海水硝酸盐氮、氧同位素组成研究进展   总被引：2，自引：0，他引：2  

杨志  陈敏 《地球科学进展》2012,27(3):268-275

海洋中氮的生物地球化学循环影响着海洋生态系统的结构和功能,并和全球气候变化有着密切的联系,一直是海洋科学研究的重点和热点。海水硝酸盐的15N/14N和18O/16O比值可以反映海洋中氮循环的主要过程,因而成为研究海洋氮循环的一个重要手段。综述海水硝酸盐氮、氧同位素组成的测定方法,同化吸收作用、硝化作用、反硝化作用、生物固氮作用等氮循环过程所导致的氮、氧同位素分馏及其在海洋学研究中的应用。海洋生态系中硝酸盐氮、氧同位素的分布可以提供支持生物生产力的氮来源信息,以及氮在不同储库迁移转化的路径与机制。未来的研究需要发展适用于低含量硝酸盐的同位素测量方法,构筑海洋氮的收支平衡,掌握影响上层海洋硝酸盐氮、氧同位素变化的过程,获取全球海域有关硝酸盐氮、氧同位素组成的更多数据。  相似文献   

细菌反硝化法同时分析天然水中硝酸盐氮、氧同位素组成研究   总被引：6，自引：0，他引：6  

毛绪美  罗泽娇  刘存富  刘江霞  李永勇 《地质科技情报》2006,25(5):97-100

细菌反硝化法是目前同时分析天然水中硝酸盐氮、氧同位素组成的最新方法。该方法包括反硝化菌的选取与培养,利用反硝化菌将硝酸根完全转化成N2O气体以及N2O气体的提取、纯化和同位素测定。该方法采用硝酸盐标准,对测试结果需进行试剂本底、同位素分馏、同位素交换校正。与传统方法相比,细菌反硝化法可同时分析低浓度微量水中硝酸盐的氮、氧同位素组成,且速度更快捷,结果更可靠。  相似文献   

硝酸盐氮氧同位素在海洋氮循环中的应用进展     

陈法锦  陈建芳  张海生 《矿物岩石地球化学通报》2013,(1):127-133

海洋中硝酸盐的来源及生物地球化学作用是氮循环研究的重要内容。为更好地认识海洋中氮的循环,确定海洋中硝酸盐的来源以及研究氮的生物地球化学作用显得尤为重要。由于不同来源的硝酸盐往往具有不同的氮、氧同位素,并且硝酸盐的生物地球化学作用信息也会反映在氮、氧同位素上。因此,近十年来,利用氮、氧同位素方法研究海洋硝酸盐问题正日益受到国内外研究人员的重视。本文综述了海水硝酸盐N、O同位素分析方法的研究进展,以及用硝酸盐中N、O同位素来研究海洋硝酸盐的不同来源和示踪其地球化学过程这两方面的研究进展,并指出研究中的不足,最后对我国海洋硝酸盐研究现状进行了讨论并提出符合我国国情的研究方向。  相似文献   

地表环境氮循环过程中微生物作用及同位素分馏研究综述   总被引：12，自引：0，他引：12  

李思亮  刘丛强等 《地质地球化学》2002,30(4):40-45

综述了氮循环过程中的微生物作用及其研究进展。阐述了生物固氮，微生物吸收同化，有机氮素矿化，硝化和反硝化的反应机理及反应过程中的同位素分馏。提出了微生物驱动氮循环的简要模型。微生物驱动的氮循环中不同过程有不同的同位素分馏特征。生物固氮，土壤有机氮矿化过程中分馏效应小，而吸收同化，硝化和反硝化过程中同位素分馏较大，利用各个过程不同的同位素分馏特征可示踪含氮物质的来源。转化和迁移等。  相似文献   

氮、氧同位素在地下水硝酸盐污染研究中的应用   总被引：8，自引：0，他引：8  

周迅  姜月华 《地球学报》2007,28(4):389-395

硝酸盐是地下水中难以去除的稳定污染物之一,是地下水氮(N)污染的主要形式.不同氮来源的硝酸盐氮、氧(O)同位素组成不同,可利用N、O同位素并结合其他同位素技术示踪硝酸盐污染源,识别反硝化过程,对于有效控制污染源和评估地下水对硝酸盐污染的恢复自净能力有重要意义.本文介绍了N、O同位素技术在地下水硝酸盐污染源追踪和反硝化过程的识别方面的原理和应用以及目前发展状况.  相似文献   

地下水NO3-氮与氧同位素研究进展   总被引：1，自引：0，他引：1  

邓林  曹玉清  王文科 《地球科学进展》2007,22(7):716-724

人为活动通常是地下水硝酸盐污染的主要原因.不同来源的NO3-具有不同的氮、氧同位素组成,利用地下水NO3-中的δ15N和δ18O值可有效识别地下水硝酸盐污染的来源.引起地下水中NO3-含量显著减少的不同物理、化学和生物过程,所产生的氮、氧同位素分馏效应有明显差别.地下水系统中反硝化作用发生时,NO3-中氮和氧同位素分馏系数呈一定比例.因此NO3-中δ15N和δ18O值也是示踪地下水硝酸盐循环,尤其是反硝化作用的有效手段.利用NO3-中氮和氧双同位素,并与其他环境同位素及化学分析技术相结合,示踪NO3-来源及其循环是地下水硝酸盐污染研究的重要方向之一.综述了利用地下水硝酸盐中氮和氧同位素识别NO3-污染源与循环的研究进展,简述了近年迅速发展的阴离子交换树脂取样法,概述了此方面研究存在的主要问题,并展望了今后的研究方向.  相似文献   

地下水硝酸盐氮同位素分析最新方法——细菌反硝化法   总被引：5，自引：2，他引：5  

毛绪美  罗泽娇  李永勇  刘存富 《地球学报》2005,26(Z1):44-47

细菌反硝化法是目前地下水中硝酸盐氮同位素分析的最新方法，包括反硝化菌的选取与培养、反硝化菌将硝酸盐完全转化成N2O气体、N2O气体的提取与纯化、N2O气体氮同位素测定。与传统方法相比，细菌反硝化法可分析低浓度微量水中硝酸盐氮同位素，且更为快捷可靠。  相似文献   

地下水NO3^-氮与氧同位素研究进展     

邓林曹玉清  王文科 《地球科学进展》2007,22(7):716-724

人为活动通常是地下水硝酸盐污染的主要原因。不同来源的NO3^-具有不同的氮、氧同位素组成,利用地下水NO3^-中的δ15N和δ18O值可有效识别地下水硝酸盐污染的来源。引起地下水中NO3^-含量显著减少的不同物理、化学和生物过程,所产生的氮、氧同位素分馏效应有明显差别。地下水系统中反硝化作用发生时,NO3^-中氮和氧同位素分馏系数呈一定比例。因此NO3^-中δ15N和δ18O值也是示踪地下水硝酸盐循环,尤其是反硝化作用的有效手段。利用NO3^-中氮和氧双同位素,并与其他环境同位素及化学分析技术相结合,示踪NO3^-来源及其循环是地下水硝酸盐污染研究的重要方向之一。综述了利用地下水硝酸盐中氮和氧同位素识别NO3^-污染源与循环的研究进展,简述了近年迅速发展的阴离子交换树脂取样法,概述了此方面研究存在的主要问题,并展望了今后的研究方向。  相似文献   

细菌反硝化法测定10–6级硝酸盐的氮和三氧同位素     

范昌福  曲冬梅  秦燕  胡斌  高建飞  武晓珮  李延河 《地球学报》2020,41(5):591-604

硝酸盐的氮和三氧同位素(δ15N, δ17O和δ18O)及氧同位素非质量分馏(△17O)综合研究, 可以更有效地示踪硝酸盐的来源和形成过程、制约硝酸盐的形成条件。本文详细描述了细菌反硝化法测定10–6级硝酸盐氮和三氧同位素的分析测试方法和实验要点。综合优化改良的细菌反硝化前处理方法、全自动气体预浓缩富集纯化系统和测试流程, 实现了实验室长期测定数据的稳定性, 以及多批次标准样品测定的良好重现性。10 nmol NO– 3标准样品的δ18O和δ15N测试精度分别是0.25‰(1σ)和0.40‰(1σ)。80 nmol NO– 3标准样品的δ18O、δ17O和δ15N的测试精度分别是0.5‰(1σ)、0.4‰(1σ)和0.1‰(1σ), 据此计算出的Δ17O精度为0.46‰(1σ)。  相似文献   

海洋氮循环中稳定氮同位素变化与地质记录研究进展     

《地球科学进展》2020,(2)

海洋氮稳定同位素信号包含了关键的生物地球化学信息,是辨识海洋氮来源、了解海洋氮循环过程的重要途径和手段,该信号通过海洋沉降传递可保存在海洋沉积物中,用以追溯地质历史时期海洋系统中的生物地球化学循环和海洋环境演变。近几十年的研究表明,固氮作用和反硝化作用在海洋氮循环中发挥着关键作用,但海洋环境的时空多变、海洋氮循环过程和物质来源复杂,未来需要结合现代观测、地质记录,综合海洋、生物、地质多个学科,考虑水文环境、地质过程和气候演变等多种因素,才能深刻理解海洋氮循环和气候、环境变化的耦合关系。  相似文献   

Modelling nitrogen and oxygen isotope fractionation during denitrification in a lacustrine redox-transition zone   总被引：1，自引：0，他引：1  

Moritz F. Lehmann  Peter Reichert  Alberto Barbieri 《Geochimica et cosmochimica acta》2003,67(14):2529-2542

The stable isotope composition (δ¹⁵N and δ¹⁸O) of nitrate was measured during Summer 1999 in the anaerobic hypolimnion of eutrophic Lake Lugano (Switzerland). Denitrification was demonstrated by a progressive nitrate depletion coupled to increasing δ¹⁵N and δ¹⁸O values for residual nitrate. Maximum δ¹⁵N and δ¹⁸O values amounted to 27.2 and 15.7‰, respectively.¹⁵N and ¹⁸O enrichment factors for denitrification (ε) were estimated using a closed-system model and a dynamic diffusion-reaction model. Using the Rayleigh equation (closed-system approach), we obtained ε values of −11.2 and −6.6‰ for nitrogen and oxygen, respectively. The average ε values derived using the diffusion-reaction model were determined to be −20.7 ± 3.8 for nitrogen and −11.0 ± 1.7 for oxygen. Both N and O isotope fractionation appeared to be lower when denitrification rates where high, possibly in association with high organic carbon availability. In addition, variations in the isotope effects may be attributed to the variable importance of sedimentary denitrification having only a small isotope effect on the water column. The combined measurement of N and O isotope ratios in nitrate revealed that coupled nitrification-denitrification in the open-water was of minor importance. This is the first study of nitrogen and oxygen isotope effects associated with microbial denitrification in a natural lake. Moreover, this study confirms the high potential of δ¹⁸O of nitrate as a valuable biogeochemical tracer in aquatic systems, complementing nitrate δ¹⁵N.  相似文献   

氮氧同位素在河流硝酸盐研究中的应用   总被引：9，自引：0，他引：9  

陈法锦  李学辉  贾国东 《地球科学进展》2007,23(12):1251-1257

多年来，世界各地河流普遍存在硝酸盐污染问题。为控制河流的硝酸盐污染，确定河水中硝酸盐的来源以及研究氮的循环过程就显得尤为重要。由于在不同成因下，硝酸盐的δ¹⁵N和δ¹⁸O存在着较大差异，因此利用氮、氧同位素方法研究河流硝酸盐问题正日益受到国内外研究人员的重视。综述了用硝酸盐中氮、氧同位素来研究河流硝酸盐的不同来源(大气沉降、化肥、牲畜粪、土壤硝酸盐等)和示踪其地球化学循环过程，特别是反硝化过程，这两方面的研究进展，并对我国河流硝酸盐研究现状进行了讨论及提出今后的研究方向。   相似文献   

地下水硝酸盐中氧同位素研究进展   总被引：14，自引：0，他引：14  

张翠云  钟佐燊  沈照理 《地学前缘》2003,10(2):287-291

硝酸盐中氧同位素在某些情况下能弥补氮同位素组成无显著差别的不足以及更有效地识别反硝化作用。文中综述了氧同位素检测技术、NO-3 源的氧同位素组成特征和氧同位素的应用等方面的研究进展。检测技术经历了 5个发展过程。大气和土壤环境形成的NO-3 具明显的氧同位素组成差异 ,由此可识别地下水NO-3 是来自含NO-3 化肥或大气沉降NO-3 还是来自土壤环境中的NH+ 4 经微生物硝化作用形成的NO-3 。反硝化作用使δ15N和δ18O成比例线性增加。今后的研究方向是完善检测技术、研究NO-3 中氧来自水和大气比例的影响因素及氮、氧同位素与地球化学和水文模型的结合等。  相似文献   

Review on researchesof nitrous oxide inthe Southern Oceanand relative new technologies   总被引：1，自引：0，他引：1  

Zhang Jiexia  Zhan Liyang  Chen Liqi 《地球科学进展》2013,28(11):1201-1208

Nitrous oxide is an important greenhouse gas,which has a long lifetime of about 120 years and has a 310 times greenhouse effect than CO₂. Since the industrial revolution, the atmospheric N₂O concentration has increased significantly by 20%. Ocean is a net source, about 1/3 of total oceanic souce. Southern Ocean is an important part of the global ocean system, has a unique hydrological characteristics. So far it is regarded as a significant natural source to the global N₂O flux according to the model studies. However,the field work is very limit, due to the fierce in situ conditions. The importance of N₂O reseaches of Southern Ocean, progresses of nitrous oxide researches, especially new technologies applied to underway N₂O measurements in the Southern Ocean are reviewed. The advance of field, model studies and their problems or uncertainties that need to be resolved are also discussed. The using of stable isotope methods will provide powerful tools for marine N₂O mechanism. Development of high precision monitoring technology is generally the driving force of future research. Developing techniques of laser spectroscopy in marine N₂O studies and measurment of N₂O in sea ice will provide powerful tools to differeciate the N₂O source sink characteristic, constrain their budget and formation mechanism in region such as Southern Ocean.  相似文献   

Atmospheric Deposition Connected with Marine Primary Production,Nitrogen Cycle: A Review     

Gao Huiwang  Yao Xiaohong  Guo Zhigang  Han Zhiwei  Kao Shuh-Ji 《地球科学进展》2014,29(12):1325-1332

Atmospheric Deposition (AD) provides external nutrients such as nitrogen (N), phosphorus (P) and iron (Fe) supporting the growth of phytoplankton in oceans and thereby exerts obvious impacts on carbon and nitrogen cycles and climate change associated. Specifically, the external nutrients derived from atmospheric deposition can promote the marine primary production and nitrogen fixation that enhance the ocean capacity in absorbing CO₂; AD may also change a few pathways of carbon and nitrogen cycles in oceans and increase the emissions of biogenic aerosol and radioactive gases such as N₂O, DMS, etc. Due to the underlying important impacts on climate and environmental change, AD and processes related have become the hot topics of multidisciplinary studies in the areas of ocean and atmospheric sciences, and the focus of some international core projects such as Surface Ocean Lower Atmosphere Study (SOLAS), an International Study of Marine Biogeochemical Cycles of Trace Elements and Their Isotopes (GEOTRACES) and Integrated Marine Biogeochemistry and Ecosystem Research (IMBER). With the severe air pollution and high frequencies of Asian dust events, as the downwind areas of big cities and dust sources, the East China Sea and adjacent North Pacific have received increasing influences of AD. Limited studies showed that the increase of AD indeed caused significant influence on carbon and nitrogen cycles in these immediately related oceanic areas and the study there would have a signature effect on global oceans. A multidisciplinary study on the impacts of AD in oceans, e.g., combing molecular biology and experimental ecology techniques to study primary production processes, utilizing isotopic techniques to trace the change of the nitrogen cycle, new evidences of ocean-biogenic aerosol emissions, etc. would be the focus in the future.  相似文献   

地下水硝酸盐中氮、氧同位素研究现状及展望   总被引：11，自引：0，他引：11  

朱琳  苏小四 《世界地质》2003,22(4):396-403

农业区内浅层地下水中硝酸盐污染普遍存在。为保证供水安全和有效治理污染的地下水体。确定硝酸盐中氮的来源及影响硝酸盐浓度的物理、化学作用尤为重要。由于不同成因的硝酸盐中δ^15N值存在差异，利用N同位素可以确定氮污染源，但有时存在多解性问题；分析硝酸盐的δ^18O值，可提高地下水硝酸盐污染的研究深度。本文综述了用硝酸盐中N、O同位素来区分地下水污染中硝酸盐的不同来源和示踪氮循环过程这两方面的研究进展，并提出一些值得重视的研究方向。  相似文献   

Nitrogen isotopic studies in the suboxic Arabian Sea     

S. W. A. Naqvi  T. Yoshinari  J. A. Brandes  A. H. Devol  D. A. Jayakumar  P. V. Narvekar  M. A. Altabet  L. A. Codispoti 《Journal of Earth System Science》1998,107(4):367-378

Measurements of¹⁵N/¹⁴N in dissolved molecular nitrogen (N₂), nitrate (NO ₃ ⁻ ) and nitrous oxide (N₂O) and¹⁸O/¹⁶O in N₂O [expressed as δ¹⁵N and δ¹⁸O, relative to atmospheric N₂ and oxygen (O₂), respectively] have been made in water column at several locations in the Arabian Sea, a region with one of the thickest and most intense O₂ minima observed in the open ocean. Microbially-mediated reduction of NO ₃ ⁻ to N₂ (denitrification) in the oxygen minimum zone (OMZ) appears to greatly affect the natural isotopic abundances. The δ¹⁵N of NO ₃ ⁻ increases from 6‰ in deep waters (2500 m) to 15‰ within the core of the denitrifying layer (250–350 m); the δ¹⁵N of N₂ concurrently decreases from 0.6‰ to 0.20‰ Values of the isotopic fractionation factor (ε) during denitrification estimated using simple advection-reaction and diffusion-reaction models are 22‰ and 25‰, respectively. A strong decrease in δ¹⁵N of NO ₃ ⁻ is observed from ∼ 200m (> 11‰) to 80m (∼ 6‰); this is attributed to the input of isotopically light nitrogen through nitrogen fixation. Isotopic analysis of N₂O reveals extremely large enrichments of both¹⁵N and¹⁸O within the OMZ, presumably due to the preferential reduction of lighter N₂O to N₂. However, isotopically light N₂O is observed to accumulate in high concentrations above the OMZ indicating that the N₂O emitted to the atmosphere from this region cannot be very heavy. The isotope data from the intense upwelling zone off the southwest coast of India, where some of the highest concentrations of N₂O ever found at the sea surface are observed, show moderate depletion of¹⁵N, but slight enrichment of¹⁸O relative to air. These results suggest that the ocean-atmosphere exchange cannot counter inputs of heavier isotopes (particularly¹⁸O) associated with the stratospheric back flux, as proposed by previous workers. This calls for additional sources and/or sinks of N₂O in the atmosphere. Also, the N₂O isotope data cannot be explained by production through either nitrification or denitrification, suggesting a possible coupling between the two processes as an important mechanism of N₂O production.  相似文献   

Nitrogen and oxygen isotopic compositions of water-soluble nitrate in Taihu Lake water system, China: implication for nitrate sources and biogeochemical process   总被引：7，自引：0，他引：7  

Zi-Xiang Chen  Lei Yu  Wei-Guo Liu  Michael H. W. Lam  Gui-Jian Liu  Xue-Bin Yin 《Environmental Earth Sciences》2014,71(1):217-223

The stable isotope nitrogen-15 (¹⁵N) is a robust indicator of nitrogen (N) source, and the joint use of δ¹⁵N and δ¹⁸O–NO₃ ^? values can provide more useful information about nitrate source discrimination and N cycle process. The δ¹⁵N and δ¹⁸O–NO₃ ^? values, as well as major ion tracers, from Taihu Lake in east China were investigated to identify the primary nitrate sources and assess nitrate biogeochemical process in the present study. The results show that the nitrate concentration in West Taihu Lake (WTL) was generally higher than those in East Taihu Lake (ETL) and its upstream inflow rivers. The NO₃ ^?/Cl^? value combined with mapping of δ¹⁵N–NO₃ ^? and NO₃ ^? concentration suggest that the mixing process should play a major effect in WTL, and denitrification was the dominant N transformation process in WTL. A linear relationship of close to ~1: 2 was observed between δ¹⁵N–NO₃ ^? and δ¹⁸O–NO₃ ^? values in WTL, confirming the occurrence of denitrification in WTL. The δ¹⁵N–NO₃ ^? data imply that sewage and manure were the principal nitrate sources in WTL and its feeder rivers, while the nitrate in ETL might derive from soil organic nitrogen and atmospheric deposition. The δ¹⁸O–NO₃ ^? data indicate most of nitrate from microbial nitrification of organic nitrogen matter possibly make a significant contribution to the lake.  相似文献