Thermal and exhumation history of the Songnan Low Uplift,Qiongdongnan Basin:constraints from the apatite fission-track and zircon(U-Th)/He thermochronology

Significant advancements have been made in the study of Mesozoic granite buried hills in the Songnan Low Uplift(SNLU)of the Qiongdongnan Basin.These findings indicate that the bedrock buried hills in this basin hold great potential for exploration.Borehole samples taken from the granite buried hills in the SNLU were analyzed using apatite fission track(AFT)and zircon(U-Th)/He data to unravel the thermal history of the basement rock.This information is crucial for understanding the processes of exhumation and alteration that occurred after its formation.Thermal modeling of a sample from the western bulge of the SNLU revealed a prolonged cooling event from the late Mesozoic to the Oligocene period(~80-23.8 Ma),followed by a heating stage from the Miocene epoch until the present(~23.8 Ma to present).In contrast,the sample from the eastern bulge experienced a more complex thermal history.It underwent two cooling stages during the late Mesozoic to late Eocene period(~80-36.4 Ma)and the late Oligocene period(~30-23.8 Ma),interspersed with two heating phases during the late Eocene to early Oligocene period(~36.4-30 Ma)and the Miocene epoch to recent times(~23.8-0 Ma),respectively.The differences in exhumation histories between the western and eastern bulges during the late Eocene to Oligocene period in the SNLU can likely be attributed to differences in fault activity.Unlike typical passive continental margin basins,the SNLU has experienced accelerated subsidence after the rifting phase,which began around 5.2 Ma ago.The possible mechanism for this abnormal post-rifting subsidence may be the decay or movement of the deep thermal source and the rapid cooling of the asthenosphere.Long-term and multi-episodic cooling and exhumation processes play a key role in the alteration of bedrock and contribute to the formation of reservoirs.On the other hand,rapid post-rifting subsidence(sedimentation)promotes the formation of cap rocks.

锆石SIMS原位微区U-Th不平衡定年:以云南腾冲火山岩为例

报道了利用中国科学院广州地球化学研究所同位素地球化学国家重点实验室的CAMECA IMS1280-HR型二次离子质谱仪(SIMS)建立的锆石原位微区U-Th不平衡定年方法。一次离子为^(16)O~–,束斑大小约25μm,质量分辨率设定为约6000,使用单接收系统EM跳峰方式接收各相关质量峰。每个点经35次循环测量,共耗时约27 min。使用Plesovice为外标,对处于久期平衡状态的U-Pb定年标准锆石91500和Qinghu进行(^(230)Th)/(^(238)U)分析测试,得到两个标准锆石(^(230)Th)/(^(238)U)重现性分别为2.3%和1.3%,准确度分别为98.1%和98.6%,测试精密度和准确度都达到了国际上其他实验室的水平。对云南腾冲地区已知U-Th年龄的打鹰山、马鞍山第四纪火山岩的年轻锆石进行了U-Th定年,得到马鞍山锆石样品U-Th等时线年龄为(84.1±9.2)ka(2σ,MSWD=2.9);打鹰山锆石样品U-Th等时线年龄为(85.6±7.6)ka(2σ,MSWD=2.1),在误差范围内与前人报道一致,表明我们建立的SIMS原位微区U-Th定年方法准确可靠。

高精度热电离质谱铀系法测定北京猿人遗址年代初步结果

热电离质谱法可用比经典的α能谱法少一个数量级的样品,实现高一个数量级的测量精度。本文报道了用这一新技术测定北京猿人遗址1-2层钙板样BZC-3的铀系年代。据四次平行分析的加权平均值,该样应为41±1万年,代表了北京猿人五号头骨的最小年龄。四次分析(样品未混匀)的结果在误差范围内一致、α能谱二种铀系法结果一致及加速器质谱法未能检出-(14)C,表明样品有较好的封闭性。本文结果不支持亚洲直立人演化较慢和中国有二种人类(晚期直立人与早期智人)并存的假说。

南海NS90－103沉积物柱样沉积年代研究

本文结合浮游有孔虫氧同位素地层学和不平衡铀系测定沉积速率的方法来确立取自南沙海域的沉积物柱样（ＮＳ９０－１０３）的时间坐标、根据连续取样获得的δ（１８）Ｏ曲线可以将该柱划分为７个主要气候期次，底部（５５０ｃｍ）相当于氧同位素第７．４阶到第７．５阶之间，年龄约２３８ｋａ；而根据不平衡铀系的过量（２３０）Ｔｈ方法获得２．３ｃｍ／ｋａ的沉积速率，计算出底部年龄为２３９ｋａ；两个结果在误差范围内完全一致。

变质作用精细过程研究进展

主要总结了最近 5年以来 ,国内外在变质作用精细过程研究若干方面的进展 :人们在更细微尺度上 ,对矿物成分环带、成分梯度等矿物微区成分变化情况有了更深入的研究 ;发现矿物中不同化学组分抵御变质峰期后降温过程的能力不同 ;利用矩阵奇异值分解等数学方法定量探讨矿物(组合 )之间是否存在质量平衡关系 ,进而判断矿物 (组合 )之间的平衡—非平衡关系 ;开始尝试恢复变质峰期后发生分解反应或纯转换反应的变质高峰期矿物的原始成分 ;出现了不依赖于矿物热力学数据和矿物活度模型的高精度相对温压计 ;补偿规则引入了矿物速率计 ,速率计计算结果更直观 ;最近发展的M ssbauer谱新技术 ,可以在小至 5 0× 30 μm2 的区域里实现铁镁质矿物原位 (insitu)Fe3 + 含量的分析 ;使用激光探针等离子体质谱法、激光探针4 0 Ar/ 3 9Ar法、电子探针测年法、二次离子质谱法等新方法 ,实现对常见变质矿物的原位定年 ,使得变质作用较完整过程的连续定年成为可能。今后的发展方向至少有四个方面 :深化并且充分利用已有的矿物微区成分分析方法和放射性微区测年方法 ,洞悉变质过程中的各种微观—超微观现象 ,探讨变质反应速率 ;研究不同大地构造环境的变质作用特征 ;实施大量的高精度矿物相平衡逆转实验 ,以获取高精度矿物热?

重庆万盛石林的形成时代及发育演化过程

重庆万盛石林位于万盛国家地质公园龙鳞石海景区的核心地质遗迹。构景岩层为奥陶系宝塔组龟裂纹灰岩。与万盛石林所处同一夷平面天门洞内,采集新鲜钙化沉积物样品进行铀系不平衡年龄测定,研究万盛石林开始发育年代在12.9万年以前的中更世中期。同时对成景母岩进行了岩石化学分析,具有抗溶蚀、侵蚀能力弱的特征,为典型的蘑菇状石林形成提供了物质基础;其形成由岩性、构造、气候、水文及土壤生物等条件决定。

Meso-Cenozoic tectonic evolution of the Talas-Fergana region of the Kyrgyz Tien Shan revealed by low-temperature basement and detrital thermochronology

This study provides new low-temperature thermochronometric data, mainly apatite fission track data on the basement rocks in and adjacent to the Talas-Fergana Fault, in the Kyrgyz Tien Shan in the first place.In the second place, we also present new detrital apatite fission track data on the Meso-Cenozoic sediments from fault related basins and surrounding intramontane basins. Our results confirm multistaged Meso-Cenozoic tectonic activity, possibly induced by the accretion of the so-called Cimmerian blocks to the Eurasian margin. New evidence for this multi-staged thermo-tectonic activity is found in the data of both basement and Meso-Cenozoic sediment samples in or close to the Talas-Fergana Fault.Zircon(U-Th)/He and apatite fission track data constrain rapid Late TriassiceE arly Jurassic and Late JurassiceE arly Cretaceous basement cooling in the Kyrgyz Tien Shan around 200 Ma and 130 -100 Ma respectively. Detrital apatite fission track results indicate a different burial history on both sides of the Talas-Fergana Fault. The apatite fission track system of the Jurassic sediments in the Middle Tien Shan unit east of the Talas-Fergana Fault is not reset, while the Jurassic sediments in the Fergana Basin and Yarkand-Fergana Basin, west of the fault zone, are partially and in some cases even totally reset. The totally reset samples exhibit Oligocene and Miocene ages and evidence the Cenozoic reactivation of the western Kyrgyz Tien Shan as a consequence of the India-Eurasia convergence.

Cenozoic Uplift of the Central Yunnan Fragment, Southwestern China, Revealed by Apatite(U-Th)/He Dating

The age of central Yunnan fragment uplift has long been debated, with estimates ranging from the Late Eocene to about 1 Ma. To determine the central Yunnan fragment uplift time in the Cenozoic, apatite(U-Th)/He(AHe) was used to analyze the low-temperature thermochronology of samples from the Jiaozi Mountain area of the eastern central Yunnan fragment. The sampling area is located in the Dongchuan District of Kunming, Yunnan Province, near the Xiaojiang fault zone. The results show that AHe ages from the eastern part of central Yunnan fragment were mainly concentrated around 25.7–37.9 Ma, and intensive uplift had happened before 36.5 Ma. Together with previous low-temperature thermochronology research on the western and eastern central Yunnan fragment, we concluded that the Yunnan Plateau uplifted prior to 36.5 Ma, in a west to east sequence. The uplift caused a change in paleo-geographical terrain, which may have altered the ancient river systems of the southeast Tibetan Plateau.

Nd isotopic disequilibrium between minerals and Rb-Sr age of the secondary phengite in eclogite from the Yangkou area,Qingdao,eastern China

There are two generations of white micas in retrograded coesite-bearing eclogite from the Yangkou area near Qingdao, eastern China. The secondary phengite developed along the folliations in eclogite is the majority of the white micas. Nd and Sr isotopic disequilibriums between garnet and retrograded omphacite as well as secondary phengite have been observed. Consequently, the Rb-Sr ages ((193±4) Ma-(195±4) Ma) given by the tie lines of the secondary phengite + garnet or whole rock may predate the formation time of the phengite. The Rb-Sr age of (183±4) Ma given by the secondary phengite + retrograde omphacite is much closer to the formation time of the phengite indicating the retrograde age of eclogite instead of a cooling age of eclogite at 500℃.

Evidence of Thermal Evolution History of Northeast Sichuan Basin-(U-Th)/He Low Temperature Thermochronometry of Apatite and Zircon

（U-Th）/He dating is a newly developed low temperature thermochronometry, and it elaborately reflects cooling history of geologic body under low temperature. It can be applied to analyze thermal evolution of the sedimentary basin, combining with vitrinite reflectance and fission track. （U-Th）/He dating of apatite and zircon from drilling cores in Puguang （普光）-Maoba （毛坝） area and outcrops in Tongjiang （通江） area indicates that the Northeast Sichuan （四川） basin underwent great uplift and denudation during the Tertiary and the Quaternary. During the period, denudation rates changed from 74.8 to 172.5 m/Ma and denudation thickness was between 2 800 and 3 000 m, geotemperature gradually declined into the current temperature, passing through helium closure temperature of apatite. The uplift and denudation relate to new tectonic movement response in the Sichuan basin aroused by the Qinghai （青海）-Tibet plateau. Drilling samples above 4 000 m did not undergo closure temperature of zircon, but the samples nearly 4 000 m might approach closure temperature of zircon and all the samples underwent closure temperature of apatite. According to （U-Th）/He ages of zircon, it is concluded that the Northeast Sichuan basin began to uplift in the Late Jurassic. From the Late Jurassic to the Paleogene, Northeast Sichuan basin was in slow uplift and denudation, but the denudation of Puguang-Maoba area was earlier than that of Tongjiang area. （U-Th）/He ages of zircon indicate the denudation time of provenance areas. On the basis of paleodrainage characteristics, provenance transport and other related data, provenance areas of the clastie rocks are decided, which is worthy to be investigated further.

Late Mesozoic Tectono-Thermal History in the South Margin of Great Xing’an Range,NE China:Insights from Zircon and Apatite(U-Th)/He Ages

The Late Mesozoic tectono-thermal evolution and geodynamic setting of the Great Xing’an Range(GXR),particularly in the south margin,are still ambiguous.In this study,we present original low-temperature thermochronological data of six granitoid samples collected from Maanzi pluton in the south margin of the GXR.The apatite and zircon(U-Th)/He ages vary of 70.8 ± 4.3-119.0 ±7.0 Ma and 120.0 ± 7.1-146.7 ± 8.7 Ma,respectively.Further numerical inverse modeling results reveal that the granitoid plutons experienced a rapid cooling and exhumation stage during Early Cretaceous with a rate of ~5.0-6.0 ℃/Ma and ~0.14-0.17 mm/yr,respectively,including the western minor pluton emplaced during Early Permian and the major pluton crystallized in latest Jurassic,corresponding to the extensional tectonics in NE China.The rapid exhumation processes in the south margin of the GXR during the Early Cretaceous could be related to both the rollback of Paleo-Pacific oceanic plate and the collapse of thickened crust in the Mongol-Okhotsk Orogen.

Geochemical provenancing and direct dating of the Harbin archaic human cranium

As one of the most complete archaic human fossils,the Harbin cranium provides critical evidence for studying the diversification of the Homo genus and the origin of Homo sapiens.However,the unsystematic recovery of this cranium and a long and confused history since the discovery impede its accurate dating.Here,we carried out a series of geochemical analyses,including non-destructive X-ray fluorescence(XRF),rare earth elements(REE),and the Sr isotopes,to test the reported provenance of the Harbin cranium and get better stratigraphic constraints.The results show that the Harbin cranium has very similar XRF element distribution patterns,REE concentration patterns,and Sr isotopic compositions to those of the Middle Pleistocene-Holocene mammalian and human fossils recently recovered from the Harbin area.The sediments adhered in the nasal cavity of the Harbin cranium have a 87Sr/86Sr ratio of 0.711898,falling in the variation range measured in a core drilled near the Dongjiang Bridge,where the cranium was discovered during its reconstruction.The regional stratigraphic correlations indicate that the Harbin cranium was probably from the upper part of the Upper Huangshan Formation of the Harbin area,which has an optically stimulated luminescence dating constraint between 138 and 309 ka.U-series disequilibrium dating(n=10)directly on the cranium suggests that the cranium is older than 146 ka.The multiple lines of evidence from our experiments consistently support the theory that the Harbin cranium is from the late Middle Pleistocene of the Harbin area.Our study also shows that geochemical approaches can provide reliable evidence for locating and dating unsystematically recovered human fossils,and potentially can be applied to other human fossils without clear provenance and stratigraphy records.

第四纪洞穴次生碳酸盐激光及同位素稀释剂法U-Pb定年

碳酸盐U-Pb年代学具有广阔的应用价值与潜力。近些年同位素稀释剂法和激光原位法碳酸盐U-Pb定年迅速发展,但国内尚未报道利用激光原位法测试的第四纪以来碳酸盐U-Pb年代,碳酸盐U-Pb定年的同位素稀释剂法也亟待开发,在此背景下西安交通大学同位素实验室针对第四纪洞穴次生碳酸盐开展了激光和稀释剂法(LA&ID MC-ICPMS)U-Pb定年方法研究。本研究利用激光法对不同碳酸盐标样进行了测试,获得的U-Pb年代结果与标准值在误差范围内一致;首次报道了三宝洞第四纪洞穴次生碳酸盐的高精度激光U-Pb定年结果,与国外实验室稀释法所得年代可相互印证;讨论了第四纪碳酸盐U-Pb定年初始U系非平衡分馏校正的有关问题,强调了稀释剂法对于δ^(234)U和Pb同位素高精度测试的重要价值;稀释剂法方面,本实验室全流程Pb本底目前能够达到世界一流水平(约10 pg);对于第四纪洞穴次生碳酸盐的初步测试结果(1.14±0.04 Ma, 2σ, n=5, MSWD=1)与国外稀释剂法及本实验室激光法在误差范围内一致,更进一步完善有望提高年代精度。本实验室建立了可靠的较高精度激光法和初步的稀释剂碳酸盐U-Pb定年方法,除了较老的碳酸盐样品以外,还能够对老于64万年的第四纪洞穴次生碳酸盐进行较高精度U-Pb年代学测试,对于早第四纪以来的众多科学问题的进一步研究具有重要意义。

Mesozoic Tectonic Evolution and Thermal History of the Yuanba Area of Northeast Sichuan Basin-Low-Temperature Thermochronology of Apatite and Zircon

By means of the vitrinite reflectance and U-Th/He dating of apatite and zircon in cut- ting samples from the T3x-K1j formations in the Yuanba （元坝） area of Northeast Sichuan （四川） Basin, a correlation has been established between the He-derived age and depth/temperature in this area assuming helium closure temperature of apatite in this area being 95 ℃. Mesozoic strata （T3x-Kd＇） experienced helium closure temperature of apatite approaching 95 ℃, but didn＇t reach the helium closure temperature of zircon （ca. 170-190 ℃） although some reached the highest pa- laeogeothermal temperature of about 170 ℃. The Mesozoic strata in the Yuanba area experienced an important uplift and denudation during Paleogene-Neogene periods （0.2-36.4 Ma）, the erosion rate being about 109.9 m/Ma. The K1] Formation and overlying strata experienced a maximum de- nudation loss of about 4 000 m. Geotemperatures gradually fell to the helium closure temperature of apatite and then fell further to the current temperature. The thermal evolution history of this area indicates that the maximum palaeogeothermal temperature of Mesozoic strata was close to 170- 190 ℃, prior to the strata being uplifted. During the period between 176 and 36 Ma, the palaeogeo- thermal temperature fell to 95-170 ℃. and after 36 Ma, it continued to fall to the present geotem- perature of less than 95 ℃.