An intercomparison of two chamber methods for the determination of emission of nitric oxide from soil

E.J. Williams , E.A. Davidson
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引用次数: 27

Abstract

Two chamber-based methods for measurement of emission of NO from soil have been compared. One method measured NO by conversion to NO2 with a CrO3 converter and NO2 detection by luminol chemiluminescence. The other technique detects NO directly via NO/ozone chemiluminescence. The techniques were tested with a glass manifold system by addition of NO and other trace gases into a flowing zero air gas stream; water vapor was also added to the carrier gas in some cases. A second set of tests involved the simultaneous determination of NO concentrations from a chamber placed over the soil. Finally, flux measurements were made independently from common plots and from different plots within the same field. The luminol system was unaffected by the presence of ammonia, methylamine, acetonitrile and nitrous oxide, but had a lower response to NO in the presence of water vapor. The decrease was 7% at a relative humidity of 50%, and about 3% at a relative humidity of 23%. The NO/ozone chemiluminescence system was not influenced by any of the species doped into the gas stream. The simultaneous chamber data also showed a decreased response from the luminol system that was consistent with the humidity effect observed in the manifold tests. The average of independently measured flux values from common plots agreed reasonably well. However, the overall site mean flux determined by the luminol system was 74% of that of the NO/ozone system due to a larger data set from the luminol system. This comparison demonstrates that flux spatial heterogeneity can overwhelm analytical uncertainties, and that large sample sizes are needed to accurately characterize field fluxes.

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测定土壤中一氧化氮排放的两种腔室法的比较
比较了两种基于室内的土壤NO排放测量方法。一种方法是用CrO3转化器将NO转化为NO2,并用鲁米诺化学发光法检测NO2。另一种技术是通过NO/臭氧化学发光直接检测NO。在玻璃歧管系统中,将NO和其他微量气体加入流动的零空气气流中,对这些技术进行了测试;在某些情况下,水蒸气也被添加到载气中。第二组测试包括同时测定放置在土壤上的一个室的NO浓度。最后,通量测量分别在共同样地和同一场内的不同样地进行。在氨、甲胺、乙腈和氧化亚氮的存在下,鲁米诺体系不受影响,但在水蒸气存在下,对NO的响应较低。相对湿度为50%时减少7%,相对湿度为23%时减少约3%。NO/臭氧化学发光系统不受任何物质注入气流的影响。同时腔室数据还显示,鲁米诺系统的响应降低,这与在歧管试验中观察到的湿度效应一致。从普通地块独立测量的通量值的平均值相当一致。然而,由于鲁米诺系统的数据集更大,鲁米诺系统确定的总体站点平均通量是NO/臭氧系统的74%。这一比较表明,通量空间异质性可以压倒分析的不确定性,并且需要大样本量来准确表征场通量。
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