Magnetostratigraphy and ^(230)Th dating of a drill core from the southeastern Qaidam Basin:Salt lake evolution and tectonic implications

The Qarhan Salt Lake area is the Quaternary depocenter of the Qaidam Basin, and carries thick lacustrine sediments, as well as rich potassium and magnesium salt deposits. The abundant resources and thick sediments in this lake provide an ideal place for the study of biogas formation and preservation, salt lake evolution, and the uplift of the Tibetan Plateau. In this study, we attempt to construct a paleomagnetic and ^(230)Th age model and to obtain information on tectonic activity and salt lake evolution through detailed studies on a 1300-m-long drill core(15DZK01) from the northwestern margin of the Qarhan Salt Lake area(Dongling Lake). Based on gypsum ^(230)Th dating, the age of the uppermost clastic deposit was calculated to be around 0.052 Ma. The polarity sequence consist of 13 pairs of normal and reversed zones,which can be correlated with subchrons C2r.1r-C1n of the geomagnetic polarity timescale(GPTS 2012)(from ~2.070 Ma to ~0.052 Ma). Sedimentary characteristics indicate that Dongling Lake witnessed freshwater environment between ~ 2.070 Ma and 1.546 Ma. During this period, the sedimentary record reflects primarily lakeshore, shallow-water and swamp environments, representing favourable conditions for the formation of hydrocarbon source rocks. Between 1.546 Ma and ~ 0.052 Ma, the Dongling Lake was in sulphate deposition stage, which contrasts with the central Qarhan Salt Lake area, where this stage did not occur in the meantime. During this stage, Dongling Lake was in a shallow saltwater lake environment, but several periods of reduced salinity occurred during this stage. During the late Pleistocene at ~0.052 Ma, the Dongling Lake experienced uplift due to tectonic activity, and saltwater migrated through the Sanhu Fault to the central Qarhan Salt Lake area, resulting in the absence of halite deposition stage. The residual saline water was concentrated into magnesium-rich brine due to the lack of freshwater, and few potassium salt deposits occur in the Dongling Lake area.

高分辨电感耦合等离子体质谱法测定铀矿石样品中^234U/^238U、^230Th/^232Th和^228Ra/^226Ra同位素比值

采用氢氟酸-硝酸-盐酸混合酸密闭消解含铀矿石样品,用阴离子交换树脂、阳离子交换树脂和锶特效树脂逐级分离富集铀、钍和镭。使用高分辨电感耦合等离子体质谱(HR-ICPMS)测定分离纯化液中234U/238U2、30Th/232Th和228Ra/226Ra同位素。比值的测量精密度取决于比值的大小和对应核素浓度的大小。对质量浓度为10 ng/mL天然铀测量液,234U/238U的测量精密度优于1.2%;对230Th质量浓度为0.6ng/mL且230Th和232Th质量浓度接近的测量液,230Th/232Th的测量精密度为1.2%;对228Ra质量浓度为0.48 pg/mL且228Ra和226Ra质量浓度接近的测量液,228Ra/226Ra的测量精密度为4.0%。

MC-ICP-MS测定铀系定年标样的^230Th年龄

本研究利用Neptune Plus型多接收电感耦合等离子体质谱仪(MC-ICP-MS)测定了U和Th标准溶液的同位素比值及U系定年标样的^(230)Th年龄。结果显示:CRM 112A和Harwell Uraninite-1(HU-1)的234 U/238 U原子比值分别为(52.860±0.042)×10^(-6)(δ234 U=(-38.36±0.77)‰,n=17)和(54.911±0.007)×10-6(δ234 U=(-1.04±0.13)‰,n=27),实验数据在2σ不确定范围内与国际同类实验室一致;NBS Th标准,0.6pg ^(230)Th测试精度优于3‰;5个碳酸盐标准样品76001、GBW04412、RKM-6、RKM-5和RKM-4的230 Th年龄分别为(47 520±220)y、(86 880±340)y、(130 830±550)y、(129 380±480)y和(197 970±1 590)y,与美国明尼苏达大学、西安交通大学同类实验室测定的数据具有良好的重复性。上述数据表明,本实验建立的MC-ICP-MS法230 Th定年技术可应用于中晚更新世以来碳酸盐的U-Th定年与示踪研究。

洞穴碳酸盐^(230)Th-^(234)U-^(238)U测年初始钍校正的等时线研究

初始钍的校正是不纯沉积碳酸盐230Th 234U 238U测年的一个重要方面,洞穴石笋初始Th校正通常采用230Th/232Th的原子比值为(4. 4±2. 2)×10-6。多年来4种不同的等时线方法应用到不纯碳酸盐测年初始Th的校正中,其中全样品的等时线方法是目前公认的较为完善的一种方法。通过测定云南同一石笋2个不同层位的9个样品的U、Th同位素组成,并进行等时线分析,结果表明2层样品初始钍230Th/232Th原子比值分别为(3. 5±2. 8)×10-6和(10. 6±2. 2)×10-6,这说明即使在同一地区,由于其混入Th来源的复杂性,230Th/232Th初始比值在同一样品不同层位仍可能有较大的差异,因此不能够完全采用单一层位等时线获得的初始值对整个样品进行校正。考虑到在实验测量过程中,232Th含量的过高对于230Th的准确测定也有很大的影响,应尽量选择纯净石笋样品进行测年研究,在样品的选择和前处理过程中就减少初始钍的影响,这对获得高精度的测年结果有着重要的意义。

基于古地磁与^(230)Th定年的西沙西科1井乐东组生物礁沉积年代的初步研究

生物礁是重要的自然资源,在全球气候变化与碳循环中扮演了重要角色.磁性地层学是建立年代框架的有效手段,但是,由于生物礁沉积物中天然剩磁强度弱,南海地区生物礁的磁性地层学研究尚未很好展开.为此,本文利用西沙群岛西科1井乐东组生物礁沉积样品进行了详细的岩石磁学和磁性地层学研究.结果显示,西沙群岛乐东组记录了布容正极性时、奥杜维尔正极性时和松山负极性时.通过对比已有的钻孔资料,本文认为应基于岩石地层特征这一标准将西沙地区的乐东组埋深予以统一.在此基础上,综合磁性地层与^(230)Th定年结果,本文将乐东组的底界限定在~2.0 Ma.

MC-ICP-MS标样-样品交叉测试法测定石笋样品的^(230)Th/U年龄

借鉴国际上已经建立的方法,本研究设计了一套便捷的UTEVA树脂分离纯化U与Th的化学流程,以及多接收电感耦合等离子体质谱测量U/Th同位素的方法,用于精确测定石笋样品的230 Th/U年代。U/Th同位素的测量采用标样-样品交叉测试法(standard-sample bracketing),即在测量未知样品之前和之后分别测量标准样品的同位素,通过外部归一化和线性内插法估算测量未知样品时仪器的校正因子,如质量歧视和二次电子倍增器相对于法拉第杯的增益。为检验该方法的可靠性,本研究分析了国际U标准样品Harwell uraninite-1(HU-1)、U/Th内用标准样品MFT和已知年代石笋样品的U/Th同位素。结果显示:HU-1的δ234 U=(-1.27±2.14)‰(±2σ,n=29),该结果与国际上不同实验室的测量值在误差范围内一致。U/Th内用标准样品MFT(±2σ,n=22)的δ234 U、230 Th/238 U放射性活度比和年代平均值分别为(408.2±3.2)‰、1.002±0.003和(124.3±0.5)ka,具有较好的重现性。47个石笋样品的234 U/238 U、230 Th/238 U放射性活度比和230 Th/U校正年代的相对误差(±2σ)分别约为0.6‰、2.4‰和0.5%,与已发表数据在误差范围内吻合。

铀颗粒物中^(230)Th与^(234)U物质的量比值分析及生产年龄诊断

铀颗粒物中^(230)Th与^(234)U物质的量比值n(^(230)Th)/n(^(234)U)可用于诊断铀材料的生产年龄。转移并消解多个不同铀丰度的CRM124-4,GBW04234和GBW04238铀颗粒物制备最初溶液,分样后在各溶样瓶中分别加入定量的^(233)U稀释剂和^(229)Th稀释剂。其中,加入^(229)Th稀释剂的^(230)Th定量样品进一步分离纯化去铀,采用多接收电感耦合等离子体质谱仪(multiple colletor inductively coupled plasma mass spectrometry,MC-ICP-MS)分别测定n(^(238)U)/n(^(233)U)和n(^(230)Th)/n(^(229)Th),由同位素稀释质谱法得到最初溶液中^(238)U的质量分数w(^(238)U)和^(230)Th的质量分数w(^(230)Th)。待测铀颗粒物中n(^(238)U)/n(^(234)U)已知,计算出最初溶液中w(^(234)U)及n(^(230)Th)/n(^(234)U),最后诊断出颗粒物的生产年龄。研究结果表明:6.1×10^(-5)~3.8×10^(-4) g量级CRM124-4,GBW04234和GBW04238铀颗粒物中n(^(230)Th)/n(^(234)U)测量值的相对偏差分别为2.7%、6.1%和1.8%;CRM124-4,GBW04234和GBW04238所对应铀材料的生产年龄诊断结果分别为57.81±1.55 a,23.32±1.42 a和22.99±0.40 a(2σ),诊断精度达到国际同等先进水平。

利用钍-230(^(230)Th)修正的钍-232(^(232)Th)重建古风尘通量研究进展及其在西太平洋的应用

风尘通过影响大气辐射平衡和海洋生态系统的营养物质供应从而调控全球气候,是国际学术界广泛关注的热点问题之一。近年来,风尘的相关研究取得一系列重要进展,并提出将^(232)Th作为一种准确重建约50万年以来风尘沉积通量的途径。本文首先介绍基于^(230)Th的标准化方法,它可用于修正由于海洋底流频繁扰动引起的沉积物沉积速率变化,然后结合^(230)Th标准化方法修正后的232Th通量,并利用10.5μg/g换算得出的风尘沉积通量,通过和实测值对比,阐明了此方法的准确性。进一步通过对比晚全新世与末次冰盛期^(230)Th标准化后的基于^(232)Th获取的风尘沉积通量,也验证了此方法的可靠性。通过总结该方法在西太平洋的前期应用,认为此方法在西太平洋有着广阔的应用前景。

利用光释光和^(230)Th、^(231)Pa等放射性同位素对深海沉积物的年代测定

对2组来自孟加拉湾的深海钻孔柱样进行光释光(OSL)测年的放射性分析时发现,所测深海样品具有较高的^(230)Th、^(231)Pa等放射性核素活度浓度。利用^(230)Th_(ex)、^(231)Pa_(ex)和^(231)Pa_(ex)/^(230)Th_(ex)等参数计算柱样沉积速率,发现3种计算方式得到的结果较为一致。其中,C3钻孔的平均沉积速率介于16.2~18.2 cm/ka,CB2钻孔的平均沉积速率介于10.3~12.3 cm/ka。和光释光所得的年代数据相比,其平均值相互吻合。光释光的年代数据表明,这2组柱样可能经历了沉积速率加快的沉积过程。

利用具擦痕的钒钾铀矿的^(230)Th/U的年龄确定断层位移的时代

在以色列内格夫北部,沿某些断层面见有铀矿物、钒钾铀矿和钒钙铀矿的薄膜.野外、显微镜下和扫描电镜研究表明,钒钾铀矿是在断层形成前结晶的,然后又遭受了后期的变形作用.这可由钒钾铀矿在三维尺度上均有擦痕和擦痕面形成来证明.利用^(230)Th/U方法确定的钒钾铀矿的年龄范围为123ka～19ka,这表明断层最新的位移可能发生在晚更新世-全新世期间.因此,变形钒钾铀矿的U系被认为是确定年青断层位移时代的一种方法.

Record of hydrothermal activity in the Yuhuang hydrothermal field and its implications for the Southwest Indian Ridge:evidence from sulfide chronology

The Yuhuang hydrothermal field(YHF)is located between the Indomed and Gallieni fracture zones near the top of the off-axis slope on the south rift wall of Segment 29 on the ultraslow Southwest Indian Ridge(SWIR).Previous studies have shown that sulfides in the YHF formed during different mineralization episodes and the YHF has the greatest potential for the formation of large-scale seafloor massive sulfide deposits.However,the sulfide chronology and hydrothermal activity of the YHF remain poorly constrained.In this study,mineralogical analyses and 230Th/U dating were performed.Hydrothermal activity may start about(35.9±2.3)ka from the southwest part of the YHF and may cease about(708±81)a ago from the northeast part of the YHF.The 74 nonzero chronological data from hydrothermal sulfide samples provide the first quantitative characterization of the spatial and temporal history along the SWIR.Hydrothermal activity in the SWIR has been relatively active over the past20 ka.In contrast,between 40 ka and 100 ka,hydrothermal activity was relatively infrequently and short in duration.The maximum activity occurred at 15–11 ka,9–7 ka,6–0.2 ka.There was a slight positive correlation between the maximal age and estimated surface area or estimated tonnage.The minimum mass accumulation rate of YHF is about 278 t/a,which is higher than most HFs related to ultramafic systems.The ultraslow spreading SWIR has the greatest potential to form large-scale seafloor massive sulfides(SMS)deposits.The results of this study provide new insights into the metallogenic mechanism of hydrothermal sulfides along ultraslow-spreading ridges.

High-resolution dating of Co-rich crusts: A comparative study using the methods of orbital pacing and ^(230)Th_(ex)/^(232)Th dating

Due to their slow growth rates, seamount Co-rich crusts are very difficult to date with high resolution and precision. This paper is to test the use of orbital pacing on the growth profile of crusts to determine high-resolution age and growth rate. Crust CB14 from the central Pacific Ocean was selected for this study. We first examined the growth pattern in detail under a reflected-light microscope and ascertained that the growth environment was stable for the sub-layer 1 (0-3 mm). We then used electron micro-probe line-scanning to obtain elemental profiles. The pattern of the power spectrum analysis of the Al-profile revealed that there are significant cycles of 113.9, 87.8, 51.5, 42.2 and 25.8 μm. These cycles correspond to the Milankovitch cycles of 53.1, 41, 24, 19.7 and 12 ka, respectively, and yield the growth rate of about 2.14 mm/Ma and an age of about 1.40 Ma for the boundary between the sub-layer 1 and sub-layer 2. We also used a drilling machine with a numerically controlled drive to obtain high-resolution samples at 0.1mm intervals, and used the 230Thex/232Th method to date the samples. For the uppermost 1.3 mm, the growth rate was about 2.15 mm/Ma, and the age for the layer at the depth of 3 mm was about 1.40 Ma, which coincides perfectly with the results obtained from orbital pacing. Thus, it is considered that orbital pacing is a new and effective method to determine the growth rate of the seamount Co-rich crust. This method is applicable for establishing a high-resolution age frame for the crusts of the world's oceans.

富钴结壳高分辨率定年:地球轨道周期印记法与^(230)Th_(ex)/^(232)Th测年法对比研究

由于海山富钴结壳的生长速率十分缓慢,长期以来,对其年代和生长速率的高分辨率准确测定一直是个难题.利用电子探针原位提取中太平洋海山富钴结壳(样品号:CB14)的元素含量变化剖面,运用功率谱分析方法识别结壳第一亚层(0～3mm)Al元素含量变化曲线中存在的显著周期,通过与米兰柯维奇周期的匹配,获得结壳的高分辨率生长速率.同时,利用数控微钻对该结壳的第一亚层以0.1mm为间隔进行高分辨率连续取样,并利用230Thex/232Th法对其进行测年.结果表明利用地球轨道周期印记法得到结壳的第一亚层生长速率为2.14mm/Ma,与利用230Thex/232Th测年法获得的结壳的生长速率(2.15mm·Ma?1)相吻合,同时得到结壳第一亚层(0～3mm)底界的年龄约为1.4Ma.认为地球轨道的周期性变化所引起的气候与环境效应在结壳的生长剖面上打下了烙印,利用地球轨道周期印记法确定富钴结壳的生长速率是一个有效而且可靠的新方法,可应用于为世界海域富钴结壳建立高分辨率长序列的年代框架.

电感耦合等离子体质谱法快速准确表征浓缩铀材料

本研究联合三重四极杆电感耦合等离子体质谱(ICP-QQQ-MS)和多接收电感耦合等离子体质谱(MC-ICP-MS),快速准确地测量浓缩铀材料中铀同位素丰度比值、^(230)Th/^(234)U和^(231)Pa/^(235)U原子物质的量比值,并诊断铀年龄。结果表明,Neptune XT型MC-ICP-MS和Agilent 8800型ICP-QQQ-MS对^(233)U丰度的有效检测限分别为3×10^(-9)和6×10^(-10),适用于^(233)U丰度高于6×10^(-8)和样品量充足的样品,对10^(-7)量级^(233)U/^(235)U同位素丰度比的测量精密度达到1.0%(2σ)和4.8%(2σ)。采用GBW04240作为外标校正质量分馏效应,建立了基于ICP-QQQ-MS的10-5量级原子物质的量比值的230Th/234U和10-8量级原子物质的量比值的231Pa/^(235)U的同时测量方法,对230Th-234U和231Pa-^(235)U模式年龄的检测限分别达到0.2 a和0.5 a,定年不确定度为0.65 a(2σ)和0.67 a(2σ)。结合MC-ICP-MS测量的234U/^(235)U、^(235)U/238U和236U/^(235)U等同位素丰度比值,判断某批次浓缩铀样品可能用于实验堆,最后一次分离纯化时间在2009年左右,且均已经历反应堆辐照。该技术将铀年龄诊断由经典系统分离定量方法的1个月左右缩短至1周以内,分析速度快、结果准确,可为核取证、核标准物质研制定值和核保障监督等提供技术支持。

洋中脊和洋岛玄武岩过剩^(230)Th成因:全球铀系同位素数据库、常量和稀土元素地球化学制约

通过洋中脊和洋岛玄武岩230Th-238U不平衡和常量元素数据,进行地幔熔融参数计算,并分析了过剩230Th的成因.快速和慢速洋中脊玄武岩(230Th/238U)在整体上与初始熔融深度(Fe8,P0)和平均熔融程度(Na8,Fmelt)明显呈正相关;洋岛玄武岩过剩230Th与地幔初始熔融深度和平均熔融程度没有明显的相关性,且与洋中脊玄武岩相比,其较高的(230Th/238U)反而对应更低的部分熔融程度.这表明洋中脊玄武岩过剩230Th受地幔熔融条件的控制,洋岛玄武岩过剩230Th更像是受深部难熔石榴子石相的控制,而不直接受控于地幔熔融条件.计算获得绝大多数230Th过剩的洋中脊玄武岩初始熔融压力介于1.0～2.5GPa之间,与近年来实验在压力>1.0GPa时单斜辉石相中出现DU>DTh的结论相符;洋岛玄武岩的初始熔融压力多介于2.2～3.5GPa,大约在尖晶石-石榴子石转换带附近,其相对洋中脊玄武岩较低的过剩226Ra也暗示更深的地幔源区.据此,洋中脊和洋岛玄武岩过剩230Th可能分别形成于尖晶石-和石榴子石-二辉橄榄岩源区.另外,洋中脊玄武岩的K2O/TiO2与(230Th/238U)和初始熔融压力(P0)相关性不明显,因此形成过剩230Th的地幔深度范围内不存在明显的尖晶石-石榴子石相转换.洋岛与洋中脊玄武岩在(230Th/238U)-K2O/TiO2和(230Th/238U)-P0图解上位于两个明显分割的区域内,说明控制洋岛和洋中脊玄武岩过剩230Th的矿物相不同.快速和慢速扩张洋中脊Ce/Yb-Ce曲线相似,甚至快速扩张洋中脊的Ce/Yb比值略低,相比之下,洋岛玄武岩Ce/Yb-Ce曲线显示其受石榴子石影响较为明显.因此,洋中脊与洋岛玄武岩过剩230Th的控制因素存在明显的差异性,而过剩230Th形成于石榴子石源区的机制只适合于洋岛而不适合于洋中脊玄武岩.

APPLICATION OF ^(227)TH/^(230)TH METHOD AND RELIABILITY OF U-SERIES AGE OF STALAGMITIC CARBONATE

We have pointed out that, after excluding operational errors, the 230Th/234U age of stalagmitic calcite shows a satisfactory internal consistency. However, good precision of the results, together with its coherence with stratigraphic sequence, is only a necessary but not a sufficient condition for ascertaining its validity.

西沙西科1井三亚组生物礁沉积的磁性地层及其环境意义

生物礁沉积是南海乃至西北太平洋重要的沉积类型之一。本文利用新近钻进取芯的南海西沙西科1井生物礁沉积,开展了详细的磁性地层学研究。结果显示,早中新世三亚组记录了跨度为C5Dn^C6An正极性时的生物礁沉积。在综合全孔年代学结果的基础上,划分出新近纪西沙地区生物礁生长、发育的3个阶段:>约16.5 Ma和<约13.5 Ma两个稳定堆积时期,以及16.5~13.5 Ma快速堆积的"中中新世跃迁事件"。此外,本文推测西沙地区生物礁初始发育的时间显著早于过去认为的约20 Ma,同时三阶段的演化模式可能与南海扩张-结束的构造环境密切关联。

年轻石笋平均沉积速率的确定——多方法探讨

石笋凭借其准确的年代学和对洞穴外界环境的敏感响应,已经成为第四纪研究的重要力量。亚洲季风区轨道-千年尺度石笋δ18O指示亚洲季风强弱的变化,但是在更短的时间尺度上,石笋δ18O则可能受到其他因素的影响,因此近现代、能与器测记录进行对比的石笋记录研究是衔接现代气候与古气候的关键环节。而这关键环节中的关键问题就是确定石笋的沉积年代。寻找一种适合于无生长纹层、低U含量石笋样品的年代方法对于解决石笋沉积年代有着重要的推动作用。本研究选择广西桂林茅茅头大岩一正在生长的年轻石笋。由于低U含量、高232 Th含量,U系-230 Th定年不成功。利用210Pb定年计算出平均沉积速率为1.96±0.23mm/a,但由于多层晶间孔隙的存在,计算结果偏小。由于石笋中14 C基本为核爆产生,AMS 14 C测试结果计算石笋平均沉积速率为2.10mm/a,但由于未测量到核爆前14 C数据,其值可能仍偏小。由于前人研究指出桂林地区石笋记录能记录夏季风降水,结合桂林多年降水数据,综合计算出该石笋平均沉积速率为2.44mm/a,生长时限为2009—1968年。平均沉积速率和沉积时代的确定,为后续的石笋现代气候研究,进而与古气候衔接提供了重要的研究基础。

末次冰消期以来气候期划分的准确定位与定年

对贵州荔波董歌洞D4石笋的再次高密度^230Th测年及碳、氧同位素分析，在16ka以来的部分，平均分辨率达18a。研究表明，氧同位素记录除反映季风的强弱变化外，能更好地揭示H1，BA，YD以及全新世中9．1ka，8．2ka、4．6ka气候突变事件。碳同位素记录和沉积速率则能更好地反映气候干湿的变化。石笋记录对气候期的正确划分及突变事件的准确定位及定年，可为全球变化其他记录的研究提供一个可靠时间系列的基准标尺。

Downcutting and uplifting in the middle part of Qinling orogenic belt during the late Quaternary

Layered cave passages formed on the walls of the Qianyou River valley in the middle part of the Qinling Mountains since the Pleistocene due to the intermittent uplifts. 12 speleothem samples near ruins of palaeowater tables in 3 cave passages are dated by using the Th method. The results show that the 3 caves began to uplift (358±38) ka, (247±28) ka, (118±19) ka ago respectively. Given the differences of elevation between the caves, we could obtain the downcutting rates of the valley: (0.23±0.02) mm/a during 358 -247 ka, (0.19±0.03) mm/a during 247-118 ka, and (0.51(0.08) mm/a since 118 ka. This implies that more and more strong uplifting sustained in the middle part of Qinling since 358