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1.
In North Africa, the High Atlas belt culminates at more than 4000 m. In Morocco, recent work shows that a lithospheric thinning explains about 1000 m of the mean topography, the remaining topography being related to crustal shortening. We combine regional geology with new apatite fission‐track (AFT) ages to constrain the timing of these events in the Marrakech High Atlas (MHA). In the inner belt, 10 AFT ages are comprised between 9 ± 1 and 27 ± 3 Ma. These Neogene ages indicate that the MHA underwent significant denudation during that time. In the southern foreland domain of the belt, three samples give scattered AFT ages between 27 ± 2 and 87 ±5 Ma. Geological evidences allow us to constrain the age of a major denudation event during Middle Miocene age. We propose that it is linked to the thermal doming highlighted in the whole Moroccan Atlas domain.  相似文献   

2.
Apatite fission track (AFT) and (U–Th)/He data from the High Atlas have been obtained for the first time to constrain the tectono‐thermal evolution of the central part of the chain. Results from Palaeozoic basement massifs indicate long residence at low temperatures, consistently with their original location out of the deepest Mesozoic rift troughs and indicating minor exhumation. The best rocks for extracting the Alpine history of the Atlas Mountains are Jurassic intrusives, which yield AFT ages centred on c. 80 Ma; thermal models based on AFT data and constrained by (U–Th)/He suggest that these ages are included in a slow cooling trend from intrusion age to c. 50 Ma ago that we attribute to post‐rift thermal relaxation. This is followed by a stability period of c. 30 Ma and then by a final exhumational cooling until present exposure. Eocene intrusives yield AFT ages similar to those of Rb–Sr and K–Ar suggesting rapid emplacement in the uppermost crust.  相似文献   

3.
The northern Tibetan Plateau has evolved a unique basin-range structure characterized by alternating elongated mountain ranges and basins over a history of multiple tectonic and fault activities. The Subei basin recorded evolution of this basin-range structure. In this study, detailed detrital apatite fission track (AFT) thermochronological studies in conjunction with previously documented data reveal provenance of the Subei basin, important information about the Indo-Eurasia collision, and two Miocene uplift and exhumation events of the northern Tibetan Plateau. Detrital AFT analyses combined with sedimentary evidences demonstrate that the Danghenanshan Mountains is the major provenance of the Subei basin. In addition, very old age peaks indicate that part sediments in the Subei basin are recycling sediments. Age peak populations of 70–44 Ma and 61–45 Ma from the lower and upper Baiyanghe formations record the tectono-thermal response to the Indo-Eurasia collision. Combined detrital AFT thermochronology, magnetostratigraphy and petrography results demonstrate the middle Miocene uplift and exhumation event initiated 14–12 Ma in the Subei basin, which may resulted from the Miocene east-west extension of the Tibetan Plateau. Another stronger uplift and exhumation event occurred in the late Miocene resulted from strengthened tectonic movement and climate. A much younger AFT grain age, breccia of diluvial facies and boulders of root fan subfacies record the late Miocene unroofing in the Danghenanshan Mountains.  相似文献   

4.
青藏高原新生代以来的隆升过程及特征长期以来广存争议.岩体中不同单矿物所记录的中低温热年代学信息适用于揭示较新年代地质体的隆升过程,可以为之提供有效制约.在青藏高原部分岩浆岩与变质岩露头区原位采集15块样品,利用锆石与磷灰石裂变径迹等热年代学结果为青藏高原中生代末期以来的隆升过程提供约束.其中,所获10块样品的锆石裂变径迹数据年龄范围为182~33 Ma,分别记录了渐新世之前青藏高原内不同块体间相互碰撞及高原内不同地区的构造热事件.特别是沿雅鲁藏布江缝合带分布的3个样品,锆石裂变径迹年龄结果一致显示始新世末期-渐新世早期该带存在一期显著的构造热事件.该构造热事件暗示在约36~33 Ma沿雅江缝合带发生过强烈的陆-陆硬碰撞.所获14块样品的磷灰石裂变径迹年龄范围为70.4~5.0 Ma,综合热史反演结果显示青藏高原南部中新世中晚期以来存在整体性隆升,特别是从上新世开始隆升速率显著加快.磷灰石裂变径迹年龄在空间分布上具有向高原东南部变年轻的趋势,表明青藏高原东南部在上新世以来的构造隆升较其他地区要强烈,暗示印度-亚洲板块碰撞驱动机制对该时期的高原隆升具有控制作用.此外,青藏高原中部在白垩纪末期-始新世可能即已隆升至相当高度,此后至今保持了相当低的剥蚀速率.   相似文献   

5.
Combined petrographic, structural and geochronological study of the Malashan dome, one of the North Himalayan gneiss domes, reveals that it is cored by a Miocene granite, the Malashan granite, that intruded into the Jurassic sedimentary rocks of Tethys Himalaya. Two other granites in the area are referred to as the Paiku and Cuobu granites. New zircon SHRIMP U-Pb and muscovite and biotite 40Ar-39Ar dating show that the Paiku granite was emplaced during 22.2–16.2 Ma (average 19.3 ± 3.9 Ma) and cooled rapidly to 350–400 °C at around 15.9 Ma. Whole-rock granite chemistry suggests the original granitic magma may have formed by muscovite dehydration melting of a protolith chemically similar to the High Himalayan Crystalline Sequence. Abundant calcareous metasedimentary rocks and minor garnet-staurolite-biotite-muscovite ± andalusite schists record contact metamorphism by three granites that intruded intermittently into the Jurassic sediments between 18.5 and 15.3 Ma. Two stages of widespread penetrative ductile deformation, D1 and D2, can be defined. Microstructural studies of metapelites combined with geothermobarometry and pseudosection analyses yield P – T conditions of 4.8 ± 0.8 kbar at 550 ± 50 °C during a non-deformational stage between D1 and D2, and 3.1–4.1 kbar at 530–575 °C during syn- to post-D2. The pressure estimates for the syn- to post-D2 growth of andalusite suggest relatively shallow (depth of ∼15.2 km) extensional ductile deformation that took place within a shear zone of the South Tibetan Detachment System. Close temporal association between intrusion of the Malashan granite and onset of D2 suggests extension may have been triggered by the intrusion of the Malashan granite.  相似文献   

6.
In North Africa, the Algerian margin is made of basement blocks that drifted away from the European margin, namely the Kabylia, and docked to the African continental crust in the Early Miocene. This young margin is now inverted, as dated Miocene (17 Ma) granites outcrop alongshore, evidencing kilometre‐scale exhumation since their emplacement. Age of inversion is actually unknown, although Pliocene is often considered in the offshore domain. To decipher the exhumation history of the margin between 17 and 5 Ma, we performed a coupled apatite fission track (AFT) and (U–Th–Sm)/He (AHe) study in the Cap Bougaroun Miocene granite. AFT dates range between 7 ± 1 and 10 ± 1 Ma, and mean AHe dates between 8 ± 2 and 10 ± 1 Ma. These data evidence rapid and multi‐kilometre exhumation during Tortonian times. This event cannot be related to slab break‐off but instead to the onset of margin inversion that has since developed as an in‐sequence north‐verging deforming prism.  相似文献   

7.
The Tarim Basin is a representative example of the basins developed in the northwest China that are characterized by multiple stages of heating and cooling.In order to better understand its complex thermal history,apatite fission track (AFT) thermochronology was applied to borehole samples from the Tazhong Uplift Zone (TUZ).Twelve sedimentary samples of Silurian to Triassic depositional ages were analyzed from depths coinciding with the apatite partial annealing zone (~60-120 ℃).The AFT ages,ranging from 132 ± 7 Ma (from a Triassic sample) to 25 ± 2 Ma (from a Carboniferous sample),are clearly younger than their depositional ages and demonstrate a total resetting of the AFT thermometer after deposition.The AFT ages vary among different tectonic belts and decrease from the No.Ten Faulted Zone (133-105 Ma) in the northwest,the Central Horst Zone in the middle (108-37 Ma),to the East Buried Hill Zone in the south (51 25 Ma).Given the low magnitude of post-Triassic burial heating evidenced by low vitrinite reflectance values (Ro < 0.7%),the total resetting of the AFT system is speculated to result from the hot fluid flow along the faults.Thermal effects along the faults are well documented by younger AFT ages and unimodal single grain age distributions in the vicinity of the faults.Permian-early Triassic basaltic volcanism may be responsible for the early Triassic total annealing of those samples lacking connectivity with the fault.The above arguments are supported by thermal modeling results.  相似文献   

8.
南黄海中部隆起自印支期以来经历显著的构造隆升及剥蚀过程.基于大陆架科学钻探CSDP-2井的钻井岩心,应用磷灰石裂变径迹技术研究了南黄海中部隆起晚白垩世以来的剥蚀过程及响应特征.所获得的8个磷灰石样品的裂变径迹年龄显示出两个年龄组,除单个样品为38±3 Ma外,其余样品都集中在(52±4)~(65±5)Ma范围内,基本反映了同一期构造热事件年龄,并且均远小于样品所处的二叠纪年龄,表明样品完全退火并记录了晚白垩世以来的热历史.样品热史模拟结果表明,基于泥岩镜质体反射率计算的最高古地温处于样品退火带温区范围内,各样品从晚白垩世早期(约100 Ma)以来经历持续的降温过程,在约80~75 Ma开始进入部分退火带.南黄海中部隆起第一期快速冷却降温过程出现在晚白垩世末期,并持续至古新世早期,随后进入古近纪表现为持续相对缓慢的降温过程,降温幅度约30 ℃,渐新世末期到中新世早期存在另一期快速冷却过程.热史模拟结果较好地指示了南黄海中部隆起晚白垩世以来的地层剥蚀响应特征.   相似文献   

9.
龙门山冲断隆升及其走向差异的裂变径迹证据   总被引:4,自引:1,他引:3  
大量的低温年代学研究用来讨论龙门山晚新生代的隆升,但很少涉及其走向差异和中生代隆升。本文分别沿龙门山北、中、南段3条剖面进行了锆石和磷灰石裂变径迹测试,结合已有的热年代学数据,以期揭示整个中-新生代期间龙门山隆升历史及其时空变化。中生代以来,龙门山主要有印支期(约200 Ma)、早白垩世末(约100 Ma)、早新生代(65~30 Ma)以及晚中新世(15~9 Ma)等或快或慢的冷却事件,总体上经历了中生代至早新生代的缓慢冷却和晚新生代快速冷却2个阶段,快速剥露开始于15~9 Ma,剥蚀速率由早期的0.1 mm/a增加到0.15~0.3 mm/a左右,局部可达0.9 mm/a左右。走向上,龙门山北段相对偏小的锆石裂变径迹年龄和相对偏大的磷灰石裂变径迹年龄反映其在中生代较中、南段隆升更快,而裂变径迹年龄总体上从北段向中、南段减小,表明中、南段在新生代发生了更快的隆升。倾向上,多种热年代学数据显示新生代期间在北川断裂和彭灌断裂两侧存在明显的差异剥露,这种差异在中、南段表现比北段更为突出。龙门山晚新生代快速隆升和剥露是青藏高原区域隆升背景上叠加的冲断活动所致,而非下地壳流动驱动。  相似文献   

10.
Ultra-high-pressure eclogites from the Dabie orogen that formed over a range in temperatures (∼600 to > 700 °C) have been investigated with combined Lu–Hf and Sm–Nd geochronology. Three eclogites, sampled from Zhujiachong, Huangzhen and Shima, yield Lu–Hf ages of 240.0 ± 5.0, 224.4 ± 1.9 and 230.8 ± 5.0 Ma and corresponding Sm–Nd ages of 222.5 ± 5.0, 217.6 ± 6.1 and 224.2 ± 2.1 Ma respectively. Well-preserved prograde major- and trace-element zoning in garnet in the Zhujiachong eclogite suggests that the Lu–Hf age mostly reflects an early phase of garnet growth that continued over a time interval of c. 17.5 Myr. For the Huangzhen eclogite, despite preserved elemental growth zoning in garnet, textural study reveals that the Lu–Hf age is biased towards a later garnet growth episode rather than representing early growth. The narrow time interval of <6.6 Myr defined by the difference between Lu–Hf and Sm–Nd ages indicates a short final garnet growth episode and suggests a rapid cooling stage. By contrast, the rather flat element zoning in garnet in the Shima eclogite suggests that Lu–Hf and Sm–Nd ages for this sample have been reset by diffusion and are cooling ages. The new Lu–Hf ages point to an initiation of prograde metamorphism prior to c . 240 Ma for the Dabie orogen, while the exact peak metamorphic timing experienced by specific samples ranges between c . 230 to c. 220 Ma.  相似文献   

11.
The Rwenzori Mountains (Mtns) in west Uganda are the highest rift mountains on Earth and rise to more than 5,000 m. We apply low-temperature thermochronology (apatite fission-track (AFT) and apatite (U–Th–Sm)/He (AHe) analysis) for tracking the cooling history of the Rwenzori Mtns. Samples from the central and northern Rwenzoris reveal AFT ages between 195.0 (±8.4) Ma and 85.3 (±5.3) Ma, and AHe ages between 210.0 (±6.0) Ma to 24.9 (±0.5) Ma. Modelled time–temperature paths reflect a protracted cooling history with accelerated cooling in Permo-Triassic and Jurassic times, followed by a long period of constant and slow cooling, than succeeded by a renewed accelerated cooling in the Neogene. During the last 10 Ma, differentiated erosion and surface uplift affected the Rwenzori Mtns, with more pronounced uplift along the western flank. The final rock uplift of the Rwenzori Mtns that partly led to the formation of the recent topography must have been fast and in the near past (Pliocene to Pleistocene). Erosion could not compensate for the latest rock uplift, resulting in Oligocene to Miocene AHe ages.  相似文献   

12.
Shrimp U–Pb zircon dating of structurally constrained felsic orthogneiss samples in the western Musgrave Block has been used to delineate discrete magmatic and metamorphic events at c . 1300 and c . 1200  Ma. The dating of pre-D1 and post-D1 felsic orthogneiss constrains D1 to have occurred at 1312±16 to 1324±4  Ma. This is the first geochronological study to identify such a metamorphic and deformation event in the Musgrave Block. D1 was accompanied by a major magmatic event involving the emplacement of voluminous felsic orthogneiss between 1296 and 1324  Ma. Zircon overgrowths on numerous igneous zircon cores give a consistent age of c . 1200  Ma, reflecting zircon growth during a second high-grade metamorphic event (D2). This c . 1200  Ma metamorphic event was followed by the intrusion of a c . 1190  Ma megacrystic granite. The c . 1300 and c . 1200  Ma events in the Musgrave Block can be tentatively correlated with metamorphic events in the Albany-Fraser Orogen, and the Windmill Islands and Bunger Hills in east Antarctica. A major continuous Grenville-age orogenic belt joining these areas may have represented a plate boundary between the pre-Rodinian proto-Australian continent and proto-Antarctica during the formation of Rodinia in the Mesoproterozoic.  相似文献   

13.
Apatite fission-track (AFT) and (U+Th)/He (AHe) data, combined with time–temperature inverse modelling, reveal the cooling and exhumation history of the Iberian Massif in eastern Galicia since the Mesozoic. The continuous cooling at various rates correlates with variation of tectonic boundary conditions in the adjacent continental margins. The data provide constraints on the 107 timescale longevity of a relict paleolandscape. AFT ages range from 68 to 174 Ma with mean track lengths of 10.7 ± 2.6 to 12.6 ± 1.8 μm, and AHe ages range from 73 to 147 Ma. Fastest exhumation (≈0.25 km/Ma) occurred during the Late Jurassic to Early Cretaceous main episode of rifting in the adjacent western and northern margins. Exhumation rates have decreased since then and have been approximately one order of magnitude lower. Across inland Galicia, the AFT data are consistent with Early Cretaceous movement on post-Variscan NE trending faults. This is coeval with an extensional episode offshore. The AHe data in this region indicate less than 1.7 km of denudation in the last 100 Ma. This low exhumation suggests the attainment of a mature landscape during Late Cretaceous post-rift tectonic stability, whose remains are still preserved. The low and steady rate of denudation prevailed across inland Galicia despite minor N–S shortening in the northern margin since ≈45 Ma ago. In north Galicia, rock uplift in response to NW strike-slip faulting since Early Oligocene to Early Miocene has caused insufficient exhumation (<3 km) to remove the Mesozoic cooling signal recorded by the AFT data.  相似文献   

14.
姜磊  邓宾  刘树根  王自剑  周政  罗强  何宇  赖冬 《地球科学》2018,43(6):1872-1886
中-新生代上扬子陆相盆地不仅是华南大陆的核心构造单元,也是大陆构造和盆地成因演化研究的天然实验室.基于楚雄盆地和四川盆地晚白垩世地层剖面中6件样品LA-ICP-MS磷灰石FT-U/Pb双法定年和热演化史模拟等研究,揭示上扬子盆地新生代差异抬升剥蚀及其分异过程.楚雄盆地大姚宜就剖面江底河组磷灰石裂变径迹(apatite fission track,AFT)年龄和径迹长度分别为43.2~33.9 Ma、10.06~11.30 μm,中新世以来快速抬升冷却速率达到约3~5 ℃/Ma;四川盆地宜宾柳嘉剖面三合组-高坎坝组AFT年龄和径迹长度分别为128.0~95.2 Ma、10.2~11.7 μm,为部分埋深退火样品.宜就剖面和柳嘉剖面上白垩统磷灰石U-Pb年龄峰值特征总体相似,共同揭示物源区古元古代(2 100~1 700 Ma)、新元古代(820~700 Ma)、早古生代(500~400 Ma)和早中生代(250~170 Ma)中高级别变质-岩浆构造热事件,其晚白垩世物源区主要为扬子板块西缘和北缘地区(即松潘-甘孜褶皱带、义敦岛弧、康滇古陆和秦岭造山带).尤其柳嘉剖面磷灰石FT-U/Pb对比年龄揭示三合组-高坎坝组中少量磷灰石矿物为物源区晚三叠世-晚白垩世快速岩浆侵位过程的初始旋回沉积产物.晚新生代上扬子盆地受控于青藏高原东南向扩展生长过程控制影响,最终发生肢解分异形成现今盆地格架.   相似文献   

15.
对出露在东喜马拉雅构造结南迦巴瓦地区那木拉峰的片麻岩进行了系统垂向上的磷灰石裂变径迹取样分析,在3393~4537m取样高程内的10个样品获得的磷灰石裂变径迹分析结果显示:中值年龄在0.64~1.58Ma之间,平均封闭径迹长度在14.0~15.2μm之间,标准偏差在1.0~3.5μm之间。其中,径迹长度数据为这一地区的首次报道,可以为数据分析的可靠性提供重要保证。通过利用裂变径迹的"香蕉图"模式分析,在这批年龄结果中进一步区分出了代表混合年龄的样品组分和代表事件年龄的样品组分。事件年龄揭示这一地区在更新世有两期抬升-剥露事件的记录,时间分别为1.10±0.24Ma和0.65±0.08Ma。而磷灰石裂变径迹年龄在剖面线上的空间分布显示山体内部的高海拔地区年龄较新,向边缘低海拔地区逐渐变老的趋势。这种分布特征与早期多雄拉-那木拉褶皱构造变形无关,是东喜马拉雅构造结地区正处于快速抬升-剥露过程中的一种指示。据地温梯度30~40℃/km推算的1Ma以来的平均视剥露速率约为2.43~3.24mm/a。而结合前人的研究成果分析,这一地区快速地抬升-剥露过程可能自3Ma已发生。东喜马拉雅构造结1.10Ma和0.65Ma的抬升-剥露事件可以与青藏高原隆起过程中周缘地区的"昆黄运动"、气候转型和沙漠化等同期响应事件在年代学上建立联系。青藏高原的周缘隆起在更新世时期表现出的活动响应具有准同时的特征。  相似文献   

16.
嘉黎断裂带两侧晚新生代差异隆升的磷灰石裂变径迹纪录   总被引:5,自引:0,他引:5  
对嘉黎断裂带两侧的磷灰石裂变径迹年代学测试表明,断裂带北侧的磷灰石裂变径迹年龄在5.6~11.7Ma之间,属中新世晚期;断裂带南侧的磷灰石裂变径迹年龄明显较小,6个样品中有5个样品的磷灰石裂变径迹年龄在4.0~5.9Ma之间,属上新世早期.嘉黎断裂带北侧5.6~11.7Ma期间的隆升速率为0.07~0.09mm/a.5.8Ma以来平均剥露速率为0.50mm/a,平均隆升速率1.33mm/a.断裂带南侧4.7Ma以来平均剥露速率为0.62mm/a,平均隆升速率1.68mm/a.两侧样品都反映上新世以来有较强烈的隆升作用,并且南侧比北侧隆升作用更强烈.  相似文献   

17.
The tectonic inversion of the Songliao Basin during the Oligo–Miocene may have played an important role in controlling the development of sandstone-type uranium deposits (SUDs). Here we investigate drill holes along a southeast to northwest section in this basin based on apatite fission-track (AFT) and zircon fission-track (ZFT) techniques. We present 50 data from 15 deep boreholes at different depths between 665 and 3956 m and different structural units including grabens and horsts formed in the Early Cretaceous beneath the basin. The results of the effective AFT ages are 100 ± 11 to 2.3 ± 0.4 Ma (P(x2) > 5%) and ZFT ages are 97.5–20.4 Ma (including binomial peak ages). These results reveal that the basin underwent two distinct stages of rapid cooling after Late Cretaceous. In the first stage, during the Late Cretaceous–Early Paleogene (~80–50 Ma), tectonic uplift occurred in all of the structural units including grabens and horsts, which was marked by an unconformity between the latest Cretaceous Mingshui and the Eocene Yi'an formations. In the second stage, during the Oligo–Miocene (~40–10 Ma), tectonic uplift occurred mainly in the grabens but not in the horsts, corresponding with a few sediments of the Neogene Da'an and Taikang formations. We propose that the folds and the thrust faults mostly characterize in the second stage indicating a major tectonic inversion in the basin. The shifting of the two stages was probably in response to differences in the subduction angles and directions of motion of the Paleo-Pacific Plate from the southeast. Combined with previous information, it was demonstrated that most of the U mineralization ages are younger than 40 Ma, with a peak in the Miocene or later (<20 Ma). We thus propose that the SUDs have been redistributed and redeposited locally in successive stages during and after the Oligo–Miocene tectonic inversion.  相似文献   

18.
青藏高原东缘地区隆升作用特征-低温年代学证据   总被引:3,自引:0,他引:3       下载免费PDF全文
通过对比研究青藏高原东缘若尔盖-泸定地区低温年代学样品(ZFT样31件、AFT样56件和 A(U­Th)/He 样37件)各参数(隆升年龄和隆升速率)特征表明,该地区中生代以来的抬升冷却过程具由北向南的递进隆升特征,南部丹巴弧形带与北部茂县弧形带产生了显著的隆升剥露“翘掀式”调整,北部弧形带隆升剥露较早、速率先快后慢,南部弧形带隆升剥露较晚、速率先慢后快; 且在早中新世研究区处于平静期,抬升剥露作用显著减缓。年龄及抬升冷却速率等值线垂向上浅部(70℃等温面)较深部(110℃等温面)弧形展布特征显著; 平面上总体向南具连续弧形变化趋势(年龄变新、隆升速率增大)。抬升冷却(剥露)特征显示出中央造山带和青藏高原的形成对该地区隆升过程的强烈影响,以及弧形构造格架对浅部地表抬升剥露的显著控制作用。  相似文献   

19.
The exhumation history and tectonic evolution of the Qilian Shan at the north‐eastern margin of the Tibetan Plateau has been widely debated. Here, we present apatite fission‐track (AFT) data for 12 Ordovician granodiorite samples along a vertical transect in the eastern Qilian Shan. These thermochronometry data indicate that the eastern Qilian Shan experienced a three‐stage cooling history, including: (i) rapid initial cooling in the late Cretaceous; (ii) a stage of quasi isothermal quiescence from ~ 80 to 24 Ma; and (iii) rapid subsequent cooling beginning in the early Miocene. The inferred cooling rates for the three stages are 6.8 ± 4.9 °C Ma?1, 0.6 ± 0.2 °C Ma?1 and 2.7 ± 0.9 °C Ma?1 respectively (±1 σ). Assuming a geothermal gradient of 25 °C km?1, the exhumation rates for the three stages are 0.27 ± 0.20 mm a?1, 0.017 ± 0.007 mm a?1 and 0.11 ± 0.04 mm a?1 respectively (±1 σ). We suggest that the late Cretaceous cooling records collision of the Lhasa block with the Eurasian continent and that the Miocene cooling represents uplift/exhumation of the Qilian Shan.  相似文献   

20.
矿床形成深度及成矿后的变化与保存是目前深部找矿亟待解决的关键问题.选取4个成矿年龄均为130 Ma左右的典型玢岩铁矿, 分别为宁芜盆地中矿体已经出露地表并经受过剥蚀的东山铁矿和矿体埋藏距地表 40 m以下的梅山铁矿, 庐枞盆地中矿体埋藏距地表400 m以下的罗河铁矿和矿体埋藏距地表600 m以下的泥河铁矿, 采用双重定年技术对这4个矿床主成矿阶段矿石矿物组合中的磷灰石进行了裂变径迹研究.结果显示: (1)东山铁矿AFT合并年龄为106.3±5.4 Ma, 梅山铁矿为94.2±4.0 Ma, 罗河铁矿为81.3±4.0 Ma, 泥河铁矿为79.1±3.3 Ma, 且AFT年龄和围限径迹长度随样品埋藏深度减小而增大, 分别更接近成矿年龄和原始径迹长度, 显示4个矿床成矿后差异抬升剥蚀作用导致磷灰石样品通过部分退火带时的冷却速率存在差别; (2)热史模拟反映这4个矿床成矿后均经历了早期短暂快速冷却和后期长期缓慢冷却2个阶段, 两阶段之间的拐点温度接近, 对应深度为1.7~1.8 km, 结合其他证据证明宁芜、庐枞盆地玢岩铁矿成矿深度均为2 km左右.说明这4个矿床现今埋藏深度的差异主要是由于成矿后的抬升、剥蚀作用导致.(3)自110 Ma以来宁芜盆地的整体抬升剥蚀幅度大于庐枞盆地, 导致宁芜盆地大部分玢岩铁矿矿体接近或暴露地表.2个盆地早期抬升剥蚀作用与区域性黄桥事件同步.   相似文献   

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