Metallogenic Age and Ore-forming Material Sources of the Dahongshan Fe-Cu Deposit,Yunnan Province:Insights from Molybdenite Re-Os Dating and H-O-S-Pb Isotopes

The Dahongshan Fe-Cu(-Au)deposit is a superlarge deposit in the Kangdian metallogenic belt,southwestern China,comprising approximately 458 Mt of Fe ores(40%Fe)and 1.35 Mt Cu.Two main types of Fe-Cu(-Au)mineralization are present in the Dahongshan deposit:(1)early submarine volcanic exhalation and sedimentary mineralization characterized by strata-bound fine-grained magnetite and banded Fe-Cu sulfide(pyrite and chalcopyrite)hosted in the Na-rich metavolcanic rocks;(2)late hydrothermal(-vein)type mineralization characterized by Fe-Cu sulfide veins in the hosted strata or massive coarse-grained magnetite orebodies controlled by faults.While previous studies have focused primarily on the early submarine volcanic and sedimentary mineralization of the deposit,data related to late hydrothermal mineralization is lacking.In order to establish the metallogenic age and ore-forming material source of the late hydrothermal(-vein)type mineralization,this paper reports the Re-Os dating of molybdenite from the late hydrothermal vein Fe-Cu orebody and H,O,S,and Pb isotopic compositions of the hydrothermal quartz-sulfide veins.The primary aim of this study was to establish the metallogenic age and ore-forming material source of the hydrothermal type orebody.Results show that the molybdenite separated from quartz-sulfide veins has a Re-Os isochron age of 831±11 Ma,indicating that the Dahongshan Fe-Cu deposit experienced hydrothermal superimposed mineralization in Neoproterozoic.The molybdenite has a Re concentration of 99.7-382.4 ppm,indicating that the Re of the hydrothermal vein ores were primarily derived from the mantle.The δ^(34)S values of sulfides from the hydrothermal ores are 2‰-8‰ showing multi-peak tower distribution,suggesting that S in the ore-forming period was primarily derived from magma and partially from calcareous sedimentary rock.Furthermore,the abundance of radioactive Pb increased significantly from ore-bearing strata to layered and hydrothermal vein ores,which may be related to the later hydrothermal transformation.The composition of H and O isotopes within the hydrothermal quartz indicates that the ore-forming fluid is a mixture of magmatic water and a small quantity of water.These results further indicate that the late hydrothermal orebodies were formed by the Neoproterozoic magmatic hydrothermal event,which might be related to the breakup of the Rodinia supercontinent.Mantle derived magmatic hydrothermal fluid extracted ore-forming materials from the metavolcanic rocks of Dahongshan Group and formed the hydrothermal(-vein)type Fe-Cu orebodies by filling and metasomatism.

青海东昆仑三通沟北锰矿成矿时代与物质来源:来自Re-Os同位素年代学与地球化学的约束

东昆仑三通沟北锰矿床是近年来青海省发现的规模最大的海相沉积型锰矿。该矿床位于东昆南构造带的北缘,成矿地质背景与原特提斯洋的演化密切相关。但目前该矿床研究程度较低,尤其是成矿时代存在中-新元古代与奥陶-志留纪的争议,成矿物质来源存在海底热液为主还是海底热液与陆源风化共同来源的不同认识。为了解决这些问题,本文在对三通沟北锰矿进行详细野外地质调查和钻孔岩芯编录的基础上,选择11件锰矿石进行Re-Os同位素分析,获得了442±15Ma的Re-Os等时线年龄,说明三通沟北锰矿带形成于晚奥陶世,不是前人认为的中-新元古代,这一成矿年龄与区域上的奥陶纪纳赤台群沉积岩的形成时代一致。同时Re-Os同位素分析获得的^(187)Os/^(188)Os初始值为0.67±0.02,该值明显低于同期海水的Os同位素组成(0.72),初步表明三通沟北锰矿的锰质来源以海底热液为主。矿石在SiO_(2)-Al_(2)O_(3)、Al/(Al+Fe+Mn)-Fe/Ti、Fe-Mn-(Ni+Cu+Co)×10和lgU-lgTh等图解上主要位于热水沉积区,矿石稀土元素配分型式也具有海底热液来源的特征。可见三通沟北锰矿的成矿物质来源主要与海底热液活动有关。

新疆东天山黄滩金铜锌矿成矿时代——来自白云母^(40)Ar-^(39)Ar年龄和黄铁矿Re-Os年龄约束

卡拉塔格是东天山十分重要的铜矿集区,发育5个不同时代和成矿类型的成矿系统。近年来新发现了黄滩(包括金岭)金铜锌矿床,赋存于火山岩系中,发育层状矿化、脉状矿化和黄铁绢英岩化,但层状矿化和黄铁绢英岩化形成时代不清楚,制约了进一步找矿勘查工作。本文基于野外调查和室内研究,开展白云母^(40)Ar-^(39)Ar年龄和黄铁矿Re-Os年代学研究,获得黄铁绢英岩中白云母^(40)Ar-^(39)Ar坪年龄为429.46±3.91 Ma,7件层状矿化中黄铁矿Re-Os等时线年龄为436.5±4.2 Ma。层状矿化年龄与前人获得含矿岩系英安岩和英安质凝灰岩年龄(434~438 Ma)、脉状矿化年龄(432~438 Ma)一致,表明层状矿化、脉状矿化和黄铁绢英岩化是同一成矿事件的产物,黄滩为富金火山成因块状硫化物(VMS)型矿床。因此,尽管黄滩和红海‒黄土坡为VMS型矿床,红石为火山热液脉状矿床,但它们均为同一VMS成矿系统,形成于430~439 Ma,受控矿因素的差异,造成了成因类型、矿化类型和成矿元素组合的多样性。

原油组分Re-Os放射性同位素体系特征及其定年机理与应用启示

Re-Os放射性同位素体系可用于含油气系统关键地质过程的定年与示踪研究。不过,Re-Os定年的精度仍受到有关科学问题的制约,如原油组分的Re-Os体系特征、沥青质渐进散失对原油Re-Os体系特征与定年应用的影响等。本研究通过二元溶液直接分离原油次组分的实验,揭示了原油组分的Re-Os体系特征,模拟了实际地质情况中沥青质渐进散失对原油Re-Os体系特征与定年应用的影响,并通过重复实验验证相关实验流程对所取得的结果和认识的影响。研究发现,根据沉淀的先后顺序,原油次组分的Re和Os元素丰度总体上呈下降趋势,但有起伏变化,Re-Os同位素比值则单调下降。因此,沥青质的渐进散失将导致原油Re和Os元素丰度以及Re-Os同位素比值降低,进而对原油和低成熟度沥青Re-Os定年与示踪的应用产生影响。重复实验表明,实验室分离次组分的操作结果具有一定的随机性,但不影响Re-Os体系的总体性质。

赣北石门寺钨铜多金属矿床辉钼矿Re-Os同位素年龄及其地质意义

为了解赣北石门寺钨铜多金属矿床的钨富集机理及矿床成因,对该矿床中的辉钼矿开展了Re-Os同位素年代学研究。结果显示,6件辉钼矿样品的Re-Os模式年龄为140.2~142.5 Ma,加权平均年龄为(141.37±0.84)Ma(MSWD=0.84),等时线年龄为(141.79±0.97)Ma(MSWD=1.10),二者在误差范围内一致,可以代表辉钼矿的矿化年龄,指示该矿床的成矿时间为141 Ma左右。对赣北、赣中和赣南地区的成岩成矿年龄进行对比,发现三地的成岩成矿事件在时间上具有连续性。结合区域构造演化历程,本文认为石门寺钨铜多金属矿形成于早白垩世时期的伸展减薄环境。

Pt-Re-Os同位素体系分析技术研究进展

Pt-Os和Re-Os同位素体系(统称Pt-Re-Os同位素体系)在壳–幔和核–幔相互作用、矿床成因、陨石成因、太阳系早期演化等地球科学研究中具有重要应用潜力。由于地质样品中Pt-Re-Os含量极低(pg/g~ng/g级),对其元素含量和同位素组成进行高精度的分析测试极具挑战。本文对Pt-Re-Os同位素化学前处理和质谱测定方法研究进展进行综述。化学前处理方法包括酸溶法、碱熔法、火试金法、Carius管溶样法和HPA-S高温高压釜溶样法等常用的样品消解方法以及Pt-Re-Os的化学分离与纯化技术。重点介绍了负离子热电离质谱法(N-TIMS)和(多接收器)电感耦合等离子体质谱法(ICP-MS和MC-ICP-MS)测试Pt-Re-Os元素含量及同位素组成的原理、标准物质和测量精度,以及近年来高精度Os同位素质谱测定中O同位素校正、质量分馏校正、多原子干扰和提高灵敏度等质谱分析技术研究进展。与Re-Os同位素分析技术相比,Pt-Os同位素分析技术还存在困难,国内Pt-Os同位素分析技术仍处于起步阶段。本综述可为Pt-Re-Os同位素分析方法研究提供参考,从而推动国内Pt-Re-Os同位素地球化学研究的发展。

西秦岭加甘滩金矿成因研究:毒砂Re-Os定年、载金矿物原位微量元素和硫同位素限定

西秦岭加甘滩金矿是夏河-合作地区最大的金矿,但其矿床成因存在争议,其中主要问题在于该矿床成矿时代缺乏研究。通过野外工作和镜下观察,识别出两种毒砂和黄铁矿:毒砂Apy1(较为常见,在矿石中呈浸染状产出)和毒砂Apy2(数量较少,围绕黄铁矿Py1产出),黄铁矿Py1(浸染状黄铁矿)和黄铁矿Py2(黄铁矿脉)。本次工作对毒砂进行Re-Os定年,以期确定加甘滩金矿的成矿时代:通过对Apy1进行了Re-Os定年,获得毒砂的Re-Os等时线年龄243.1±8.7Ma,该年龄与夏河-合作区域岩浆作用(232~249Ma)相对应。利用LA-ICP-MS和LA-MC-ICP-MS对成矿期毒砂和黄铁矿进行了微量元素和硫同位素测定。微量元素测试结果显示加甘滩金矿硫化物内的不可见金以固溶体形式赋存,Apy2的不可见金含量最高可达521×10^(-6),其他毒砂和黄铁矿不可见金含量最高为119×10^(-6)。加甘滩金矿的平均品位为2~3g/t,依据质量平衡计算,如果毒砂和黄铁矿内不可见金发生再活化,不可见金含量需要达到20~30g/t,但实际金含量远低于所需,需要额外的岩浆热液来源。Py1、Py2、Apy1和Apy2的原位硫同位素结果分别为-14.3‰~-7.70‰(平均-10.0‰)、-14.5‰~-9.60‰(平均-12.5‰)、-13.0‰~-6.40‰(平均-8.54‰),-11.2‰~-9.00‰(平均-10.1‰),反映其硫同位素发生了分馏。将加甘滩金矿成矿期硫化物的硫同位素与成岩期和典型岩浆热液型黄铁矿硫同位素进行对此,指示其成矿流体为岩浆热液来源。综上,本文研究指示加甘滩金矿属于岩浆热液成因。

吉林省敦化市松江河金(钼)矿床辉钼矿Re-Os年龄及其地质意义

松江河金(钼)矿是近十年来发现的产在韧性变形带内的一座中型金矿床(Au资源储量达9 t)。近年来,在松江河矿区五中段至八中段发现大量辉钼矿分布,至少延深至九中段,从五中至八中段钼矿化具有明显的增强趋势。为确定钼成矿时代,文章利用高精度ICP-MS辉钼矿Re-Os同位素测年技术,首次获得了松江河矿床的辉钼矿Re-Os同位素加权平均模式年龄和等时线年龄分别为(167±2.4) Ma和(158±10)Ma,该年龄与前人报道的松江河矿区黄泥河岩体的年龄(164~162 Ma)和五道溜河岩体的年龄(174~172 Ma)误差范围内基本一致,证实了该矿床成矿与成岩作用近于同时发生,且主要在燕山早期的中、晚侏罗世。结合吉林省中东部地区已发表的成岩与成矿年代学资料,文章认为,区内钼多金属矿床形成于燕山期古太平洋板块向欧亚大陆岩石圈俯冲的活动大陆边缘的地球动力学背景。矿床中辉钼矿的ω(Re)为142.74×10^(-6)~217.67×10^(-6),均值为196.58×10^(-6),结合矿床地质特征和成矿岩体及矿石O、S、Pb同位素等证据,文章认为该矿床的成矿物质主要为地幔来源,来自深部的流体可能对该矿床的成矿作用起了重要作用。

缅甸Wunto-Popa岩浆弧Shangalon铜金矿床辉钼矿Re-Os同位素测年及其地质意义

Shangalon铜金矿床位于缅甸Wunto-Popa岩浆弧北段,研究工作薄弱,其成矿地质背景和矿床成因尚缺乏高精度同位素成矿年代学数据的制约。本文选取典型矿石中5件辉钼矿样品通过Re-Os同位素定年方法厘定成矿时代,获得的模式年龄集中变化于38.5±0.6至38.3±0.5 Ma,加权平均年龄为38.4±0.2 Ma,对应的等时线年龄为38.0±1.6 Ma(MSWD=0.17),二者在误差范围内基本保持一致,指示Shangalon铜金矿床的成矿时限为始新世,该年龄数据与矿区的含矿闪长岩和花岗闪长岩锆石U-Pb年龄38~40 Ma相吻合,表明Shangalon Cu-Au-Mo成矿作用与始新世闪长岩–花岗闪长岩侵入体密切相关,为始新世岩浆活动的产物。Shangalon铜金矿床辉钼矿样品的Re含量为82.4~111.2μg·g-1,平均值为98.88μg·g-1,指示成矿物质具有壳幔混源的特征。通过综合分析区域成矿动力学背景,认为Shangalon地区始新世铜金成矿作用可能形成于印度与欧亚大陆碰撞背景下的新特提斯洋板片撕裂和断裂,诱发软流圈上涌,新生下地壳部分熔融。

Determination of Carbon and Nitrogen Isotope Fractions in Asparagine, Aspartic Acid, Threonine and Methionine

The nomenclature for compounds that are modified with isotopes is growing every day. Compounds can be modified with isotopes either individually, in a functional group or groups, or completely with all atomic centers of the element. This diversity of isotope-modified compounds increases the range of researches that can be studied using them. Compounds modified with isotopes of carbon-13 or nitrogen-15 can be converted into carbon monoxide, carbon dioxide and molecular nitrogen. Currently, only the average value of carbon-13 or nitrogen-15 isotopes can be determined. However, by directly determining the atomic share of these isotopes in organic compounds modified with isotopes, information about the isotopic centers of the element can be obtained. The atomic fraction of an element is defined as a single carbon or nitrogen isotope-modified center or centers, or all centers that are isotope-modified with that element at the same time. Carbon-13 or nitrogen-15 isotopes’ atomic fraction can be determined molecularly or with fragment ions of different elemental content, or both. This makes the method self-verifying, increasing the accuracy and reliability of the results obtained. Amino acids, such as asparagine, aspartic acid, methionine, and threonine, are essential for the human body. This proposed method of isotopic analysis will increase the possibilities for scientific research using these compounds.

Rising utilization of stable isotopes in tree rings for climate change and forest ecology

Analyses of stable isotopes(C,O,H)in tree rings are increasingly important cross-disciplinary programs.The rapid development in this field documented in an increasing number of publications requires a comprehensive review.This study includes a bibliometric analysis-based review to better understand research trends in tree ring stable isotope research.Overall,1475 publications were selected from the Web of Science Core Collection for 1974-2023.The findings are that:(1)numbers of annual publications and citations increased since 1974.From 1974 to 1980,there were around two relevant publications per year.However,from 2020 to 2022,this rose sharply to 109 publications per year.Likewise,average article citations were less than four per year before 1990,but were around four per article per year after 2000;(2)the major subjects using tree ring stable isotopes include forestry,geosciences,and environmental sciences,contributing to 42.5%of the total during 1974-2023;(3)the top three most productive institutions are the Chinese Academy of Sciences(423),the Swiss Federal Institute for Forest,Snow and Landscape Research(227),and the University of Arizona(204).These achievements result from strong collaborations;(4)review papers,for example,(Dawson et al.,Annu Rev Ecol Syst 33:507-559,2002)and(McCarroll and Loader,Quat Sci Rev 23:771-801,2004),are among the most cited,with more than 1000 citations;(5)tree ring stable isotope studies mainly focus on climatology and ecology,with atmospheric CO_(2) one of the most popular topics.Since 2010,precipitation and drought have received increasing attention.Based on this analysis,the research stages,key findings,debated issues,limitations and direc-tions for future research are summarized.This study serves as an important attempt to understand the progress on the use of stable isotopes in tree rings,providing scientific guid-ance for young researchers in this field.

Nitrogen isotope stratigraphy of the Early Cambrian successions in the Tarim Basin:Spatial variability of nitrogen cycling and its implication for paleo-oceanic redox conditions

The Early Cambrian represents a critical time period characterized by extraordinary biological innovations and dynamic redox conditions in seawaters.Nitrogen isotopic signatures of ancient sediments have the potential to elucidate the evolutionary path of marine redox states and the biogeochemical nitrogen cycle within the water column of the Early Cambrian ocean.While existing research on this topic has predominantly focused on South China,the exploration of other continental margins has been limited,leaving contradictory hypotheses untested.In this study,pairedδ^(15)N andδ^(13)C org analyses were performed on the Lower Cambrian successions from the Shiairike section(inner ramp)and Well Tadong 2(deep shelf/basin)in the northwestern and eastern Tarim Basin,respectively.Our data from the Shiairike section reveal a discernible shift in the operation of different nitrogen cycles for the black chert-shale unit,also referred to as the black rock series in Chinese literature,of the Yurtus Formation(Fortunian stage to lower Stage 3).Oscillatingδ^(15)N values for its lower part are suggestive of alternating anaerobic assimilation of NH 4+and denitrification/anammox.This is likely attributed to a shallow,unstable chemocline consistent with the upwelling and incursion of deep,anoxic waters during a major transgression.In contrast,aerobic nitrogen cycling,indicated by positiveδ^(15)N values of>2‰,dominated the upper part alongside a reduction in upwelling intensity.On the other hand,theδ^(15)N signatures of Xishanbulake and Xidashan Formations of Well Tadong 2,which encompass a time interval from the Cambrian Fortunian Age to Age 4,are indicative of N_(2)fixation by diazotrophs as the major nitrogen source.The two studied intervals,although not time-equivalent,exhibit separated states of nitrogen cycling at least during the deposition of the Yurtus black rock series.The spatially different nitrogen cycling of the studied sections is compatible with a redox-stratified ocean during the deposition of the Yurtus black rock series.The build-up of a NO_(3)−reservoir and aerobic nitrogen cycling in seawater was largely restricted to near-shore settings whereas anaerobic nitrogen cycling dominated by N_(2)fixation served as the main nitrogen uptake pathway in off-shore settings.

Rebuilding the theory of isotope fractionation for evaporation of silicate melts under vacuum condition

Isotope eff ects are pivotal in understanding silicate melt evaporation and planetary accretion processes.Based on the Hertz-Knudsen equation,the current theory often fails to predict observed isotope fractionations of laboratory experiments due to its oversimplified assumptions.Here,we point out that the Hertz-Knudsen-equation-based theory is incomplete for silicate melt evaporation cases and can only be used for situations where the vaporized species is identical to the one in the melt.We propose a new model designed for silicate melt evaporation under vacuum.Our model considers multiple steps including mass transfer,chemical reaction,and nucleation.Our derivations reveal a kinetic isotopic fractionation factor(KIFF orα)αour model=[m(^(1)species)/m(^(2)species)]^(0.5),where m(species)is the mass of the reactant of reaction/nucleation-limiting step or species of diffusion-limiting step and superscript 1 and 2 represent light and heavy isotopes,respectively.This model can eff ectively reproduce most reported KIFFs of laboratory experiments for various elements,i.e.,Mg,Si,K,Rb,Fe,Ca,and Ti.And,the KIFF-mixing model referring that an overall rate of evaporation can be determined by two steps jointly can account for the eff ects of low P_(H2)pressure,composition,and temperature.In addition,we find that chemical reactions,diffusion,and nucleation can control the overall rate of evaporation of silicate melts by using the fitting slope in ln(−ln f)versus ln(t).Notably,our model allows for the theoretical calculations of parameters like activation energy(E_(a)),providing a novel approach to studying compositional and environmental eff ects on evaporation processes,and shedding light on the formation and evolution of the proto-solar and Earth-Moon systems.

Geochemistry, zircon U–Pb geochronology, and Hf isotopes of S-type granite in the Baoshan block, constraints on the age and evolution of the Proto-Tethys

Geochemistry, zircon U–Pb geochronology, and Hf isotope data for the Early Paleozoic granites in the Baoshan Block reveal the Early Paleozoic tectonic evolution of the Proto-Tethys. The samples are high-K, calcalkaline, strongly peraluminous rocks with A/CNK values of 1.37–1.46, are enriched in SiO2, K2O, and Rb, and are depleted in Nb, P, Ti, Eu, and heavy rare earth elements,which indicates the crystallization fractionation of the granitic magma. Zircon U–Pb dating indicates that they formed in ca. 480 Ma. The Nansa granites have εHf(t) values ranging from-16.04 to 4.36 with corresponding TC DMages of 2.10–0.81 Ga, which suggests the magmas derived from the partial melting of ancient metasedimentary with minor involvement of mantle-derived components. A synthesis of data for the Early Paleozoic igneous rocks in the Baoshan block and adjacent(Tengchong,Qiangtang, Sibumasu, Himalaya, etc.) blocks indicates that these blocks were all aligned along the proto-Tethyan margin of East Gondwana in the Early Paleozoic. The Early Paleozoic S-type granites from Nansa were generated in a high-temperature and low-pressure(HTLP) extensional tectonic setting, which resulted from Andean-type orogeny instead of the final assembly of Gondwana or crustal extension in a non-arc environment. In certain places, an expanding environment may exist in opposition to the tectonic backdrop of the lithosphere’s thickening and shortening, leading the crust to melt and decompress,mantle-derived materials to mix, and a small quantity of peraluminous granite to emerge.

Geochemical modeling to aid experimental design for multiple isotope tracer studies of coupled dissolution and precipitation reaction kinetics

It is a challenge to make thorough but efficient experimental designs for the coupled mineral dissolution and precipitation studies in a multi-mineral system, because it is difficult to speculate the best experimental duration, optimal sampling schedule, effects of different experimental conditions, and how to maximize the experimental outputs prior to the actual experiments. Geochemical modeling is an efficient and effective tool to assist the experimental design by virtually running all scenarios of interest for the studied system and predicting the experimental outcomes. Here we demonstrated an example of geochemical modeling assisted experimental design of coupled labradorite dissolution and calcite and clayey mineral precipitation using multiple isotope tracers. In this study, labradorite(plagioclase) was chosen as the reactant because it is both a major component and one of the most reactive minerals in basalt. Following our isotope doping studies of single minerals in the last ten years, initial solutions in the simulations were doped withmultiple isotopes(e.g., Ca and Si). Geochemical modeling results show that the use of isotope tracers gives us orders of magnitude more sensitivity than the conventional method based on concentrations and allows us to decouple dissolution and precipitation reactions at near-equilibrium condition. The simulations suggest that the precise unidirectional dissolution rates can inform us which rate laws plagioclase dissolution has followed. Calcite precipitation occurred at near-equilibrium and the multiple isotope tracer experiments would provide near-equilibrium precipitation rates, which was a challenge for the conventional concentration-based experiments. In addition, whether the precipitation of clayey phases is the rate-limiting step in some multi-mineral systems will be revealed. Overall, the modeling results of multimineral reaction kinetics will improve the understanding of the coupled dissolution–precipitation in the multi-mineral systems and the quality of geochemical modeling prediction of CO_(2) removal and storage efficacy in the basalt systems.

Nuclear volume effects in kinetic isotope fractionation:A case study of mercury oxidation by chlorine species

It is well-known that the equilibrium isotope fractionation of mercury(Hg)includes classical massdependent fractionations(MDFs)and nuclear volume effect(NVE)induced mass-independent fractionations(MIFs).However,the effect of the NVE on these kinetic processes is not known.The total fractionations(MDFs+NVEinduced MIFs)of several representative Hg-incorporated substances were selected and calculated with ab initio calculations in this work for both equilibrium and kinetic processes.NVE-induced MIFs were calculated with scaled contact electron densities at the nucleus through systematic evaluations of their accuracy and errors using the Gaussian09 and DIRAC19 packages(named the electron density scaling method).Additionally,the NVE-induced kinetic isotope effect(KIE)of Hg isotopes are also calculated with this method for several representative Hg oxidation reactions by chlorine species.Total KIEs for 202 Hg/^(198)Hg ranging from−2.27‰to 0.96‰are obtained.Three anomalous^(202)Hg-enriched KIEs(δ^(202)Hg/^(198)Hg=0.83‰,0.94‰,and 0.96‰,)caused by the NVE are observed,which are quite different from the classical view(i.e.,light isotopes react faster than the heavy ones).The electron density scaling method we developed in this study can provide an easier way to calculate the NVE-induced KIEs for heavy isotopes and serve to better understand the fractionation mechanisms of mercury isotope systems.

Fracturing timing of Jurassic reservoirs in the Dibei-Tuziluoke gas field,Kuqa foreland basin:Evidence from petrography,fluid inclusions,and clumped isotopes

Determining the timing of fracturing is crucial for understanding reservoir evolution and hydrocarbon accumulation in foreland basins.Using fracturing data from cores,borehole images,and outcrops,combined with the clumped isotope(D47)and fluid inclusion analyses of carbonate minerals filled in pores and fractures,this study ascertained the fracturing timing of the Jurassic reservoirs in the Dibei-Tuziluoke Gas Field,Kuqa Foreland Basin.Data from outcrops and borehole images show two dominant fracture sets in the study area:W-E and NE-SW striking fractures.Some W-E striking fractures are carbonate-filled,while NE-SW striking fractures lack mineral fillings.Bitumen veins,not easy to be identified in borehole images,are prevalent in cores.The petrographic analysis reveals that these bitumen veins formed before the calcite cementation in pores and display high viscosity and low maturity.Homogenization temperatures(T_(h))from primary fluid inclusion assemblages in two representative calcite vein samples were notably lower than T△_(47) values from corresponding samples.This suggests the △_(47) signature underwent alteration due to partial reordering during burial.Thus,△_(47)-derived temperatures(apparent temperatures)may not faithfully represent the mineral precipitation temperatures.When plotting these apparent temperatures vs.the burial history,only the possible latest ages of fracturing emerged.These ages were further refined by considering petroleum charging,tectonic evolution,and stress orientation.Bitumen-filled fractures likely resulted from the Late Cretaceous uplift,marking the migration of low-maturity hydrocarbons in the study area.Carbonate-filled E-W striking fractures emerged during the late Miocene(~13e6.5 Ma)alongside fold development.NE-striking fractures that crosscut W-E ones possibly formed recently due to stress reorientation.

Comparison of isotope-based linear and Bayesian mixing models in determining moisture recycling ratio

Stable water isotopes are natural tracers quantifying the contribution of moisture recycling to local precipitation,i.e.,the moisture recycling ratio,but various isotope-based models usually lead to different results,which affects the accuracy of local moisture recycling.In this study,a total of 18 stations from four typical areas in China were selected to compare the performance of isotope-based linear and Bayesian mixing models and to determine local moisture recycling ratio.Among the three vapor sources including advection,transpiration,and surface evaporation,the advection vapor usually played a dominant role,and the contribution of surface evaporation was less than that of transpiration.When the abnormal values were ignored,the arithmetic averages of differences between isotope-based linear and the Bayesian mixing models were 0.9%for transpiration,0.2%for surface evaporation,and–1.1%for advection,respectively,and the medians were 0.5%,0.2%,and–0.8%,respectively.The importance of transpiration was slightly less for most cases when the Bayesian mixing model was applied,and the contribution of advection was relatively larger.The Bayesian mixing model was found to perform better in determining an efficient solution since linear model sometimes resulted in negative contribution ratios.Sensitivity test with two isotope scenarios indicated that the Bayesian model had a relatively low sensitivity to the changes in isotope input,and it was important to accurately estimate the isotopes in precipitation vapor.Generally,the Bayesian mixing model should be recommended instead of a linear model.The findings are useful for understanding the performance of isotope-based linear and Bayesian mixing models under various climate backgrounds.

Effects of thinning and understory removal on water use efficiency of Pinus massoniana:evidence from photosynthetic capacity and stable carbon isotope analyses

Understanding the relationship between forest management and water use efficiency(WUE)is important for evaluating forest adaptability to climate change.However,the effects of thinning and understory removal on WUE and its key controlling processes are not well understood,which limits our comprehension of the physiological mechanisms of various management practices.In this study,four forest management measures(no thinning:NT;understory removal:UR;light thinning:LT;and heavy thinning:HT)were carried out in Pinus massoniana plantations in a subtropical region of China.Photosynthetic capacity and needle stable carbon isotope composition(δ^(13)C)were measured to assess instantaneous water use efficiency(WUE_(inst))and long-term water use efficiency(WUE_(i)).Multiple regression models and structural equation modelling(SEM)identified the effects of soil properties and physiological performances on WUE_(inst)and WUE_(i).The results show that WUE_(inst)values among the four treatments were insignificant.However,compared with the NT stand(35.8μmol·mol^(-1)),WUE_(i)values significantly increased to 41.7μmol·mol^(-1)in the UR,50.1μmol·mol^(-1)in the LT and 46.6μmol·mol^(-1)in HT treatments,largely explained by photosynthetic capacity and soil water content.Understory removal did not change physiological performance(needle water potential and photosynthetic capacity).Thinning increased the net photosynthetic rate(A_n)but not stomatal conductance(g_s)or predawn needle water potential(ψ_(pd)),implying that the improvement in water use efficiency for thinned stands was largely driven by radiation interception than by soil water availability.In general,thinning may be an appropriate management measure to promote P.massoniana WUE to cope with seasonal droughts under future extreme climates.

Feasibility of medical radioisotope production based on the proton beams at China Spallation Neutron Source

The utilization of a proton beam from the China Spallation Neutron Source(CSNS)for producing medical radioisotopes is appealing owing to its high current intensity and high energy.The medical isotope production based on the proton beam at the CSNS is significant for the development of future radiopharmaceuticals,particularly for theα-emitting radiopharmaceu-ticals.The production yield and activity of typical medical isotopes were estimated using the FLUKA simulation.The results indicate that the 300-MeV proton beam with a power of 100 kW at CSNS-II is highly suitable for proof-of-principle studies of most medical radioisotopes.In particular,this proton beam offers tremendous advantages for the large-scale production of alpha radioisotopes,such as 225Ac,whose theoretical production yield can reach approximately 57 Ci/week.Based on these results,we provide perspectives on the use of CSNS proton beams to produce radioisotopes for medical applications.