水中天然含氮有机物的形成、迁移转化及分布
The formation, transformation and distribution of natural organic nitrogen chemicals in aquatic environment
-
摘要: 天然含氮有机物是水环境中的重要组成部分,其在天然水体中的形态及分布对环境质量有显著影响.本文围绕水中天然含氮有机物在氮循环中的地位、迁移转化以及其在国内主要水域中的分布情况,对天然含氮有机物的研究现状进行了梳理.我国不同水域中溶解性含氮有机物(DON)浓度相差较大;其中水体中DON浓度一般在1.0 mg·L-1以下;沉积物中DON浓度通常为几十至几百mg·kg-1.水体DON以分子量<1 kDa的有机物为主,主要成分是尿素、氨基酸等物质.沉积物DON以分子量<1 kDa和>30 kDa的有机物为主,其中前者主要由芳构化程度较高的氨基酸等小分子有机物构成,后者以腐殖质类为主.水体中部分胺类物质本身具有一定毒性,游离氨基酸等DON还是卤乙腈、卤代酰胺、卤代硝基甲烷、卤化氰和亚硝胺等含氮消毒副产物的重要前体物.由于水体中许多含氮有机物具有生物可利用性,有机氮可能是引起水体富营养化的重要原因之一.Abstract: Natural organic nitrogen (NON) is an important constituent of aquatic environment and its form and distribution have a significant impact on the environmental quality. This review focused on the role of NON in the nitrogen cycle, and the formation, transformation and distribution of NON in major waters across China, then organized the current research of NON. The results indicated that dissolved organic nitrogen (DON) contents in water normally lower than 1 mg·L-1, and DON contents in sediments were usually tens to hundreds of mg·kg-1. The molecular fractionation results indicated that the molecular weight <1 kDa fraction accounted for the highest percentage in water, which consists of urea, amino acid, etc.. The molecular weight <1 kDa and >30 kDa fractions were the dominant fraction in sediments, and the <1 kDa fraction mainly consists of highly aromatic contents like amino acids and the >30 kDa fraction mainly consists of humic matter. Amines were likely to be toxicological. Free amino acids and amines had the potential to act as precursors in the formation of haloacetonitriles, haloacetamides, halonitromethanes, cyanogen halides and nitrosamines. NON also had the risks of causing eutrophication in waters due to its bio-availability.
-
Key words:
- natural organic nitrogen /
- formation /
- transformation /
- distribution /
- aquatic environment
-
-
[1] 李晓东, 蔡国庆. 水中有机成分及其对饮用水水质的影响[J]. 给水排水, 1999(5):3-5. LI X D, CAI G Q. Organic component in water and affect to the quality of drinking water[J]. Water & Wastewater Engineering, 1999 (5):3-5(in Chinese).
[2] 何伟, 白泽琳, 李一龙, 等. 溶解性有机质特性分析与来源解析的研究进展[J]. 环境科学学报, 2016, 36(2):359-372. HE W, BAI Z L, LI Y L, et al. Advances in the characteristics analysis and source identification of the dissolved organic matter[J]. Acta Scientiae Circumstantiae, 2016, 36(2):359-372(in Chinese).
[3] 丁绍兰, 郑长乐, 王家宏. 吸附法去除水中天然有机物的研究进展[J]. 水处理技术, 2011, 37(2):1-4. DING S L, ZHENG C L, WANG J H. Progress in study of adsorption of natural organic matter from aqueous solutions[J]. Technology of Water Treatment, 2011, 37(2):1-4(in Chinese).
[4] POSTE A E, GRUNG M, WRIGHT R F. Amines and amine-related compounds in surface waters:A review of sources, concentrations and aquatic toxicity[J]. Science of the Total Environment, 2014, 481:274-279. [5] SHAH A D, MITCH W A. Halonitroalkanes, halonitriles, haloamides, and N-Nitrosamines:A critical review of nitrogenous disinfection byproduct formation pathways[J]. Environmental Science & Technology, 2012, 46(1):119-131. [6] LEE W, WESTERHOFF P, CROUÉ J P. Dissolved organic nitrogen as a precursor for chloroform, dichloroacetonitrile, n-nitrosodimethylamine, and trichloronitromethane[J]. Environmental Science & Technology, 2007, 41(15):5485-5490. [7] WESTERHOFF P, MASH H. Dissolved organic nitrogen in drinking water supplies:A review[J]. Journal of Water Supply Research and Technology-Aqua, 2002,51(8):415-448. [8] FOWLER D, COYLE M, SKIBA U, et al. The global nitrogen cycle in the twenty-first century[J]. Philosophical Transactions of the Royal Society B:Biological Sciences, 2013, 368(1621):20130164. [9] GRUBER N, JAMES N G. An Earth-system perspective of the global nitrogen cycle[J]. Nature, 2008, 451:293-296. [10] YU C Q, HUANG X, CHEN H, et al. Managing nitrogen to restore water quality in China[J]. Nature, 2019, 567:516-520. [11] BERMAN T, BRONK D A. Dissolved organic nitrogen:A dynamic participant in aquatic ecosystems[J]. Aquatic Microbial Ecology, 2003, 31(3):279-305. [12] 李伟, 徐斌, 夏圣骥,等. 饮用水中溶解性有机氮类化合物的控制研究进展[J]. 中国给水排水, 2009, 25(8):22-26. LI W, XU B, XIA S J, et al. Review on characteristics and control of dissolved organic nitrogen in drinking water[J]. China Water & Wastewater, 2009, 25(8):22-26(in Chinese).
[13] LEE W, WESTERHOFF P, ESPARZA-SOTO M. Occurrence and removal of dissolved organic nitrogen in US water treatment plants[J]. American Water Works Association, 2006,98(10):102-110. [14] 孟亚媛. 滇池内源氮负荷特征及不同来源溶解性有机氮(DON)生物有效性[D]. 昆明:云南民族大学, 2015. MENG Y Y. The characteristics of internal nitrogen loading in Dianchi Lake sediment and bioavailability of dissolved organic nitrogen (DON) from different sources of Dianchi Lake[D]. Kumming:Yunnan Minzu University, 2015(in Chinese). [15] PEPPER I L, GERBA C P, GENTRY T J. Microbiology[M]. 3th edition. San Diego:Elsevier, 2015:344-345. [16] HEISLER J, GLIBERT P M, BURKHOLDER J M, et al. Eutrophication and harmful algal blooms:A scientific consensus[J]. Harmful Algae, 2008, 8(1):3-13. [17] BERMAN T, CHAVA S. Algal growth on organic compounds as nitrogen sources[J]. Journal of Plankton Research, 1999, 21(8):1423-1437. [18] 吴雅丽, 许海, 杨桂军, 等. 太湖水体氮素污染状况研究进展[J]. 湖泊科学, 2014, 26(1):19-28. WU Y L, XU H, YANG G J, et al. Progress in nitrogen pollution research in Lake Taihu[J]. Journal of Lake Sciences, 2014, 26(1):19-28(in Chinese).
[19] DOANE T A. The abiotic nitrogen cycle[J]. ACS Earth and Space Chemistry, 2017, 1(7):411-421. [20] LUNDEEN R A, JANSSEN E M L, CHU C, et al. Environmental photochemistry of amino acids, peptides and proteins[J]. Chimia International Journal for Chemistry, 2014, 68(11):812-817. [21] SANTOS M H S. Biogenic amines:Their importance in foods[J]. International Journal of Food Microbiology, 1996, 29(2/3):213-231. [22] THURMAN E M, WERSHAW R L, MALCOLM R L, et al. Molecular size of aquatic humic substances[J]. Organic Geochemistry, 1982, 4(1):27-35. [23] STEIN L Y, KLOTZ M G. The nitrogen cycle[J]. Current Biology, 2016, 26(3):94-98. [24] HUANG G, MENG F, ZHENG X, et al. Biodegradation behavior of natural organic matter (NOM) in a biological aerated filter (BAF) as a pretreatment for ultrafiltration (UF) of river water[J]. Applied Microbiology & Biotechnology, 2011, 90(5):1795-1803. [25] 戴树桂. 环境化学[M]. 第二版. 北京:高等教育出版社,2006,320-335. DAI S G. Environmental Chemistry[M]. 2th edition. Beijing:Higher Education Press, 2006 , 320-335(in Chinese).
[26] BOKSOON K, SANGYOUP L, JAEWEON C, et al. Biodegradability, DBP formation, and membrane fouling potential of natural organic matter:Characterization and controllability[J]. Environmental Science & Technology, 2005,39(3):732-739. [27] SCULLY N M, TRANVIK L J, COOPER W J. Photochemical effects on the interaction of enzymes and dissolved organic matter in natural waters[J]. Limnology and Oceanography, 2003, 48(5):1818-1824. [28] QIU Y, BEI E, LI S X, et al. Contributions of volatilization, photolysis, and biodegradation to N-nitrosodimethylamine removal in conventional drinking water treatment plants[J]. Science of the Total Environment, 2019, 697:133933. [29] ZEPP R G, CLINE D M. Rates of direct photolysis in aquatic environment[J]. Environmental Science & Technology, 1977, 11(4):359-366. [30] JANSSEN M L, ERICKSON P R, MCNEILL K. Dual Roles of dissolved organic matter as sensitizer and quencher in the photooxidation of tryptophan[J]. Environmental Science & Technology, 2014, 48(9):4916-4924. [31] CHEN Y, HU C, HU X, et al. Indirect photodegradation of amine drugs in aqueous solution under simulated sunlight[J]. Environmental Science & Technology, 2009, 43(8):2760. [32] 薛志欣, 杨桂朋, 夏延致. 水环境腐殖质的光化学研究进展[J]. 海洋科学, 2008,32(11):74-79. XUE Z X, YANG G P, XIA Y Z. The photochemical reaction of humic substance in water[J]. Marine Sciences, 2008,32(11):74-79(in Chinese).
[33] 陈华林. 沉积物对有机污染物的不可逆吸附行为[D]. 杭州:浙江大学, 2003. CHEN H L. Irreversible sorption behaviors of organic pollutants in sediments[D]. Hangzhou:Zhejiang University, 2003(in Chinese). [34] 赵堃, 柴立元, 王云燕, 等. 水环境中铬的存在形态及迁移转化规律[J]. 工业安全与环保, 2006(8):1-3. ZHAO K, CAI L Y, WANG Y Y, et al. The existing form, migration and transformation laws of Cr in water environment[J]. Industrial Safety and Environmental Protection, 2006 ,(8):1-3(in Chinese).
[35] 侯锦超, 赵振华, 夏立玲. 浮游藻类在水体PAHs富集与降解中的研究[J]. 环境科技, 2016, 29(2):64-68. HOU J C, ZHAO Z H, XIE L L. Effect and significance of planktonic algae in PAHs enrichment and degradation in aquatic environment[J]. Environmental Science and Technology, 2016, 29(2):64-68(in Chinese).
[36] 卢宁,刘茵.长江口原水中溶解性有机氮类化合物分析[J]. 人民长江, 2013, 44(21):104-107. LU N, LIU Y. Analysis on dissolved organic nitrogen (DON) in the raw water of Yangtze River Estuary[J]. Yangtze River, 2013, 44(21):104-107(in Chinese).
[37] 陈红, 张靖天, 华飞,等. 云贵高原湖区典型湖泊沉积物溶解性有机氮分布特征研究[J]. 环境污染与防治, 2017, 39(3):268-273. CHEN H, ZHANG J T, HUA F, et al. Study on distribution characteristics of dissolved organic nitrogen in typical lake sediments of Yunnan-Guizhou Plateau[J]. Environmental Pollution & Control, 2017, 39(3):268-273(in Chinese).
[38] 华飞, 赵广超, 张靖天, 等. 山口湖沉积物中溶解性有机氮的分布特征[J]. 环境工程技术学报, 2015, 5(2):129-135. HUA F, ZHAO G C, ZHANG J T, et al. A study on distribution characteristics of dissolved organic nitrogen (DON) in the sediments of Lake Shankou[J]. Journal of Environmental Engineering Technology, 2015, 5(2):129-135(in Chinese).
[39] 朱文倩, 徐斌, 林琳, 等. 微污染水源中溶解性有机氮组成规律及其水处理特性[J]. 中国环境科学, 2014, 34(1):130-135. ZHU W Q, XU B, LIN L, et al. Studies on dissolved organic nitrogen compositions and water-treatment behavior in micro-polluted water[J]. China Environmental Science, 2014, 34(1):130-135(in Chinese).
[40] 姚昕, 朱广伟, 秦伯强. 太湖北部水体溶解性氨基酸分布特征及其环境意义[J]. 中国环境科学, 2010, 30(10):1402-1407. YAO X, ZHU G W, QIN B Q. Distribution of dissolved amino acids and its environmental significance in water of Taihu Lake, China[J]. China Environmental Science, 2010, 30(10):1402-1407(in Chinese).
[41] 李艳平, 王圣瑞, 赵海超, 等. 洱海水-陆界面溶解性有机氮组成结构及生物有效性-以永安江为例[J]. 光谱学与光谱分析, 2017, 37(4):1189-1197. LI Y P, WANG S R, ZHAO H C, et al. The composition, structure and bioavailability of dissolved organic nitrogen (DON) in the water-land interface from Erhai Lake:A case study in Yongan River[J]. Spectroscopy and Spectral Analysis, 2017, 37(4):1189-1197(in Chinese).
[42] 翟天恩, 张靖天, 华飞, 等. 东部平原湖区沉积物中溶解性有机氮分布特征[J]. 环境工程学报, 2016, 10(9):5001-5008. ZHAI T E, ZHANG J T, HUA F, et al. Distribution characteristics of dissolved organic nitrogen (DON) in the lake sediments of Eastern Plain Region, China[J]. Chinese Journal of Environmental Engineering, 2016, 10(9):5001-5008(in Chinese).
[43] 钱伟斌, 张莉, 王圣瑞, 等. 湖泊沉积物溶解性有机氮组分特征及其与水体营养水平的关系[J]. 光谱学与光谱分析, 2016, 36(11):3608-3614. QIAN W B, ZHANG L, WANG S R, et al. Compositional characteristics of sediment dissolved organic nitrogen in typical lakes and its relationship on water trophic status[J]. Spectroscopy and Spectral Analysis, 2016, 36(11):3608-3614(in Chinese).
[44] 李文章, 张莉, 王圣瑞, 等. 洱海上覆水溶解性有机氮特征及其与湖泊水质关系[J]. 中国环境科学, 2016, 36(6):1867-1876. LI W Z, ZHANG L, WANG S R, et al. Characteristics of dissolved organic nitrogen (DON) and relationship with water quanlity in the overlying water of Erhai lake[J]. China Environmental Science, 2016, 36(6):1867-1876(in Chinese).
[45] 高悦文, 王圣瑞, 张伟华, 等. 洱海沉积物中溶解性有机氮季节性变化[J].环境科学研究, 2012, 25(6):659-665. GAO Y W, WANG S R, ZHANG W H, et al. Seasonal variations of dissolved organic nitrogen in sediments of Lake Erhai[J]. Research of Environmental Sciences, 2012, 25(6):659-665(in Chinese).
[46] 程杰, 张莉, 王圣瑞, 等. 洱海沉积物不同分子量溶解性有机氮空间分布及光谱特征[J].环境化学, 2014,33(11):1848-1856. CHENG J, ZHANG L, WANG S R, et al. Spatial distribution and spectral characteristics of dissolved organic nitrogen with different molecular weight in Erhai sediment[J]. Environmental Chemistry, 2014, 33(11):1848-1856(in Chinese).
[47] 荣蓉, 徐斌, 林琳, 等. 微污染黄浦江水溶解性有机氮的分子组成特性分析[J]. 中国给水排水, 2013, 29(1):1-5. RONG R, XU B, LIN L, et al. Characterization of dissolved organic nitrogen in micro-polluted Huangpu River water[J]. China Water & Wastewater, 2013, 29(1):1-5(in Chinese).
[48] 孙静, 水怀瑞, 田剑锋, 等. 洪泽湖水体溶解性有机氮分布特征研究[J].广州化工, 2019, 47(13):158-160. SUN J, SHUI H R, TIAN J F, et al. Study on distribution characteristics of dissolved organic nitrogen in Hongze Lake[J]. Guangzhou Chemical Industry, 2019, 47(13):158-160(in Chinese).
[49] 叶琳琳, 吴晓东, 刘波, 等. 巢湖溶解性有机物时空分布规律及其影响因素[J].环境科学, 2015,36(9):3186-3193. YE L L, WU X D, LIU B, et al. Temporal and spatial distribution characteristics of dissolved organic matter and influencing factors in Lake Chaohu[J]. Environmental Science, 2015(9):3186-3193(in Chinese).
[50] 林素梅, 王圣瑞, 金相灿, 等. 湖泊表层沉积物可溶性有机氮含量及分布特性[J].湖泊科学, 2009, 21(5):623-630. LIN S M, WANG S R, JIN X C, et al. Contents and distribution characteristics of soluble organic nitrogen in surface sediments of lakes[J]. Journal of Lake Sciences, 2009, 21(5):623-630(in Chinese).
[51] HUO S L, YU H L, XI B D, et al. Characteristics of dissolved organic nitrogen (DON) in the surface water of Beijing Olympic Forest Park[J]. Environmental Earth Sciences, 2014, 71(9), 4021-4028. [52] 关凤杰. 珠江口水体和沉积物中氮的赋存形态及其时空分布格局[D]. 广州:广东工业大学, 2017. GUAN F J. Forms and distribution of nitrogen in the water and sediments of the Pearl River Estuary, China[D]. Guangzhou:Guangdong University of Technology, 2017(in Chinese). [53] 孙文青, 陆光华, 薛晨旺. 雅鲁藏布江中下游含氮化合物的分布特征及来源解析[J]. 农业工程学报, 2020, 36(14):63-68. SUN W Q, LU G H, XUE C W. Distribution characteristics and source analysis of nitrogenous compounds in the Middle and Lower Reaches of the Yarlung Zangbo River of China[J]. Transactions of the Chinese Society of Agricultural Engineering, 2020, 36(14):63-68(in Chinese).
[54] 许可宸. 高原湖泊溶解性有机氮特性及环境学意义[D]. 北京:北京化工大学, 2018. XU K C. Characteristics and environmental significance of dissolved organic nitrogen in plateau lakes[D]. Beijing:Beijing University of Chemical Technology, 2018(in Chinese). [55] 叶琳琳, 吴晓东, 赵冬悦, 等.崇明岛河网浮游植物和无机、有机氮的时空分布特征[J]. 湖泊科学, 2016, 28(3):528-536. YE L L, WU X D, ZHAO D Y, et al. Temporal and spatial distributions of phytoplankton and inorganic and organic nitrogen in Chongming Island[J]. Journal of Lake Sciences, 2016, 28(3):528-536(in Chinese).
[56] 王晓江, 黄廷林, 李楠, 等. 峡谷分层型水源水库表层沉积物溶解性有机物光谱特征[J]. 湖泊科学, 2018, 30(6):1625-1635. WANG X J, HUANG Y L, LI N, et al. Spectral characteristics of dissolved organic matter in the surface sediments from a canyon-shaped, stratified, water-source reservoir[J]. Journal of Lake Sciences, 2018, 30(6):1625-1635(in Chinese).
[57] ZHANG H, REN S, YU J, et al. Occurrence of selected aliphatic amines in source water of major cities in China[J]. Journal of Environmental Sciences, 2012, 24(11):1885-1890. [58] BROOKS S, WRIGHT R. The toxicity of selected primary amines and secondary products aquatic organisms:A review[R]. Oslo:Norwegian Institute for Water Research (NIVA), 2008. [59] YOUNG M S, UDEN P C. Byproducts of the aqueous chlorination of purines and pyrimidines[J]. Environmental Science & Technology, 1994, 28(9):1755-1758. [60] HONG H C, WONG M H, LIANG Y. Amino acids as precursors of trihalomethane and haloacetic acid formation during chlorination[J]. Archives of Environmental Contamination and Toxicology, 2009, 56(4):638-645. [61] BOND T, TEMPLETON M R, GRAHAM N. Precursors of nitrogenous disinfection by-products in drinking water——a critical review and analysis[J]. Journal of Hazardous Materials, 2012, 235:1-16. [62] FANG J, YANG X, MA J, et al. Characterization of algal organic matter and formation of DBPs from chlor(am)ination[J]. Water Research, 2010, 44(20):5897-5906. [63] LI L, GAO N, DENG Y, et al. Characterization of intracellular & extracellular algae organic matters (AOM) of Microcystic aeruginosa and formation of AOM-associated disinfection byproducts and odor & taste compounds[J]. Water Research, 2012, 46(4):1233-1240. [64] BEI E, LI X, WU F H, et al. Formation of N-nitrosodimethylamine precursors through the microbiological metabolism of nitrogenous substrates in water[J]. Water Research, 2020, 183:116055. [65] 沈宏, 曹志洪, 胡正义. 土壤活性有机碳的表征及其生态效应[J]. 生态学杂志, 1999(3):33-39. SHEN H, CAO Z H, HU Z Y. Characterization and ecological effect of active soil organic carbon[J]. Chinese Journal of Ecology, 1999 (3):33-39(in Chinese).
[66] SEITZINGER S P, SANDERS R W. Contribution of dissolved organic nitrogen from rivers to estuarine eutrophication[J]. Marine Ecology Progress Series, 1997, 159:1-12. -
点击查看大图
计量
- 文章访问数: 5328
- HTML全文浏览数: 5328
- PDF下载数: 172
- 施引文献: 0
下载:
