the mountains near Beijing

Cited by 2 publications

References 17 publications

CO<sub>2</sub> Concentration at the Soil Surface and CO<sub>2</sub> Flux between Soil and Atmosphere in Temperate-Arid Regions in Northern Hemisphere

CO<sub>2</sub> Concentration at the Soil Surface and CO<sub>2</sub> Flux between Soil and Atmosphere in Temperate-Arid Regions in Northern Hemisphere

Practice for <i>In Situ</i> Measurement of CO<sub>2</sub> Flux at Soils Profiles in Arid Areas

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