06+第六章(氮同位素)演示幻灯片.ppt

1、单击此处编辑母版标题样式,单击此处编辑母版文本样式,第二级,第三级,第四级,第五级,*,第五章,稳定氮同位素,1,氮同位素概述,氮同位素分馏,自然界中稳定氮同位素分布特征,稳定氮同位素应用简介,Outline,2,1.1,氮的地球化学,一、概述,地球上最大的氮储库是大气，近地表环境中约,99%,的氮以,N,2,形式存,在于大气中和溶解在海水中。,其余的氮呈与,C,、,O,、,H,结合的形式存在于生物圈中，含量非常少，但对生命过程起极为重要的作用。,含氮矿物少见，主要有钠硝石,(NaNO,3,),、硝石,(-KNO,3,),、鸟粪石,(NH,4,MgPO,4,.6H,2,O),、磷酸镁钠石,(N

2、H,4,MgPO,4,.H,2,O),、陨氮钛石,(TiN),、氧氮硅石,(Si,2,N,2,O),等。,在地表条件下，氮可以气、液或固态存在，具有多变价态（由,+5,到,-3,），存在形式为,NO,3,-,、,NO,2,-,、,N,2,、,NH,4,+,、,NH,3,、,NO,2,、,NO,、,N,2,O,和氨基酸等有机氮等。,3,1.2,氮同位素及其丰度,Stable N Isotopes,：,14,N,：,Atomic Mass:14.0030740,；,Atomic Percent Abundance:99.634%.,15,N,:,Atomic Mass:15.0001089,；,A

3、tomic Percent Abundance:0.366%.,%,4,Titan is among the most remarkable objects in our solar system.It has a remarkable atmosphere.,Most of the atmosphere is nitrogen gas,(N,2,),as is our atmosphere.,it is cold on Titan:the surface temperature is a bit below 100 K,but the atmosphere is notably warmer

4、around 160 K,but still pretty darn cold.,The bottom line is that isotope ratios such as these are important clues into the chemical and physical processes that have evolved over time across the Universe.,5,二、氮同位素分馏,氮同位素的国际标准为大气,N,2,，其“绝对”同位素比值为,15,N/,14,N=(3676.58.1)10,-6,(Hayes,1982),，定义其,15,N=0,。

5、氮同位素样品的制样方法多为燃烧法,(Combustion),，,15,N,分析精度为,0.10.2,。,2.1,15,N,的表示方法及测定,6,2.2,大陆生态系统中的氮循环,7,2.3,氮同位素的动力分馏,氮多价态的变化有利于同位素分馏。,微生物在生物氮循环中起关键作用：,固氮过程；,硝化过程；,反硝化过程,8,固氮作用,(Fixation),：,N,2,+3H,2,O,2NH,3,+3/2O,2,动力分馏,The term fixation is used for processes that convert unreactive atmospheric N,2,into reactiv

6、e nitrogen such as ammonium,usually involving bacteria.,Fixation commonly produces organic materials with,15,N-values slightly,less than 0 ranging from 3 to+1,(,Fogel and Cifuentes 1993,)and occurs in the roots of plants by many bacteria.,The large amount of energy needed to break the molecular nitr

7、ogen bond makes nitrogen fixation a very inefficient process with,little associated N-isotope fractionation,.,9,动力分馏,2.,硝化作用,(Nitrification),：,Organic N NH,4,NO,2,NO,3,第一步基本上无氮分馏，第,2,步和第,3,步伴有较大的动力学分馏。,总分馏取决于哪一步是速率控制步骤。,如有大量氨存在，第,2,步或第,2,和第,3,步是速率控制步骤，形成的硝酸盐比初始物质亏损,15N,约,20,35,。,土壤中的氮慢慢转化为氨，第,1,步为速率

8、控制步骤，将无分馏。,实验表明，,NH,4,+,同化时分馏为,0,-27,，,NH4+,浓度越低，分馏越大，野外观测到的分馏约为,-10,（,Fogel and Cifuentes,1995),。,10,动力分馏,3.,反硝化作用,(Denitrification),：,为富氧环境下的细菌作用，将硝酸盐还原为氮气。该过程平衡了自然界的固氮过程，否则大气中的氮将在,100Ma,以内消耗殆尽。,反硝化作用的顺序为：,NO,3,-NO,2,-NO N,2,O-N,2,。,由两个步骤组成,:,细胞吸收营养物质，无分馏；营养物质分解，涉及一系列与,N-O,键破裂有关的反应，伴随着大的氮同位素分馏。,De

9、nitrification causes the,15,N-values of the residual nitrate to increase,exponentially as nitrate concentrations decrease.Experimental investigations have demonstrated that fractionation factors may change,from 10 to 30,with the largest values obtained under lowest reduction rates,.,11,Naturally obs

10、erved isotope fractionation for nitrogen assimilation(,after Fogel and Cifuentes Fogel and Cifuentes 1993,),dependence of fractionations on,nitrogen concentrations,A,t low nitrogen concentrations fractionations are nearly zero because virtually all the nitrogen is used.,12,E,quilibrium exchange reac

11、tions have been demonstrated for the common inorganic nitrogen compounds,.Of,special importance in this respect is the ammonia volatilization reaction:,=,1.0251.035,(Kirshenbaum et al.1947;Mariotti et al.1981),Experimental data,(Nitzsche and Stiehl,1984),:,=,1.0143 at 250,C and,=,1.0126,at 350,C.,V,

12、ery small,15,N-enrichment of about 0.1 occurs during the solution of,atmospheric N,2,in ocean water(,Benson and Parker 1961,).,2.4,氮同位素的平衡分馏,13,不同含氮气体原子团间的氮同位素平衡分馏系数,(,Letolle,1980,),NO NH,3,N,2,N,2,O NO,2,15,N,依次富集,14,氮同位素不同类型分馏作用的分馏因子,固氮作用,硝化作用,反硝化作用,氨蒸发作用,氮溶解作用,动力分馏,平衡分馏,15,2.5,其他物理化学效应,在扩散过程中气体运

13、移距离愈远，愈贫,15,N,，同时也贫,13,C,和,D,。这种效应是质量相关的，,=(M,1,/M,2,),0.5,。,天然气的,15,N,变异；,幔源岩石与大气氮之间的氮同位素分馏系数很大，可用前寒武纪以来的 长期扩散去气来解释；,火星大气特别高的,15,N,挥发过程中气相相对于原始物质贫,15,N,，如氮肥中,NH3,的挥发,。,NH4+,易与土壤和软泥中的“腐泥复合物”发生离子交换。在实验室离子交换树脂与水相间交换时，固相富集,15,N,达,5,25,.,。,16,三、氮同位素的天然分布,地外物质中的氮：月岩、火星大气、陨石；,表生氮同位素：大气氮、淡水、海水、动植物、土壤；,化石燃料

14、中的氮：天然气、石油、煤；,岩石圈中的氮：火成岩、沉积岩、变质岩,。,17,大气中的,NO,和,NO,2,可生成硝酸盐。煤和石油制品燃烧产生的,NO,和,NO,2,的同位素组成与被燃原料一致。土壤中的硝化和反硝化反应都可生成,NO,和,NO,2,。但其,15,N,很难与人工源的,15,N,相区分。,N2O,是一种重要的温室气体。它由细菌产生，在平流层中因光化学反应而破坏。各地土壤生成的,N2O,的,15,N,不同，一般为负值。,地下水中氮的来源，除雨水从表层土壤带来外，还有肥料、污水、动植物排泄物、地下水蓄水层中的溶解物质等。主要以,NO,3,-,式存在，在还原条件下有少量,NH,4,+,。地

15、下水的,15,N=0,25,，取决于当地的氮源。,例如：人工肥料,4 +4,；动物排泄物：,5,。,海洋颗粒有机物的,15,N,值为,3,13,，而陆地来源颗粒有机物则为,-6.6,5.2,，相对贫,15,N,。据此可研究近海区域水体的混合。,18,氮同位素在天然物质中的一般分布，以,15,N,表示,15,N,变化总范围为,100,，从约,-50,到,+50,，大部分落在,-10,到,+20,范围内。,火成岩：,-16 +31,；,水圈中的氮以大洋水中的氮为代表，,-8 +10,；,植物：,-10 +22,；,石油和煤落在现代生物范围内，,0 +15,；,天然气的,15,N,变化极大：,-45

16、 +45,；,地外物质的,15,N,变化范围最大，为,-40 +100,，而火星大气的值高达,700.,19,天然气,Natural Gas,石油,Oil,地表有机物,Terrestrial Organism,海水,Oceanic Water,大气,Atmosphere,岩浆岩,Magmatic Rock,金刚石,Diamond,海相有机物,Marine Organism,15,N/,14,N ratio in some geologically important materials,(,15,N vs.atmosphere N,2,),20,三、氮同位素的应用,生物地球化学,水文循环,海洋

17、沉积,气候变化,环境污染,地外物质,考古,21,Nitrate Contamination in aquifer systems,22,Range of,15,N values for various sources of nitrogen and the enrichment effects of denitrification and volatilization processes,.,Ranges of,15,N values from Heaton(1986)and site studies in Kansas(Townsend et al.,1996).,23,Can isotop

18、es resolve relative trophic level differences at the food web scale in the complex Everglades ecosystem?,Does food web structure(as determined by isotopes)vary over space?,Does food web structure vary over time?,23,0-1,A positive slope,24,25,The carbon and nitrogen isotope compositions of,various ty

19、pes of diets,are known and can be compared to the compositions of your,fingernails,.Hence,the graphs of your fingernail d,15,N and d,13,C values can help to identify your diet.,26,Along the groundwater flow path,denitrification is demonstrated by decreasing nitrate concentrations and increasing conc

20、entrations of excess dissolved nitrogen gas,.,Nitrate isotopic compositions measured in groundwater and potential source materials relevant to HE operations provided discrete markers,as compared to range values of nitrate isotopic compositions of soil,septic effluent,and precipitation,.,27,Distribut

21、ion of nitrate concentrations in drinking water and mortality of esophageal cancer in the Linzhou-Anyang areas in Henan Province.,1.Presidial borderline;2.Rivers;3.Isoline of nitrate nitrogen levels,20 mg/L;4.Mortality distributing isoline of EC,80100/100 thousand.,Nitrate&Esophageal Cancer?,28,Where does nitrate in groundwater come from?,29,30,