Genesis and magma fertility of gold associated high-K granites:LA-ICP-MS zircon trace element and REEs constraint from Bakoshi–Gadanya granites in NW Nigeria

High-K granites dominate the rock units in the Bakoshi and Gadanya areas located in the northwestern Nigerian subshield,part of the Trans-Saharan Belt,West Africa.In this contribution,the LA-ICP-MS zircon trace element revealed the fertility of magma responsible for the high-K granites that hosts the Bakoshi–Gadanya gold mineralization.Two likely metallogenic granites types are 1)Gadanya alkali granite,with high Ce^(4+)/Ce^(3+)(mean 1485)and limited range of Eu anomalies may likely be associated with the gold mineralization,and 2)Bakoshi porphyritic granite,Jaulere biotite granite,Shanono coarsegrained granite,and Yettiti granite,all have low Ce^(4+)/Ce^(3+) ratios(mean\100,except second Bakoshi granite D2-1)with wider ranges of Eu/Eu^(*) values,thus are considered reduced granites.These reduced granites have oxygen fugacity values and Eu anomalies comparable to reduced granites associated with tin belts in Myanmar and Zaaiplaats granites in Bushveld Complex,South Africa.Ti-inZircon thermometric study revealed two thermal regimes during the crystallization of the Bakoshi–Gadanya granites:the high temperature(746–724℃):Shanono coarsegrained granite,Bakoshi granite D2-1,and Jaulere biotite granite;and relatively low temperature(705–653℃):Bakoshi porphyritic granite D1-1,Yettiti medium-grained granite,and Gadanya alkali granite.Zircon trace elements including U,Yb,Y,Nb,and Sc ratios constraint the magma source of Bakoshi–Gadanya granites to an enriched mantle metasomatized during the subduction process before its melting.Except for Gadanya alkali granite,fractionation of titanite and apatite dominate the magma evolution with limited amphibole fractionation.Melt that crystallized Gadanya alkali granite is rather saturated in zircon without accessory titanite or apatite.

Metallogenic controls on the granite-related W–Sn deposits in the Hunan–Jiangxi region, China: evidence from zircon trace element geochemistry

The Nanling Range in South China is well known for its rich granite-related W–Sn deposits.To elucidate the controls of different granite-related W–Sn metallogenesis in the region,we chose five representative orerelated granites(Yanbei,Mikengshan,Tieshanlong,Qianlishan,and Yaogangxian intrusions)in the Hunan–Jiangxi region,and studied their magmatic zircon ages and trace element geochemistry.Our new zircon data showed the differences in ages,temperatures and oxygen fugacity of the ore-forming magmas.Zircon U–Pb ages of the Yanbei and Mikengshan intrusions are characterized by 142.4±2.4 and 143.0±2.3 Ma,respectively,whereas the Tieshanlong and Qianlishan intrusions are 159.5±2.3and 153.2±3.3 Ma,respectively.The Sn-related intrusions were younger than the W-related intrusions.The Tiin-zircon thermometry showed that there was no systematic difference between the Sn-related Yanbei(680–744℃)and Mikengshan(697–763℃)intrusions and the W-related Tieshanlong(730–800℃),Qianlishan(690–755℃)and Yaogangxian(686–751℃)intrusions.However,the zircon Ce^4+/Ce^3+ratios of the Yanbei(averaged at 18.3)and Mikengshan(averaged at 18.8)intrusions are lower than those of the Tieshanlong(averaged at 36.9),Qianlishan(averaged at 38.4)and Yaogangxian(averaged at 37)intrusions,indicating that the Sn-related granitic magmas might have lower oxygen fugacities than those of the W-related.This can be explained by that,in more reduced magmas,Sn is more soluble than W and thus is more enriched in the residual melt to form Sn mineralization.The difference in source materials between the Sn-related and the W-related granites seems to have contributed to the different redox conditions of the melts.

Zircon Geochronology and Trace Element Geochemistry from the Xiaozhen Copper Deposit, North Daba Mountain: Constraints on Albitites Petrogenesis

Albitite often accompanies with various metal and gem mineral deposits and a large number of occurrences have been reported globally, including the South Qinling orogen, China. The Xiaozhen copper deposit is a typical deposit in the North Daba Mountain area of the South Qinling orogen whose distribution is controlled by albitite veins and fractures. As there are few studies on the petrogenesis of albitite in Xiaozhen copper deposit, this paper focuses on the petrogenesis of albitite and its mineralization age. Detailed fieldwork and mineral microscopic observations initially suggest that albitite from the Xiaozhen copper deposit is igneous in origin. Further zircon trace element geochemistry studies indicate that these zircons have high Th/U ratios（〉0.5）, low La content, high（Sm/La）N and Ce/Ce＊values, and a strong negative Eu anomaly, which are commonly seen in magmatic zircons. The chondrite–normalized rare earth element（REE） patterns are consistent with magmatic zircons from throughout the world, and they fall within or near the field of magmatic zircons on discriminant diagrams. The calculated average apparent Ti–in–zircon temperature for young zircons is 780°C, consistent with magmatic zircon crystallization temperatures. Therefore, zircon geochemistry indicates that the albitite origin is magmatic. SIMS U–Pb dating on nine magmatic zircons yielded a concordia age of 154.8±2.2 Ma, which represents the formation of albitite and the metallogenic age. More importantly, it is consistent with the ages of Yanshanian magmatism and metallogenesis in the South Qinling orogen, so formation of the Xiaozhen copper deposit may be a closely related geological event.

Zircon Trace Element Constraints on the Evolution of the Paleoproterozoic Birimian Granitoids of the West African Craton(Ghana)

The Paleoproterozoie Birimian granitoids of the West African Craton （WAC） in the northwestern part of Ghana, have been studied for their zircon trace elements concentrations to infer the source characteristics, origin, and magmatic evolution. The zircons in the granitoids have Th/U ratios ranging from 0.03 to 1.55, and display depleted light rare earth elements 0LREE） and enriched heavy rare earth elements （HREE） contents, characterized by pronounced positive to negative anomalies of Eu （Eu/Eu＊=0.14-0.98 and 1.01-6.06, respectively） and Ce （Ce/Ce＊=0.08-0.98 and 1.02-116, respectively）, which may imply that they were derived from both magmatic and hydrothermal sources. The geochemical plots of U/Yb vs. Y and Hf, the positive correlation between Hf and the other high field strength elements 0tFSE） and high rare earth elements （REE） contents, with enrichment in Ce and depletion in Eu, indicate that the granitoids possibly formed from partial melting of the crust. The trace elements characteristics （i.e., wide range of Hf, Ce/Ce＊, Th/U and Zr/Hf values） of the zircons suggest that crystallization of the magma occurred under variable oxidation states, which spanned over a longer period, implying that our data corroborate interpretations from studies of whole-rock geochemistry and geochronology on the granitoids of northwestern Ghana. This further indicates that the evolution of the Birimian granitoids in this part of the WAC occurred earlier than what had been reported in the literature.

In Situ Analyses of Trace Elements, U–Pb and Lu–Hf Isotopes in Zircons from the Tongshankou Granodiorite Porphyry in Southeast Hubei Province, Middle-Lower Yangtze River Metallogenic Belt, China

The Tongshankou Cu-Mo deposit, located in southeast Hubei province, is a typical skarn–porphyry type ore deposit closely related to the Tongshankou granodiorite porphyry, characterized by a high Sr/Y ratio.Detailed in situ analyses of the trace elements and U–Pb and Lu–Hf isotopes in zircons from the Tongshankou granodiorite porphyry were performed.Scarcely any inherited zircons were observed, and the analyzed zircons yielded highly concordant results with a weighted mean 206Pb/238 U age of 143.5 ± 0.45 Ma（n=20, mean square weighted deviation was 0.75）, which was interpreted to represent the crystallization age of the Tongshankou granodiorite porphyry.The chondrite-normalized rare-earth element pattern was characterized by a slope that steeply rises from the light-group rare-earth elements（LREE） to the heavy-group rare-earth elements（HREE） with a positive Ce-anomaly and inconspicuous Eu-anomaly, which was coincident with the pattern of the zircons from the Chuquicamata West porphyry, Chile.The analyzed zircons also had relatively low 176Hf/177 Hf ratios of 0.282526–0.282604.Assuming t=143 Ma, the corresponding calculated initial Hf isotope compositions（εHf（t）） ranged from-5.6 to-2.9.The results of the in situ analysis of trace elements and U–Pb and Lu–Hf isotopes in zircons from the Tongshankou granodiorite porphyry suggest that a deep-seated process involving a thickened-crust/enriched-mantle interaction may play an important role in the generation of high Sr/Y-ratio magma and potentially in the generation of porphyry Cu-Mo systems.

Significance of zircon trace element geochemistry,the Shihu gold deposit,western Hebei Province,North China

The Shihu gold deposit is characterized by gold-bearing quartz-polymetallic sulfides and quartz veins.Both Mapeng granitoids batholith and intermediate-basic dikes intruded the metamorphic basement rocks,and are spatially associated with gold mineralization.Trace element abundances in zircons from the Shihu gold deposit,determined by laser-ablation microprobe ICPMS analysis,are sensitive to source rock type and crystallization environment.Concentrations of 21 trace elements were determined for zircons from granitoid rocks,diorites,quartz diorite porphyrites and gold-bearing quartz veins revealed some elemental characteristics and chondrite-normalized trace element patterns from different samples.There were no distinctive differences in REE concentrations of zircons from plutonic rocks and quartz veins,indicating that they probably had the same origin.Relatively flat chondrite-normalized REE patterns with（Yb/Sm）N ratios less than 60 characterized zircons from quartz diorite porphyrites and quartz veins.The highest Nb/Ta ratios were found in zircons from quartz diorite porphyrites,whereas the lowest ratios were found in quartz vein zircons.The Nb/Ta ratios were broadly correlated with HREE＋Y contents,and had weak positive correlations with the depth of the Eu negative anomalies.High values U up to 0.4% and Th up to 0.1%,as well as positive correlations with REE＋Y characterized zircons from quartz vein.The lowest Th/U ratios of zircons present in quartz veins reflected the relatively high concentration of U in hydrothermal fluid,and high Pb concentrations only typified quartz vein grains relatively enriched in U and Th.Zircons from quartz diorite porphyrites showed the most pronounced Ce anomalies,whereas weak Ce anomalies were typical of zircons from quartz veins,in which Eu/Eu＊ of zircons had a broadly negative correlation with Ce/Ce＊.Trace element geochemistry of zircons from mineralized quartz veins and plutonic rocks confirmed that the sources of ore-forming materials were from Precambrian host rocks.Our results significantly enhanced the usefulness of zircon in crustal studies of the North China craton and as an indicator mineral in mineral exploration of the Taihang region.

Zircon Mineralogy and Trace Elements Composition of the Metallogenic Granites in the Nanshankeng Mine,Eastern Nanling

1 Introduction Nanshankeng tungsten-tin polymetallic mine,which is located in the eastern Nanling metallogenic belt,is newly discovered by geological investigation and evaluation with prospecting potential(Xiao et

激光剥蚀-扇形磁场电感耦合等离子体质谱法同时测定锆石U-Pb年龄和微量元素含量

激光剥蚀-扇形磁场电感耦合等离子体质谱(LA-SF-ICP-MS)具有高灵敏度特征,被广泛应用于锆石等含U矿物原位微区U-Pb定年研究,但磁偏转式质量分析器的使用导致该质谱仪扫描速度相对较慢,可能影响U-Pb同位素与其他关键微量元素的同时采集。本文通过优化仪器信号稳定性和实验方法,对目前常用的7种锆石U-Pb标准样品进行U-Pb定年和Ti、REEs、Hf等关键元素同时定量分析,探讨了多元素同时分析方法的可行性及对于U-Pb定年结果的影响。实验结果表明,相对于LA-SF-ICP-MS仅检测U-Pb同位素方法,同时开展多元素含量检测可能会使U-Pb同位素信号强度稳定性下降,导致单点U-Pb年龄结果误差及离散程度增大。与仅测定U-Pb同位素年龄的测定结果相比较,根据不同锆石样品中U-Pb同位素含量高低,多元素同时检测获得分析点的206Pb/238U年龄和207Pb/235U年龄变化范围不同程度地增大,其中207Pb/235U年龄受影响明显,单点207Pb/235U年龄误差从~1.5%增大至~2.0%,单点年龄的相对标准偏差(RSD)从0.5%~1.3%增大至1.2%~3.3%。尽管如此,多元素同时检测方法对于各样品最终测定年龄没有明显的影响,相对于TIMS年龄,各样品的谐和年龄和206Pb/238U加权平均年龄偏差分别小于1.0%和0.7%,完全满足U-Pb同位素地质年代学测试要求。同时测定锆石样品中的关键微量元素含与其推荐值相对误差小于10%。因此,采用LA-SF-ICP-MS可以同时准确地测定锆石U-Pb年龄和微量元素含量,该方法亦可用于其他副矿物U-Pb年龄与关键微量元素同时测定。

锆石氧逸度对相山地区火山岩型铀矿床成矿母岩判别的指示意义

我国华南广泛分布火山-侵入杂岩体,其中个别岩体中伴有火山岩型铀矿床的产出,因此如何区分含铀矿与不含铀矿岩体成为矿床学界关注的重要课题。本文以相山地区含铀火山-侵入岩以及周边不含铀矿侵入岩为例,开展锆石LA-ICP-MS U-Pb年龄和微量元素研究。结果显示含矿花岗斑岩的形成年龄为133.7±1.6 Ma(云际),含矿碎斑熔岩的形成年龄为132.8±1.5 Ma(邹家山),不含矿花岗斑岩的年龄为134.9±1.3 Ma(七琴)和133.3±1.3 Ma(桃溪),其在误差范围内基本一致。含矿与不含矿岩体的锆石Ce^(4+)/Ce^(3+)比值由高到低依次为:邹家山22.12~68.75(平均值为45.61),云际19.02~43.48(平均值为27.64),七琴7.99~22.03(平均值为15.63),桃溪9.70~22.40(平均值为16.19)。锆石Ti含量温度计结果显示含矿岩体锆石的结晶温度比不含矿岩体的锆石结晶温度相对更高。结合晶格应变模型和锆石Ti温度计,获得前者的绝对氧逸度亦高于后者。本研究发现相山地区含矿火山-侵入岩体中锆石的Ce^(4+)/Ce^(3+)比值普遍大于22,笔者提出锆石氧逸度可以作为判别火山-侵入岩体是否含矿的一个可能指标。此外,含矿与不含矿岩体中全岩铀含量的高低与氧逸度呈明显的正相关,我们推断含矿岩体具有较高的氧逸度可能指示了其岩体母岩浆相应地具有更高的铀含量。综合前人的研究资料,笔者发现含铀岩体的氧逸度明显低于斑岩型铜-钼矿,但与花岗岩型钨矿以及火山岩型银-铅-锌矿类似。因此,氧逸度的相对高低对铜-钼、钨-钼、铀及银-铅-锌赋矿岩体的差异性成矿有明显制约作用,可能还间接反映了地幔物质贡献比例的多少。

华南燕山期佛冈–南昆山花岗岩石成因:来自锆石微量元素、H_(2)O含量及Hf-O同位素的约束

华南地区发育大规模与稀有金属成矿相关的燕山期花岗岩,其岩石类型与成因存在诸多争议,厘清这些争议有助于理解华南地区的成矿作用。锆石是花岗岩中常见的副矿物,具有非常稳定的物理化学性质,不容易受后期地质作用影响,可以很好地保存其形成时母岩浆的地球化学信息,从而避免全岩地球化学分析的不足。本研究选取华南地区佛冈–南昆山花岗岩中的锆石进行LA-ICP-MS微量元素和Hf同位素研究,结合SIMS氧同位素和H_(2)O含量等数据,探讨佛冈岩体和南昆山岩体的岩石类型和成因。两个岩体的锆石都呈现LREE亏损、HREE富集、Eu负异常、Ce正异常,以及Zr/Hf>55、Eu/Eu~*>0.005、Hf含量低(<1.2%)等特点,明显不同于高分异I型花岗岩,指示母岩浆分异程度较低。同时,锆石的REE+Y与P含量之间的关系表明它们也不是S型花岗岩。佛冈岩体锆石较高的δ18O值(7.97‰~10.29‰)、富集的εHf(t)值(-13.6~-5.7)、较低的H_(2)O含量(核密度峰值317~412μg/g)以及较高的锆饱和温度(799~800℃)表明,佛冈花岗岩可能是源区有高比例沉积物加入的A型花岗岩。南昆山岩体也具有类似的、但变化范围更大的锆石δ18O值(6.34‰~11.11‰)、εHf(t)值(-11.1~1.1)和H_(2)O含量(297~1253μg/g)。锆石Hf-O同位素和H_(2)O含量分析结果显示,二者均具有壳幔混合的特点,其中南昆山花岗岩源区地幔物质加入比例更大。

锆石微量元素示踪锂成矿岩浆-热液演化过程

锂成矿过程中的岩浆-热液演化过程目前仍不清楚。锆石作为花岗岩和伟晶岩中普遍存在的副矿物,其微量元素成分演化可以记录岩浆演化过程。本文以松潘-甘孜构造带可尔因地区的花岗岩和伟晶岩中的锆石作为研究对象,对其进行原位微量元素分析。锆石的形态结构特征显示花岗闪长岩与花岗岩中的锆石为岩浆锆石,而伟晶岩中的锆石受到不同程度热液作用影响。元素分析结果显示,从太阳河花岗闪长岩到可尔因二云母花岗岩到无锂辉石伟晶岩到锂辉石伟晶岩,锆石中的稀有金属元素(Li、Sn、Nb、Ta和Hf)和U含量逐渐升高,锆石的Zr/Hf比值逐渐降低。除此之外,太阳河花岗闪长岩和可尔因二云母花岗岩中的锆石具有较低的Fe含量,而无锂辉石伟晶岩和锂辉石伟晶岩中的锆石具有明显升高的Fe含量,且锆石Fe含量与稀有金属元素含量具有正相关关系,反映出热液作用越强,稀有金属含量越高的特征。热液导致伟晶岩中锆石的U-Pb体系受到改造,使得获得的年龄不可靠,而伟晶岩铌钽矿U-Pb年龄(210 Ma)相对可靠。基于锆石的微量元素特征,我们认为太阳河花岗闪长岩与锂成矿伟晶岩没有成因联系,二云母花岗岩与锂成矿伟晶岩具有成因联系,但是二云母花岗岩不是成矿伟晶岩的直接母岩。二云母花岗岩和无锂辉石伟晶岩Li_(锆石)/Li_(全岩)接近甚至超过1,指示其与全岩成分不平衡,表明岩浆演化过程中曾形成富锂熔体,且富锂熔体的形成与液态不混溶作用无关,而是岩浆分异的结果。富锂熔体可能在区域拆离断层作用下从岩浆体系中分离,随后不断演化形成了锂辉石伟晶岩,而残余岩浆逐渐冷却结晶形成了二云母花岗岩和无锂辉石伟晶岩。基于锆石中的微量元素可以有效示踪锂成矿过程,并且利用碎屑锆石的微量元素特征还可以指示区域富锂岩浆的存在及其形成时代,有望成为示踪区域锂成矿的一种新方法。

云南中甸地区斑岩体锆石微量元素与Hf-O同位素特征及其对成岩成矿的启示

中甸铜多金属成矿带位于义敦岛弧南缘,被分为东、西两个斑岩带。本文以东斑岩带的普朗、地苏嘎岩体,西斑岩带的雪鸡坪岩体为研究对象,通过锆石微量元素和Hf-O同位素特征研究,结合所收集到的这些岩体的全岩地球化学数据,来揭示两个斑岩带的岩浆来源与演化过程、构造背景,并探讨造成其成矿差异的控制因素。结果表明,3个岩体所含锆石都亏损轻稀土、富集重稀土,具有明显的Ce正异常和Eu负异常,Th/U平均值分别为0.19、0.27、0.13,均为岩浆锆石。普朗、地苏嘎和雪鸡坪岩体锆石ε_(Hf)(t)值分别为-0.31±0.6、0.0±0.6、1.71±0.7,锆石δ^(18)O值分别为6.2±0.3‰、6.2±0.4‰、6.1±0.4‰;3个岩体的源区相差不大,均为壳幔岩浆混合,但普朗和地苏嘎岩体地壳物质贡献更多。全岩主微量元素变化特征与锆石Nb/Yb和Th/Nb与Eu/Eu^(*)的相关性显示东斑岩带的普朗和地苏嘎岩体比西斑岩带的雪鸡坪岩体的结晶分异程度更高。在锆石微量元素构造判别图解中,这些岩体均落在火山弧或与弧相关的造山环境范围。结合全岩的Nb-Y和Rb-(Y+Nb)判别图解,以及中甸地区成岩年龄的统计,进一步判定东、西斑岩带岩体均形成于与晚三叠世甘孜-理塘洋壳西向俯冲相关的大陆弧背景。采用锆石氧逸度计估算的普朗、地苏嘎和雪鸡坪岩体的氧逸度分别为ΔFMQ+1.58、ΔFMQ+1.42、ΔFMQ+1.91(QFM为石英-铁橄榄石-磁铁矿缓冲剂)。结合Eu/Eu^(*)值和全岩V/Sc比值分析,发现3个岩体均有较高氧逸度,但普朗和地苏嘎的岩浆氧逸度略低于雪鸡坪,说明在相对较高氧逸条件下,氧逸度高低与成矿规模不成比例。3个岩体的锆石结晶温度分别为769±34℃、783±36℃、819±40℃。结合全岩Sr/Y比值,发现普朗和地苏嘎岩浆含水量高于雪鸡坪。由此推断,更高的水含量和岩浆分异度可能是东部斑岩带比西部斑岩带发育更多斑岩矿床的重要原因,这也暗示东斑岩带具有更大的找矿潜力。

西藏加查堆花岗岩锆石U-Pb年龄、地球化学及地质意义

这是一篇地球科学领域的论文。冈底斯带岩浆岩是青藏高原基础地质研究中的热门问题。现已有的研究主要集中在中新生代,本文对早古生代代表岩体加查堆似斑状黑云母二长花岗闪长岩利用LA-ICPMS锆石U-Pb测年方法,结合岩石地球化学特征及各类图解法对加查堆花岗岩物源及区域构造属性进行分析,经研究表明岩石具有富铝(SiO_(2)平均含量68.89%)、高碱(Na_(2)O+K_(2)O平均含量6.26%)、富钾(K_(2)O/Na_(2)O=1.03)、低TiO_(2)(平均为0.50%)和准铝质(铝饱和指数A/CNK=0.933~1.033,平均0.991)的高钾钙碱性岩系特点。稀土元素表现Eu处呈负异常明显,为Eu亏损型,Ce具弱负异常;微量元素显示大离子亲石元素Rb、Th、Nd、La、K富集;高场强元素Nb、Ba、U、Ta、Ce、Sm、Ti亏损特征;反映了岩浆来源壳幔混合型,并有俯冲洋壳熔融存在。锆石LA-ICP-MS U-Pb同位素年龄为345.3±1.8 Ma,其形成时代为早石炭世。投点均落入I型花岗岩区,图解显示其形成于大陆岛弧环境,岩石经历了从板块碰撞前→同碰撞造山过程,显示了岩浆演化过程较长;火山岩组合及其地球化学特征标志着岛弧产生(初始岛弧)→发展(早期岛弧)→成熟(成熟岛弧)的演变过程。

Geochronology and zircon geochemistry of auriferous intrusions in the Bumo deposit,Hainan Province,China

Intrusion-related gold deposits(IRGS)are a lowgrade,large-tonnage exploration target.Recently,auriferous magmatic rocks were found in the Bumo deposit of the Gezhen shear zone in Hainan Province,China.However,the geochronology and geochemical characteristics of the intrusions,as well as the mineralization potential,are still unclear.Field and petrographic work show that the sulfidebearing intrusions can be divided into diorite porphyrites,quartz monzodiorites and monzodiorites.Zircon LA–ICP–MS U–Pb dating demonstrates that diorite porphyrites,quartz monzodiorites and monzodiorites were formed at104±1,114±1,114±1 Ma,respectively.In addition,sulfides in Yanshanian intrusion-related gold mineralization haveδ;S values of 0.2–4.4%,lower than those in Hercynian-Indosinian(1.9–9.8%)orogenic deposits(ca.219–378 Ma)in the Gezhen shear zone.In addition,all these intrusions display close correlations between Eu/EuN*with Th/U,consistent with the differentiation of amphibole,apatite and titanite from a hydrous melt.Moreover,zircon Eu/EuN*in the intrusions are higher than0.4,demonstrating that the magmatic rocks have high water contents and oxygen fugacity values,favorable for gold mineralization.Consequently,the Yanshanian magmatic rocks can be a new potential gold exploration target in the Gezhen shear zone.

Proto-Adamastor ocean crust(920 Ma)described in Brasiliano Orogen from coetaneous zircon and tourmaline

Proto-Adamastor ocean bathed Rodinia and successor continental fragments from 1.0-0.9 Ga up to0.75 Ga,and evolved into world Adamastor Ocean at 0.75-0.60 Ga.Mesoproterozoic oceanic crust is poorly preserved on continents,only indirect evidence registered in Brasiliano Orogen.We report first evidence of ophiolite originated in proto-Adamastor.We use multi-technique U-Pb-Hf zircon andδ^11B tourmaline isotopic and elemental compositions.The host tourmalinite is enclosed in metaserpentinite,both belonging to the Bossoroca ophiolite.Zircon is 920 Ma-old,εHf(920 Ma)=+12,HfTDM=1.0 Ga and has’oceanic’composition(e.g.,U/Yb<0.1).Tourmaline is dravite withδ^11B=+1.8‰(Tur 1),0‰(Tur 2),-8.5‰(Tur 3).These characteristics are a novel contribution to Rodinia and associated world ocean,because a fragment of proto-Adamastor oceanic crust and mantle evolved at the beginning of the Brasiliano Orogen.

Zircon geochemistry of different intrusive phases of Weiya pluton: implications for magma genesis

The characteristics of hosted magmas and their petrogenesis based on electron microprobe determination of trace element contents in zircons were discussed. Trace element geochemistry of zircons indicates that zircons in both gabbro and quartz syenite have two-generations. Zircons of the first generations are crystallized in the magma chamber, whereas those of the second generations are formed in supercooling environment. The former is richer in Zr, but poorer in U, Th, Hf and Y. Quartz diorite porphyrite contains zircons that can be distinguished into the early and late generations. Compared to the late generation, the early generation is richer in Zr but poorer in U, Th, Hf and Y. No conspicuous disruption of zircon evolution has been found in both biotite monzogranite and fine-grained granite. However, the content of zircon in fine-grained granite is higher in U, Th and Y and lower in Zr relative to biotite monzogranite without significant contrast in mass fraction ratio of ZrO2 to HfO2 ratio. Such differences in zircon geochemistry of various intrusive phases and the occurrence of the two zircon generations within a single intrusive phase suggest that these phases of magmas are generated from diverse sources during post-collisional continental extension. These magmas ascend rapidly and cool quickly in a short interval.

Three Stages of Zircon Growth in Magmatic Rocks from the Pingtan Complex,Eastern China

Morphological and chemical studies on zircon grains from gabbro and granite of the Pingtan magmatic complex, Fujian Province, eastern China, show that there are three stages of zircon growth. The early stage of zircon growth is characterized by colorlessness, high transparence and birefringence, low and dispersive Ipr and Ipy, weak and homogeneous BSE brightness, lower Hf content and depletion of U, Th and Y; the middle stage is characterized by abruptly increasing lpy, progressively strong and sectoral-zoning BSE brightness, higher Hf content and enrichment of U, Th and Y with Th/U 〉 1; the late stage of growth is characterized by brownish color, poor transparence, low birefringence, highest Ipr and Ipy, middle and oscillatorily-zoning BSE brightness, highest contents of Hf, U and Y with Th/U 〈 1. The stages are considered to be formed in a deep magma chamber, ascent passage and emplacement site, respectively. Due to the more or less long residual time of the magma chamber, the difference in age between the early and late stages of zircon might be great enough to be distinguished, which can be attributed to tectonic constraint for the magnlatism.

LA-HR-ICP-MS小束斑锆石U-Pb年龄和微量元素的同时测定

激光剥蚀电感耦合等离子体质谱(LA-ICP-MS)微区分析技术在同位素、元素含量分析中得到了日益广泛的应用,锆石是该技术最重要的测试对象之一。利用LA-ICP-MS技术,可以实现锆石U-Pb年龄和微量元素含量的同时测定。目前所建立方法的激光束斑直径大部分在20μm以上,为了进一步缩小束斑直径,提高测试空间分辨率,建立适用于小颗粒锆石的原位U-Pb年龄和微量元素同时测定技术,将仪器灵敏度较高的高分辨率电感耦合等离子体质谱(HR-ICP-MS)和193 nm准分子激光器(LA)联用,采用10、16和24μm的束斑直径对标准锆石GJ-1、Plešovice、MUD TANK和Qinghu的U-Pb年龄和微量元素含量进行分析。获得的U-Pb年龄测试相对误差小于1.3%,206Pb/238U年龄测试精度良好,当激光束斑直径为24、16和10μm时,测试精度分别优于1.8%、2.9%和4.9%。微量元素含量结果和稀土元素球粒陨石标准化曲线趋势与已发表数据结果一致。本研究建立的方法所获得的年龄及微量元素含量结果可靠,空间分辨率高,可以为小颗粒锆石样品分析提供技术手段。

湘东北幕阜山梅仙花岗岩成因及其构造意义:锆石U-Pb-Hf同位素与全岩地球化学制约

梅仙花岗岩体位于幕阜山复式花岗岩基西南部,其成岩时代、岩石成因对湘东北地区新元古代花岗岩带成因研究以及其构造背景有着重要的指示意义。本次研究对梅仙岩体中粗粒、细粒两种结构的黑云母花岗岩分别开展了LA-ICP-MS锆石U-Pb定年、锆石Hf同位素和全岩地球化学测试。分析结果显示,中粗粒和细粒花岗岩年龄分别为819.6±4.6 Ma和810.4±4.7 Ma,证实梅仙岩体形成于新元古代,代表江南造山带中段新元古代构造-岩浆活动高峰的结束。梅仙岩体的中粗粒花岗岩ε_(Hf)(t)=5.4~10.1,t_(DM2)=1.31~1.04 Ga,细粒花岗岩ε_(Hf)(t)=5.0~9.9,t_(DM2)=1.33~1.06 Ga。梅仙花岗岩具有正的ε_(Hf)(t)值,且其Hf二阶段模式年龄接近冷家溪群碎屑锆石Hf二阶段模式年龄峰值(1.4~1.0 Ga),暗示其母岩浆有新生地壳物质的参与。梅仙花岗岩具有富硅铝、高钠、中低钾、弱过铝质,较富集Rb、Th、U、Li、LREE等元素,亏损Ba、Nb、Sr、Sm等元素的特征,以及复杂的Eu异常(δEu=0.58~1.61)特征,属于或近似于火山弧花岗岩。梅仙花岗岩的Mg#值(45~59)明显高于地壳熔体的Mg#值(17~38),又暗示其母岩浆可能混入一定比例幔源物质。结合前人研究,本文认为梅仙花岗岩应是幔源岩浆底侵导致新生火成岩地壳部分熔融形成的非典型I型、I-S型花岗岩,其形成于扬子-华夏板块陆陆碰撞后期,江南造山带构造背景由挤压向伸展转换的特殊时期。

运用机器学习和锆石微量元素构建花岗岩成矿潜力判别图解:以东昆仑祁漫塔格为例

由于锆石在中酸性岩中广泛存在且成分稳定、不易受到后期热液活动的扰动,因此锆石成分可以有效记录成矿岩浆信息。其中,锆石的Ce^(4+)/Ce^(3+)、Ce/Ce*、Eu/Eu*和Ce/Nd值可以反映岩浆氧逸度和含水量等成矿信息,已被广泛用于花岗岩类成矿潜力评价。然而,随着研究的深入发现,这些地球化学指标并不完全具有普适性。此外,以往研究均是根据对成矿岩体的“已知认识”提出成矿潜力判别方法,但考虑到成矿过程的复杂性,许多反映岩浆成矿能力的地球化学信息可能均尚未被揭露。为此,笔者以东昆仑祁漫塔格成矿带为例,借助当前广泛应用的机器学习算法之一—支持向量机,对来自该成矿带斑岩-矽卡岩Cu-Fe-Pb-Zn多金属矿床成矿岩体和全球非成矿岩体的锆石数据开展机器学习训练,目的在于挖掘能够反映岩浆成矿能力的锆石微量元素特征,从而构建花岗岩成矿潜力判别图解。模型训练结果显示,在21个常见的锆石微量元素特征中,Gd、Dy、Yb、Y、Tm等5种元素特征对识别岩浆成矿能力最为重要。在此基础上,笔者新建立了10个二元判别图解,它们在识别成矿岩体和非成矿岩体时的准确率均接近1。研究表明,利用机器学习方法和地质大数据,可以挖掘传统研究方法难以发现的新的地球化学指标和图解,这对深入认识矿床成因、指导找矿勘查具有重要意义。