采用氮氧同位素方法评估中国长江流域硝酸盐的来源。

Assessment of the sources of nitrate in the Changjiang River, China using a nitrogen and oxygen isotopic approach.

机构信息

The State Key Laboratory of Environmental Geochemistry, Institute of Geochemistry, Chinese Academy of Sciences, Guiyang 550002, China.

出版信息

Environ Sci Technol. 2010 Mar 1;44(5):1573-8. doi: 10.1021/es902670n.

DOI:10.1021/es902670n

PMID:20121182

Abstract

The Changjiang River is the largest freshwater river in China. Here, the sources and variability in nitrate of the Changjiang River are assessed for the first time using dual isotopic approach. Water samples were collected once in August 2006 from the main channel of the Changjiang and its major tributaries. The concentrations and isotopic composition of nitrate were then analyzed for the waters in the Changjiang River. The delta(15)N and delta(18)O of NO(3)(-) ranges from 7.3 per thousand to 12.9 per thousand and 2.4 per thousand to 11.2 per thousand in the Changjiang River waters, respectively. The ranges of isotopic compositions of nitrate suggested that nitrification (including "modified fertilizer") and urban sewage effluent are the major sources of nitrate in the Changjiang River. The high delta(18)O-NO(3)(-) values were observed in the water of the upper reaches, indicated that the current drought might be one important reason for shifting of isotopes in the special sampling period. In addition, there was a strong positive relationship between delta(15)N-NO(3)(-) and delta(18)O-NO(3)(-), which indicated that denitrification added to the enrichment of heavy isotopes of nitrate.

摘要

长江是中国最大的淡水河。本研究首次采用双同位素方法评估了长江流域硝酸盐的来源和变化。2006 年 8 月，我们从长江干流及其主要支流采集了一次水样。然后对长江水中的硝酸盐浓度和同位素组成进行了分析。长江水中硝酸盐的 δ(15)N 和 δ(18)O 范围分别为 7.3‰~~12.9‰和 2.4‰~~11.2‰。硝酸盐同位素组成的范围表明，硝化作用（包括“改良肥料”）和城市污水是长江中硝酸盐的主要来源。在上游水中观察到高 δ(18)O-NO(3)(-) 值，表明当前的干旱可能是特殊采样期同位素迁移的一个重要原因。此外，δ(15)N-NO(3)(-) 和 δ(18)O-NO(3)(-) 之间存在很强的正相关关系，这表明反硝化作用增加了硝酸盐重同位素的富集。

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采用氮氧同位素方法评估中国长江流域硝酸盐的来源。

Assessment of the sources of nitrate in the Changjiang River, China using a nitrogen and oxygen isotopic approach.

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