乌鲁木齐市 2018 年夏季降雨中溶解性有机质的光谱特征及来源解析

中国农村水利水电 ›› 2019 ›› (3) : 16-19.

祝婕¹,张键²,孟永霞³,蔺尾燕¹,杨静¹,何静⁴,邓文叶¹

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Spectroscopic Characterization and Sources Analysis of Dissolved Organic Matter( DOM) of Ｒainwater in the Summer of 2018 from Urumqi

ZHU Jie1，2，3，ZHANG Jian4，MENG Yong-xia5 ，LIN Wei-yan1，2，3， YANG Jing1，2，3，HE Jing1，2，3，DENG Wen-ye1，2，3

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摘要

利用紫外-可见光谱和三维荧光光谱，初步研究乌鲁木齐2018年夏季雨水的溶解性有机质(DOM)光谱特征，并对其来源进行解析。紫外可见光谱分析结果表明，6月降水中的DOM分子量相对较小，7月雨水样品中的腐殖化程度较高，6月、7月雨水样品中DOM的胡敏酸的含量比富里酸含量大，夏季雨水样品DOM中有机物分子缩合程度较高。三维荧光光谱分析结果表明，6月、8月雨水样品腐殖酸荧光峰是雨水荧光的主要贡献者，7月雨水样品类色氨酸荧光峰是雨水荧光的主要贡献者，夏季雨水紫外光区类腐殖质占优，腐殖化组分中稳定组分含量较小，降水样品中的DOM既有陆源输入，也受到微生物活动的影响。

Abstract

UV－ Visible spectra and three － dimensional fluorescence spectra are used to analyze structural compositions and sources of dissolved organic matter ( DOM) of rainfall in the Summer of 2018 from Urumqi． Uv－visible spectrum analysis shows that DOM with lower molecular weight in the rainwater of June，while the rainwater of July is of high humification degree in terms of the compositions of DOM，the content of humic acid is higher than fulvic acid in the samples of June and July． The molecular condensation degree of organics in DOM in summer is high． Three－dimensional fluorescence spectra analysis showed that the humic acid fluorescence peak in June and August was the main contributer of rainwater fluorescence，and the tryptophan fluorescence peak was the main contributer of rainwater fluorescence in July．The humus in the uv－light area of rainwater was dominant，and the stable component content in humus component was smaller． The DOM of rainwater was influenced by microbial activity and terrestrial inputs．

关键词

雨水 / 乌鲁木齐 / 溶解性有机质 / 紫外可见光谱 / 三维荧光光谱

基金

新疆维吾尔自治区公益性科研院所基本科研业务经费资助项目 ( ky2018106 ) ; 国家地区基金资助项目( 41465008)

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祝婕，张健，孟永霞，蔺尾燕，杨静，何静，邓文叶. 乌鲁木齐市 2018 年夏季降雨中溶解性有机质的光谱特征及来源解析[J].中国农村水利水电, 2019(3): 16-19

ZHU Jie，ZHANG Jian，MENG Yong-xia，LIN Wei-yan，YANG Jing，HE Jing，DENG Wen-ye. Spectroscopic Characterization and Sources Analysis of Dissolved Organic Matter( DOM) of Ｒainwater in the Summer of 2018 from Urumqi[J].China Rural Water and Hydropower, 2019(3): 16-19

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收稿日期	修订日期	出版日期
2018-09-28	2018-10-11	2019-03-15
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2019-12-11

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