黄河沉积物REE和143Nd/144Nd的粒度解耦:碎屑矿物制约

检验大型入海河流碎屑沉积物不同粒级间的稀土元素(REE)和放射性成因Nd同位素(Nd/Nd)解耦对于研究边缘海沉积物的源-汇过程及其矿物资源效应具有重要意义。本文对4件黄河沉积物黏土-粉砂-砂粒级碎屑的REE和Nd/Nd解耦的检验结果表明,3个连续粒级间的稀土元素总量(ΣREE)解耦和轻、重稀土元素分馏(LREE/HREE)几乎不受流域化学风化的影响,而是受制于粉砂和砂粒级碎屑中的白云母、长石类矿物和锆石等副矿物;黏土碎屑的中稀土元素(MREE)亏损归因于易风化的副矿物(如磷灰石)风化释放的MREE更多地与Fe-Mn(氢)氧化物结合,而被高岭石固定的较少;砂粒级碎屑的正Eu异常主要受制于粉砂和砂粒级碎屑中长石类矿物和锆石等副矿物的相对比例。化学风化不会导致Nd/Nd显著的粒度解耦。粉砂-砂粒级碎屑Nd/Nd显著解耦不仅受制于2个粒级的云母和长石类矿物相对比例,而且也与不同来源的碎屑物质在2个粒级中的贡献比例差异有关。

钕同位素比值^(143)Nd/^(144)Nd标准溶液研制

钕同位素比值(^(143)Nd/^(144)Nd)是Sm-Nd同位素方法的关键量值,由于被测样品的^(143)Nd/^(144)Nd比值变化范围很小,所以对^(143)Nd/^(144)Nd比值测试的精准度要求很高(精度优于0.005%)。为了获得高精度和高准确度的测试数据,分析过程中所用Nd同位素标准物质起着重要作用。以往的Nd同位素标准物质都是氧化钕,经过近三十年有的已消耗殆尽。本文阐述了钕同位素比值^(143)Nd/^(144)Nd标准溶液的研制,经检验标准溶液的均匀性和稳定性良好,由11家实验室协同定值,采用MC-TIMS和MC-ICP-MS方法测定^(143)Nd/^(144)Nd,确定了Nd同位素标准溶液的特性值^(143)Nd/^(144)Nd=0.512438,不确定度为5×10-6。此标准溶液于2015年5月获得国家标准样品证书(批号为GSB 04-3258—2015),可被用于地质、资源、海洋、环境、考古等多种样品^(143)Nd/^(144)Nd比值测定时的仪器校准和分析过程的质量监控。

利用MC-ICPMS精确测定^(143)Nd/^(144)Nd和Sm/Nd比值

多收集器等离子体质谱(MC-ICPMS)用于分析Sm-Nd同位素时,质量分馏系数(β)与同位素的质量数呈线性关系。可以采用两种方法进行质量分馏校正:双分馏系数内部校正法(DFIC)和单分馏系数外部校正法(SFEC)。采用DFIC法,对国际标样Shin-EtsuJNdi-1和实验室标样Nd-GIG进行了为期五个月的143Nd/144Nd比值测量统计,结果分别为0.512120±0.000012(2σSD)、0.511532±0.000013(2σSD)。采用SFEC法,对Nd-GIG标样的测量统计结果为0.511525±0.000015(2σSD)。两种方法的测量结果在分析误差范围内与其推荐值或TIMS测量值完全一致。对加Ce和Sm的Nd-GIG混合溶液分别进行了Ce和Sm对143Nd/144Nd比值分析的干扰校正研究和Sm/Nd比值测量,结果显示,143Nd/144Nd比值分别与Ce/Nd、Sm/Nd测量值呈线性关系,Sm/Nd测量值与其质量比值亦呈很好的线性关系。这表明利用MC-ICPMS可以快速精确地测定存在Ce、Sm干扰的样品的143Nd/144Nd比值,同时可获得精确的Sm/Nd比值,而无需加入稀释剂。这就使直接测定地质样品的Sm-Nd等时线年龄成为可能。

多接收电感耦合等离子体质谱法测定Nd同位素标准物质

The precision and accuracy of Nd isotope analysis using multicollector-inductively coupled plasma mass spectrometry (MC-ICPMS) is verified through repeated measurements of standard reference materials of JMC Nd2O3 and GBW04419. A mixed solution of Nd separated from hundreds of geological samples is measured for 143Nd/144Nd ratio, which produces excellent long-term repeatability. This solution, named as CAGS-Nd-1, can be used as an in-house reference material for monitoring instrument stability during Nd isotope measurements.

海洋沉积物不同相态中Sr、Nd同位素提取方法研究

海洋沉积物中Fe-Mn氧化物相和残渣态的Sr、Nd同位素组成能够敏感地指示洋流循环及物质来源,但实验室对沉积物中上述相态的Sr和Nd同位素的提取易产生过量或提取不完全,进而影响同位素测定结果的准确性,因此制定有效的提取流程显得非常重要。本文采用不同浓度盐酸羟胺(Hydroxylamine Hydrochloride,HH)与醋酸(Acetic Acid,HAc)混合溶液对中印度洋海盆深海沸石黏土、北极半深海沉积物以及安达曼海近海沉积物的Fe-Mn氧化物相进行提取,残渣态用HNO3-HF高压密闭消解法溶融,测定了各相态的主微量元素含量及Sr、Nd同位素组成,通过分析不同实验条件下得到的Fe-Mn氧化物相与残渣态的稀土元素(REE)配分模式、Al/Nd含量比值及Sr、Nd同位素组成,建立了3种不同成因类型海洋沉积物不同相态的化学提取方法。提取深海沸石黏土中Fe-Mn氧化物相的理想试剂条件为0.25 mol/L HH和15%HAc,北极半深海沉积物和安达曼海近海沉积物的试剂条件为0.5 mol/L HH和15%HAc。该方法可以准确获得沉积物中Fe-Mn氧化物相与残渣态的Sr、Nd同位素组成信息,为古海洋学的研究提供方法支持。

Petrogenesis of 3.15 Ga old Banasandra komatiites from the Dharwar craton, India： Implications for early mantle heterogeneity

Spinifex-textured, magnesian （MgO 〉25 wt.%） komatiites from Mesoarchean Banasandra greenstone belt of the Sargur Group in the Dharwar craton, India were analysed for major and trace elements and 147,146Sm-143,142Nd systematics to constrain age, petrogenesis and to understand the evolution of Archean mantle. Major and trace element ratios such as CaOJAl203, Al2O3JTiO2, GdJYb, LaJNb and NbJY suggest aluminium undepleted to enriched compositional range for these komatiites. The depth of melting is estimated to be varying from 120 to 240 km and trace-element modelling indicates that the mantle source would have undergone multiple episodes of melting prior to the generation of magmas parental to these komatiites. Ten samples of these komatiites together with the published results of four samples from the same belt yield 147Sm-143Nd isochron age of ca. 3.14 Ga with an initial ENd（t） value of ＋3.5. High precision measurements of 142Nd/144Nd ratios were carried out for six komatiite samples along with standards AMES and La Jolla. All results are within uncertainties of the terrestrial samples. The absence of 142Nd/144Nd anomaly indicates that the source of these komatiites formed after the extinction of 146Sm, i.e. 4.3 Ga ago. In order to evolve to the high eNd（t） value of ＋3.5 by 3.14 Ga the time-integrated ratio of 147Sm/144Nd should be 0.2178 at the minimum. This is higher than the ratios estimated, so far, for mantle during that time. These results indicate at least two events of mantle differentiation starting with the chondritic composition of the mantle. The first event occurred very early at ~ 4.53 Ga to create a global early depleted reservoir with superchondritic Sm/Nd ratio, The source of Isua greenstone rocks with positive ~42Nd anomaly was depleted during a second differentiation within the life time of 146Sm, i.e. prior to 4.46 Ga. The source mantle of the Banasandra komatiite was a result of a differentiation event that occurred after the extinction of the 146Sm, i,e. at 4.3 Ga and prior to 3,14 Ga. Banasandra komatiites therefore provide evidence for preservation of heterogeneities generated during mantle differentiation at 4,3 Ga.

多接收器等离子体质谱仪测钕同位素比值的质量歧视校正初探

利用国内首次引进的Nu Plasma型MC-ICPMS,对Nd同位素测试过程的质量歧视效应特征进行了研究.发现该类仪器测试过程的质量歧视效应并不完全符合指数函数,也不符合幂函数.质量歧视引起的同位素分馏随同位素对的平均质量数变化,但不严格遵从线性关系.只是在较小质量范围内呈近似线性关系.据此,用双分馏系数校正法可以获得143Nd/144Nd的校正系数,并用来校正143Nd/144Nd值.用此方法获得的JNdi-1的143Nd/144Nd值为O.512 107±O.OOO 008(2RSD),在测量误差范围内与TIMS测定值完全吻合.

多收集器等离子体质谱快速精确测定钕同位素比值

应用多收集器等离子体质谱,采用双分馏系数内部校正法对国际标样Shin-EtsuJN di-1和实验室标样Nd-GIG的143Nd/144Nd比值进行了为期3个月的测量统计,结果分别为0.512121±0.000011(2σ,SD)、0.511531±0.000010(2σ,SD)。采用单分馏系数外部校正法对Nd-GIG标样的测量统计结果为0.511522±0.000008(2σ,SD)。测量结果在分析误差范围内与其推荐值或表面热电离质谱测量值完全一致。对m(Ce)/m(Nd)约为0.10的两份Nd-GIG混合样进行了测量,结果表明,利用多收集器等离子体质谱可直接分析残留铈的样品,其测量结果在误差范围内。