Zircon U-Pb geochronology of ore-bearing plagiogranite porphyry in the Tuanjiegou gold deposit, Heilongjiang Province, NE China     

HU Xinlu  DING Zhenju  HE Mouchun  YAO Shuzhen  ZHU Bopeng  SHEN Jun  CHEN Bin  CUI Yubao 《《地质学报》英文版》2013,87(Z1):699-700

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福建紫金山矿田中生代岩浆岩演化序列研究   总被引：2，自引：0，他引：2  

于波  裴荣富  邱小平  陈景河  黎敦朋  张文慧  刘文元 《地球学报》2013,34(4):437-446

福建紫金山矿田中生代岩浆活动分为晚侏罗世和早白垩世二幕,第一幕为晚侏罗世(154~149 Ma)挤压环境下的岩浆活动,表现为壳源S型花岗岩紫金山复式岩体与才溪岩体的侵位,复式岩体具有154 Ma、150 Ma及149 Ma三次脉动;才溪岩体侵位时代约150 Ma。第二幕发生于早白垩世(125~93 Ma)构造拉张、地幔上涌的环境,岩浆活动共4期,形成一套 I 型花岗岩及共源异相的火山岩、次火山岩,为成矿提供了物源和热源。其中第1期为早白垩世火山喷发与岩浆超浅层就位,形成石帽山群下段的英安岩及紫金山次火山岩(125~118 Ma);第2期表现为石帽山群下段安山岩喷发与四方岩体的侵位以及英安玢岩的形成(109~103 Ma);第3期表现为石帽山群下段英安岩的喷发和罗卜岭—紫金山似斑状花岗闪长(斑)岩的侵位以及龙江亭、二庙沟附近的石英闪长玢岩的形成(103~100 Ma);第4期表现为晚期罗卜岭斑岩的侵位、石帽山群上段流纹岩的喷发和大岩里花岗斑岩岩脉、金铜矿的石英斑岩脉等成矿后期无矿脉岩的形成(100~93 Ma)。晚侏罗世、早白垩世两个岩浆系统各自形成共源岩浆异地异相分异演化的格局。  相似文献   

最小二乘直线拟合方法及其在同位素地质年代学中的应用研究   总被引：2，自引：0，他引：2  

范文博  王文龙  陈岳龙  李大鹏 《地质论评》2013,59(5):801-815

最小二乘法(least squares method)是直线拟合常用的方法,在自然科学和社会科学内被广泛应用,尤其在同位素地质年代学领域更是必不可少。仅考虑x或y误差的普通最小二乘法(normal/ordinary least squares)广为人知,但事实上最小二乘法并非如此简单,尤其是在同时考虑x、y误差(乃至误差相关)并采用加权处理时,其数学处理方法会变得十分复杂,而此时普通最小二乘法显得极不合理。本文在前人研究的基础上,结合同位素地质年龄计算的需要,对直线拟合的最小二乘法进行了系统地总结研究,详细介绍了普通最小二乘法、加权普通最小二乘法(normal/ordinary weighting least squares)、标准加权最小二乘法(standard weighting model)、标准独立加权最小二乘法(standard independent weighting model)、独立加权最小二乘法(independent weighting model)及误差相关最小二乘法(error correlated independent weighting model)的数学原理及相关变量的计算过程。在此基础上,进一步阐述了MSWD(mean squared weighted deviation)这个同位素地质年代学中经常使用的参数的数学意义,以及MSWD对计算结果的评判意义。准确理解这些数学方法,对于我们合理选择同位素地质年龄相关参数的计算方法,科学评价直线拟合结果并探讨其地质意义至关重要。我们的研究同时有助于拓展和完善数学领域最小二乘法的基本理论,并可用于其他领域相似的研究之中。  相似文献   

U–Pb SHRIMP ages of volcanic zircons from the Merrions and Turondale Formations,New South Wales,and the Early Devonian time‐scale: A biostratigraphic and sedimentological assessment     

G. H. Packham 《Australian Journal of Earth Sciences》2013,60(2):169-179

U–Pb ages for volcanic zircons from the Lower Devonian Turondale and Merrions Formations initially dated by Jagodzinski and Black (1999) have been recalculated by Compston (2000, 2001). The Turondale, Waterbeach and Merrions Formations are, in ascending stratigraphic order, three of the Lower Devonian deep‐water formations of the Hill End Trough. The recent discovery of a Lochkovian conodont fauna of the delta zone in derived limestone blocks from the uppermost beds of the Turondale Formation has established a maximum age for that horizon. The principal lithological assemblages of the formations are volcanic (megaturbidite and lavas), epiclastic turbidites and essentially hemipelagic lithologies. The mean zircon ages suggest a long duration for the Merrions Formation, 615 m thick and 91% volcanic, and a very much shorter interval for the upper two‐thirds of the Turondale Formation, 360 m thick and 34% volcanic, plus the intervening non‐volcanic Waterbeach Formation, 512 m thick. A sedimentological model based on scaled depositional rates for the facies has been used to estimate the relative accumulation rates and durations of the succession from the base of the Turondale Formation to the top of the Merrions Formation. The model indicates that the Merrions Formation accumulated in a much shorter time than the interval from the top of the lower Turondale Formation to the base of the Merrions Formation. The analytical uncertainties of the Jagodzinski and Black (1999) zircon ages are large enough to be compatible with the sedimentological model, but the smaller analytical uncertainties calculated by Compston (2000, 2001) fall far from the scaled sedimentological model. Grouping together of the lower Merrions Formation and lower Turondale Formation zircon dates in Compston (2000) for a single mid‐Lochkovian age is in conflict with the biostratigraphic and sedimentological evidence available and the derived time‐scale for the Early Devonian is highly questionable. Given the incompatibility of the recalculated zircon ages with the depositional history and the uncertainty of biostratigraphic dating of the formations, neither of the quite different sets of ages quoted in Compston (2000, 2001) are useful for the definition of a numerical time‐scale.  相似文献   

Age and metasomatic alteration of the Mt Neill Granite at Nooldoonooldoona Waterhole,Mt Painter Inlier,South Australia     

M. A. Elburg  P. D. Bons  J. Dougherty-Page  C. E. Janka  N. Neumann  B. Schaefer 《Australian Journal of Earth Sciences》2013,60(5):721-730

Quartz feldspar augen gneisses, quartz augen schists and trondhjemites outcrop at Nooldoonooldoona Waterhole in the southwestern corner of the Proterozoic Mt Painter Inlier, northern Flinders Ranges, South Australia. These rocks were previously interpreted as having different origins and ages. However, we argue that all rock types were the result of deformation and strong metasomatic alteration of one common precursor: the Mt Neill Granite. Our conclusion is based on field observations that show that the different lithologies grade into each other and that intrusive contacts are lacking. Whole rock major and trace element analyses also point to a common protolith. Finally, Pb/Pb dating of magmatic zircons gave the same ca 1576 Ma age for the different rock types. Our findings necessitate a re evaluation of the published regional geology and lithostratigraphy of the Mt Painter Inlier. They also indicate that extreme care should be taken in the classification and genetic interpretation of rocks that have experienced extensive metasomatic alteration, which is common in many high grade terrains in Australia.  相似文献   

Deformation history and timing of granite emplacement in the Butchers Hill — Helenvale region,northern Hodgkinson Province,Queensland   总被引：1，自引：1，他引：0  

B. K. Davis  R. A. Henderson  M. Lindsay  R. Wysoczanski 《Australian Journal of Earth Sciences》2013,60(5):775-785

Granite plutons of the Whypalla Supersuite in the Butchers Hill — Helenvale region of north Queensland were intruded into the upper crust of the Hodgkinson Formation during contractional deformation associated with the Permian‐Triassic Hunter‐Bowen Orogeny. A four‐stage structural history has been resolved for the area, with fabric overprinting relationships, porphyroblast‐matrix microstructural geometries and isotopic ages being consistent with granite emplacement during D₄ shortening at ca 274 Ma. Microstructural relationships suggest the possibility of a minor syn‐D₃ phase of granite emplacement. The deformation‐emplacement history of the Butchers Hill — Helenvale area is consistent with that recognised regionally for the Hodgkinson Province, indicating province‐wide synchronous syntectonic granite intrusion during a major phase of contractional deformation. Intense syn‐emplacement deformation partitioning was ongoing in the country rocks during progressive D₄ and was associated with upward translation of country rock from the microscale to the macroscale along D₄ cleavages and shears. Kinematic indicators show that this progressive uplift, at the scale of the area examined, was east‐side‐up.  相似文献   

Effect of Pb loss on the ages of reference zircons QGNG and SL13, and of volcanic zircons from the Early Devonian Merrions and Turondale Formations,New South Wales   总被引：1，自引：0，他引：1  

W. Compston 《Australian Journal of Earth Sciences》2013,60(6):797-803

Recent papers (Black et al. 1997; Jagodzinski & Black 1999) reported that SL13‐referenced SHRIMP zircon ages are ca 1.3% younger than QGNG‐referenced ages. It is shown here that these authors overestimated their analytical errors and as a consequence failed to register the presence of large and variable fractions of Pb loss within both QGNG (median 40% of spots) and SL13 (25%). If only the oldest ²⁰⁶Pb/²³⁸U age groups within each of the same 16 analytical sessions are selected for comparison, the ²⁰⁶Pb/²³⁸U ages of QGNG relative to SL13 agree with the Concordia intersection age by isotope dilution to within 0.4% (standard deviation). This observation eliminates the possibility of systematic bias. Jagodzinski and Black (1999) also overlooked Pb loss in their ages for the Early Devonian Turondale and Merrions Formations, which are corrected here for time‐scale use.  相似文献   

Palaeozoic synorogenic sedimentation in central and northern Australia: A review of distribution and timing with implications for the evolution of intracontinental orogens   总被引：1，自引：1，他引：0  

P. W. Haines  M. Hand  M. Sandiford 《Australian Journal of Earth Sciences》2013,60(6):911-928

The Palaeozoic Alice Springs Orogeny was a major intraplate tectonic event in central and northern Australia. The sedimentological, structural and isotopic effects of the Alice Springs Orogeny have been well documented in the northern Amadeus Basin and adjacent exhumed Arunta Inlier, although the full regional extent of the event, as well as lateral variations in timing and intensity are less well known. Because of the lack of regional isotopic data, we take a sedimentological approach towards constraining these parameters, compiling the location and age constraints of inferred synorogenic sedimentation across a number of central and northern Australian basins. Such deposits are recorded from the Amadeus, Ngalia, Georgina, Wiso, eastern Officer and, possibly, Warburton Basins. Deposits are commonly located adjacent to areas of significant basement uplift related to north‐south shortening. In addition, similar aged orogenic deposits occur in association with strike‐slip tectonism in the Ord and southern Bonaparte Basins of northwest Australia. From a combination of sedimentological and isotopic evidence it appears that localised convergent deformation started in the Late Ordovician in the eastern Arunta Inlier and adjacent Amadeus Basin. Synorogenic style sedimentation becomes synchronously widespread in the late Early Devonian and in most areas the record terminates abruptly close to the end of the Devonian. A notable exception is the Ngalia Basin in which such sedimentation continued until the mid‐Carboniferous. In the Ord and Bonaparte Basins there is evidence of two discrete pulses of transcurrent activity in the Late Devonian and Carboniferous. The sedimentological story contrasts with the isotopic record from the southern Arunta Inlier, which has generally been interpreted in terms of continuous convergent orogenic activity spanning most of the Devonian and Carboniferous, with a suggestion that rates of deformation increased in the mid‐Carboniferous. Either Carboniferous sediments have been stripped off by subsequent erosion, or sedimentation outpaced accommodation space and detritus was transported elsewhere.  相似文献   

A pediment survey at middle pinnacle,near broken hill,New South Wales     

T. Langford‐Smith  G. H. Dury  G. H. Dury 《Australian Journal of Earth Sciences》2013,60(1):79-88

Extensive and well‐developed pediments and pediplains in western New South Wales have hitherto received less than due attention in the literature. This paper records the details of instrumental survey and of excavation at The Pinnacles, near Broken Hill. It presents observation and analysis of slope, rock‐type, structure, and surficial cover, and discusses the significance of a peripediment which contains multiple soil profiles.  相似文献   

Stratigraphy and structural summary of the Cooma Metamorphic Complex     

T. P. Hopwood 《Australian Journal of Earth Sciences》2013,60(4):345-360

A technique for obtaining age estimates for regolith profiles in Australia, based on the oxygen‐isotope composition of the clay mineral assemblage in a profile, is applied to a variety of regolith profiles and kaolinitic sediments from across Australia. Excluding monsoonal regions in the north of the continent, it is possible to distinguish profiles formed in the Late Mesozoic‐Early Tertiary (δ¹⁸O values between +15 and +17.5%δō) from profiles formed in post‐mid‐Tertiary times (>+17.5%ō). In addition it is concluded that there remain widespread remnants of a deep‐weathered regolith which developed in pre‐Late Mesozoic (Early Cretaceous or Jurassic?) times when Australia was at high latitude. The low δ¹⁸O values associated with clays formed in pre‐Late Mesozoic times (+10 to +15%o) suggest that deep weathering took place in a cool to cold and presumably humid climate, contrary to the traditional belief that deep weathering requires tropical to subtropical temperatures. The formation of deep‐weathered profiles at high latitude in a comparatively cold climate may be linked in part to higher past atmospheric CO₂ levels.  相似文献