一种准确测定土壤空气汞浓度的采样方法研究
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国家自然科学基金项目(41075114)资助


A Soil Sampling Method for Accurate Measurement of Mercury Concentration in Soil Air
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Supporteded by the National Natural Science Foundation of China (No. 41075114)

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    摘要:

    自然源汞释放对全球大气汞的贡献和循环具有重要影响,地表过程释汞是大气汞重要的自然源,土壤空气汞浓度与大气汞浓度差决定着土壤/大气汞的交换通量。基于目前测定土壤空气中汞浓度的缺点,建立了一种新的测定土壤空气汞浓度的方法。本研究在南京六合循环农业生态区采集了水稻土壤剖面空气,并对样品总汞浓度进行了分析。利用本实验装置,真空泵在低流量下连续抽取土壤剖面空气并预富集于金管上,并结合冷原子荧光法(CVAFS)测定。实验结果显示方法检出限为0.023 ng m-3,水稻土壤空气汞浓度变化范围在6.0~18.9 ng m-3。平行实验装置在同时测定实验室大气和农田土壤空气汞浓度时,相对标准偏差(RSD)均小于<15%,同时对比实验证明没有采集土壤表层大气。实验装置简单,野外操作方便,能准确和精确的测定水分不饱和土壤空气中汞浓度。

    Abstract:

    Mercury emission from natural resources contributes greatly to global atmospheric mercury, thus having an important impact on circulation of atmospheric mercury. Mercury emission during the earth surface processes is a major natural source of mercury in the atmosphere. In view of the shortcomings of the current methods for determining mercury concentration in soil air, this study has developed a new method. To test the method, soil air was collected from profiles of paddy soils in the Nanjing Liuhe Circular Agriculture Ecological Zone for analysis of total mercury. Using the experimental device, an inverted funnel, soil air in the soil profile was pumped continuously at a low flow rate, into a gold-coated pipe for pre-enrichment of mercury in the soil air. Gold-coated quartz sands were used as adsorbent to collect gaseous mercury in the soil air and the adsorption process lasted 3 hours with adsorption efficiency reaching nearly as high as 100% and relative standard deviation being 2.4%~5.4%. The highest mercury concentration was detected in the soil air extracted from the topsoil layer (0~3 cm) and the concentration decreased significantly with soil depth, but leveled off after the depth went beyond 20 cm. The experiment on effect of sampling flow on accuracy of the measurement, shows that when the sampling flow rate was below 30 ml min-1 RSD of the measurement was <10.0% and when the sampling flow rate went beyond 30 ml min-1, RSD increased, which indicates that at a higher flow rate than 30 ml min-1, the device may suck some air from the atmosphere into its chamber, and a flow rate of 20 ml min-1 is a safe one that enables the device to extract soil air merely from the soil profile. Then the air samples were analyzed with the cold vapor atomic fluorescence (CVAFS) method. Results show that the absolute detection limit is 0.023 ng m-3. Air mercury concentration in the paddy soils varied in range from 6 to 18.94 ng m-3. When the parallel experimental device was used to determine mercury concentrations of the air in the laboratory and soil air in the farmland simultaneously relative standard deviations of two measurements were both <15%. The comparison experiments show that the device collects air samples merely from soil profiles, rather than from the atmosphere above the soil surface. Mercury concentration of the soil air in paddy soils peaked at noon, which may be attributed to the higher temperature in the topsoil, intensive light and effective radiation during the noon time, enhancing photochemical reactions of mercury and increasing mercury concentration in the soil air. The highest concentration of gaseous mercury in the soil air was detected in soils at 6 cm in depth of the soil profile and then in soils at 3 cm in depth, which suggests that mercury in the soil air of the topsoil escapes into the atmosphere rapidly and its diffusion at 6 cm is retarded by soil. Additionally, the higher water content at 6 cm than at 3 cm may provide profitable additions for mercury in soil and soil water to convert into Hg0 in soil air. The soil air in underlying soil layers is relatively stable and less changed, which further proves the method is reliable. This method has the following advantages: during the experiment, lithium batteries power the device, which is easy to operate in the field and capable of collecting soil air at different depths, and enables spatio-temporal synchronization of observation of mercury concentrations in the soil profile. But it should be noted that this experiment can only be carried out in paddy fields unsaturated with soil water and the use of rotameter may lead to errors in flow measurement. This experiment is characterized by simplicity of the devices, and easy operation in field and can be used to precisely and accurately measure gaseous mercury concentrations in soil air in unsaturated paddy fields.

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吴晓云,郑有飞,林克思.一种准确测定土壤空气汞浓度的采样方法研究[J].土壤学报,2016,53(1):224-231. DOI:10.11766/trxb201504200029 WU Xiaoyun, ZHENG Youfei, LIN Kesi. A Soil Sampling Method for Accurate Measurement of Mercury Concentration in Soil Air[J]. Acta Pedologica Sinica,2016,53(1):224-231.

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  • 收稿日期:2015-01-14
  • 最后修改日期:2015-07-31
  • 录用日期:2015-10-12
  • 在线发布日期: 2015-11-02
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