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1.
《中国科学:地球科学》2020,(6)
确定火山岩的喷发期次是重建火山喷发相关的第四纪环境、研究晚新生代地球动力学和预测火山喷发危险性的前提.激光~(40)Ar/~(39)Ar年代学方法对年轻火山岩样品的定年有明显的优势,具有自动化测试稳定、本底低、高灵敏度等特点,适用于年轻火山岩样品的定年工作.文章采用激光~(40)Ar/~(39)Ar年代学方法对腾冲火山岩区主要岩石单元进行了精细的年代学研究,通过常规的数据处理得到了腾冲火山喷发的时限为0.025~5.1Ma.但年轻火山岩定年因放射成因的~(40)Ar含量极少,偶然因素较多,数据的稳定性较差,甚至得出偏差很大的年龄结果,其分期结果值得商榷.另外,传统分期方法缺乏统一的时间尺度标准,无法对腾冲火山喷发进行严格的时间限定,导致对期次划分认识的分歧.文章尝试引入新的数学模型,对13件样品一共378个年龄测试值进行了重新分期,得到了包含3个波形曲线、彼此独立的表观年龄概率分布图,利用高斯数学模型对波形进行分析,分别对确认的3个正态波形涵盖的年龄数据进行等时线年代学计算,很好地限定了腾冲火山的3期喷发,分别为上新世((3.78±0.04)Ma)、中更新世早期((0.63±0.03)Ma)和中更新末期到晚更新世早期((0.1~(39)±0.005)Ma).这3期喷发时限具有相同的实验精度和时间尺度,降低了年龄数据的误差和偶然性,能准确地限定和代表腾冲火山的整体喷发分期. 相似文献
2.
运用LA-ICP MS锆石U-Pb定年、角闪石和黑云母40Ar-39Ar定年、锆石和磷灰石裂变径迹(FT)分析等构造热年代学研究方法,探讨分析了鄂尔多斯盆地东缘紫金山侵入岩的热演化历史及其抬升冷却过程.紫金山侵入岩主要由次透辉二长岩和正长岩组成,锆石U-Pb测年给出的岩浆侵位-结晶年龄为136.7 Ma,角闪石和黑云母40Ar-39Ar测年获得的岩浆结晶-固结年龄集中在133.1~130.4 Ma,表明紫金山侵入岩主要形成于早白垩世的136.7~130.4 Ma.侵入岩T-t轨迹与磷灰石FT模拟热史路径综合揭示了鄂尔多斯盆地东缘紫金山侵入岩抬升冷却的三个构造热演化阶段:1) 136~120 Ma侵位岩浆结晶-固结阶段,岩体平均冷却速率高达52 ℃/Ma;2) 120~30 Ma岩体相对缓慢抬升冷却阶段,平均抬升冷却速率为2.5 ℃/Ma;3) 30 Ma以来岩体快速抬升冷却阶段,平均抬升冷却速率3.6 ℃/Ma,尤以近10 Ma以来的快速抬升冷却最为显著,抬升冷却速率接近7 ℃/Ma.结合区域构造动力学环境分析认为,鄂尔多斯盆地东缘的紫金山岩浆活动与华北克拉通早白垩世构造体制转换过程的大规模岩浆活动属于相同时期、统一构造作用的产物,早白垩世末期以来由慢到快的差异抬升过程主要受控于华北克拉通东部(古)太平洋体系与其西南部特提斯体系之间相互联合、彼此消长的构造作用. 相似文献
3.
4.
长白山天池火山造锥粗面岩新的K-Ar年龄 总被引:1,自引:0,他引:1
根据采集样品的野外产状,结合前人对天池火山造锥阶段粗面岩时代的研究以及本文给出的新的K-Ar年龄,比较了天池火山北坡和东北坡的造锥粗面岩喷发时代,分析了不同期次喷发的粗面岩的覆盖范围,发现天池火山东北坡粗面岩年龄明显新于北坡粗面岩年龄。天池火山东北坡造锥阶段粗面岩的最老年龄距今0.38Ma,属于中更新世晚期,是第3造锥阶段的喷发物。在东北坡未发现第1造锥和第2造锥阶段的喷发物。新给出的天池火山北侧和东侧2个钻孔资料表明,天池火山造锥粗面岩喷发之前存在距今约2Ma和约1Ma左右的更早期的粗面岩喷发过程。造锥阶段碱流质岩浆喷发持续时间可能在距今0.190~0.0192Ma 相似文献
5.
《地震地质》2015,(4)
华北东部海兴一带出露2座第四纪火山,即小山火山和大山火山,并在边庄附近隐伏了火山岩。野外考察和室内分析显示:小山火山为玛珥式火山,喷发方式为射汽岩浆喷发,影响范围仅限于火口附近,喷发物为火山渣、晶屑和火山灰;大山火山早期为爆破式喷发,后有岩浆侵入,喷发强度和规模均不大,产生了火山渣、火山集块岩和致密熔岩颈。边庄隐伏火山岩为气孔状和致密火山岩及火山角砾岩,喷发方式以弱爆破式喷发和熔岩流溢为主,喷发时代为早更新世。小山火山渣和边庄隐伏火山岩成分为玄武质,而大山火山岩Si O2含量低,属于霞石岩。氧化物含量不显示线性关系,说明它们之间不存在岩浆演化关系。3处火山岩均富集轻稀土,边庄隐伏火山岩富大离子亲石元素,无高场强元素Zr、Hf、Ti亏损,大山和小山样品强烈富集Th、U、Nb和Ta,明显负K和Ti。3处火山岩具有不同的岩石学和地球化学特征,具有相对独立的火山结构,虽均可能来自软流圈,但明显经历了不同的岩浆活动过程。 相似文献
6.
云南腾冲马鞍山最后一次喷发的热释光年龄 总被引:4,自引:0,他引:4
云南腾冲火山区是我国少数几个近代有火山活动的地区之一,它由多座第四纪火山组成。其中马鞍山是规模较大,可能喷发较晚的一处火山。从马鞍山火山锥附近采集了2个火山岩样品,进行了热释光测年分析。热释光年龄表明马鞍山最后一次大规模的火山喷发发生在全新世,可能距今约2500~3500年。 相似文献
7.
锡林浩特-阿巴嘎火山群内的玛珥式火山 总被引:4,自引:0,他引:4
锡林浩特-阿巴嘎火山群位于内蒙古自治区锡林郭勒盟,处于大兴安岭-大同新生代火山喷发带中段。火山群内发育300余座不同类型的第四纪玄武质火山,其中玛珥式火山属首次发现,以阿巴嘎旗东南部的浩特乌拉、西北部的车勒乌拉和额斯格乌拉玛珥式火山最具代表性,其火山规模较大,锥体直径一般为3~4km,大者约6.5km。火山结构较完整,具有相似的双轮山地貌景观和明显的阶段性喷发过程,喷发阶段早期为强烈的射汽-岩浆爆发,晚期均转变为弱岩浆爆发,最后为玄武质熔岩流的溢出。这种喷发序列反映了岩浆与水相互作用以及岩浆上升速度和溢出率变化的过程。火山喷发形成的基浪堆积物覆盖在中更新统河谷砂砾石之上,其中近火口溅落堆积物中上新世砂泥岩"包体"的热释光年龄为(0.112±0.0096)Ma,表明玛珥式火山喷发时代属晚更新世早期。 相似文献
8.
雷琼地区火山岩的钾-氩同位素年龄测定和古地磁极性研究表明,新生代在该地区的岩浆活动一直很强烈。火山岩的生成年代不晚于中新世晚期,至更新世岩浆活动尤为强烈。 研究也表明中新世晚期以来这里的地球磁场极性变化规律与近期发表的地磁极性年表大体相符,并肯定了数个尚有争议的短期极性事件的存在。年代为0.58±0.13Ma的反极性火山岩的资料肯定了安比拉(Emperor)事件的存在。研究还证实了布容/松山极性时界线之下和哈拉米洛极性亚时之上有一短期的极性事件,其年代约为0.78±0.03Ma.在奥尔都维和哈拉米洛极性亚时之间存在有另一正极性事件,这可能相当于吉尔萨(Gilsa)事件。 相似文献
9.
长白山天池火山喷发序列研究 总被引:4,自引:0,他引:4
长白山天池火山周边的11个钻孔资料揭示了长白山天池火山的喷发序列和岩浆演化过程.天池火山的喷发序列分为3个旋回:早期旋回喷发于上新世至早更新世,对应着周边地区的造高原喷发,天池火山熔岩盾主体开始形成,岩浆演化顺序是粗面玄武岩到粗面岩;中期旋回是早更新世的玄武岩浆演化到粗面岩和粗安岩(相当于小白山组);晚期旋回是从更新世到全新世,老房子小山组的玄武岩演化到白头山组粗面岩及碱流岩.在粗面质岩浆喷发过程中,有寄生火山的玄武质岩浆伴随喷发.全新世内天池火山千年大喷发主体由碱流质火山碎屑堆积物构成,松散堆积物的钻孔堆积层序表明,天池火山在全新世至少发生过两期巨型造伊格尼姆岩喷发. 相似文献
10.
冲绳海槽火山岩Sr-Nd同位素特征及U系年龄 总被引:2,自引:0,他引:2
对冲绳海槽北段和中段的火山岩进行了U系年代及Sr-Nd同位素组成分析. 其中, 海槽北段火山岩(特别是关于黑色浮岩)年龄与Sr-Nd同位素数据以前未见报道. 根据测得年龄数据结合相关同位素组成, 作者进一步讨论了冲绳海槽岩浆演化过程认为: 海槽晚更新世以来有一期广泛的酸性火山喷发活动; 酸性岩石可进一步分成三类; 冲绳海槽岩浆物质来源于PREMA地幔源区, 海槽北、中段岩浆演化过程相似, 但与海槽南段岩浆作用差异明显; 吕宋岛弧与琉球岛弧的碰撞终止了冲绳海槽南段张裂, 直到早更新世. 相似文献
11.
Reconstruction of Quaternary environments, late Cenozoic geodynamics and evaluation of volcanic hazards, all depend on the precise delineation of eruptive stages. In recent years, laser ~(40)Ar/~(39)Ar dating methods have been widely used for dating young volcanic rocks, given their stable automated testing process, very low background level and high sensitivity, which meet the requirements for precise dating of young samples. This paper applied high-precision laser ~(40)Ar/~(39)Ar dating to the main volcanic units in the Tengchong area and obtained ages in the range of 0.025–5.1 Ma using conventional data processing methods. However, conventional dating highlighted issues related to very low radiogenic ~(40)Ar content, accidental errors and poor data stability, which led to huge age deviations. Moreover, lacking a unified timescale, conventional methods were unable to strictly define the stages of the Tengchong volcanic eruptions, leading to ongoing controversy. In this study, we applied a Gaussian mathematical model to deal with all 378 original ages from 13 samples. An apparent age-probability diagram,consisting of three independent waveforms, have been obtained. The corresponding isochron ages of these three waveforms suggest there were three volcanic eruptive stages, namely during the Pliocene(3.78±0.04 Ma), early Middle Pleistocene(0.63±0.03 Ma) and late Middle Pleistocene to early Late Pleistocene(0.139±0.005 Ma). These results accurately define eruptive stages in the Tengchong area. 相似文献
12.
Seventeen K/Ar dates were obtained on illitic clays within Valles caldera (1.13 Ma) to investigate the impact of hydrothermal alteration on Quaternary to Precambrian intracaldera and pre-caldera rocks in a large, long-lived hydrothermal system ( 1.0 Ma to present). Clay samples came from scientific core hole VC-2B (295°C at 1762 m) which was spudded in the Sulphur Springs thermal area and drilled into the boundary between the central resurgent dome and the western ring-fracture zone. Six illitic clays within Quaternary caldera-fill debris flow, tuffaceous sediment, and ash-flow tuff (48 to 587 m depth) yield ages from 0.35 to 1.09 Ma. Illite from Miocene pre-caldera sandstone (765 m) gives an age of 6.74 Ma. Two dates on illite from sandstones in Permian red beds (1008 and 1187 m) are 4.33 and 4.07 Ma, respectively. Surprisingly, three dates on illites from altered andesite pebbles within the red beds (1010–1014 m) are 0.95 to 1.06 Ma. Four illite dates on variably altered Precambrian quartz monzonite (1615–1762 m) range from 2.90 to 276 Ma.Post-Valles age illite is not correlated with alteration style (argillic to propylitic). Rather, post-Valles ages are uniformly obtained from illites in highly fractured, intensely altered, caldera-fill rocks and the Permian volcanic clasts. Generally, finer clay fractions from identical samples yield younger ages. Plots of 40Ar/36Ar versus 40K/36Ar and 40Ar* versus 40K for the illites in caldera-fill rocks lie close to a 1-Ma isochron. Most illite dates older than Valles caldera are difficult to interpret because they correspond to the ages of pre-Valles volcanic and hydrothermal episodes in the Jemez volcanic field ( 13 Ma). In addition, older dates may be caused by co-mingling of different illites during sample preparation, or by inherited argon or lost argon in illites from rocks with potentially complex hydrothermal histories. However, the range of ages obtained from illites in Permian sands and pebbles and from Precambrian crystalline rocks indicates that Valles hydrothermal activity is overwhelming illite produced by earlier geologic events. 相似文献
13.
40Ar/39Ar age data on alkalic and tholeiitic basalts from Diakakuji and Kinmei Seamounts in the vicinity of the Hawaiian-Emperor bend indicate that these volcanoes are about 41 and 39 m.y. old, respectively. Combined with previously published age data on Yuryaku and Ko¯ko Seamounts, the new data indicate that the best age for the bend is 42.0 ± 1.4 m.y.Petrochemical data indicate that the volcanic rocks recovered from bend seamounts are indistinguishable from Hawaiian volcanic rocks, strengthening the hypothesis that the Hawaiian-Emperor bend is part of the Hawaiian volcanic chain.40Ar/39Ar total fusion ages on altered whole-rock basalt samples are consistent with feldspar ages and with40Ar/39Ar incremental heating data and appear to reflect the crystallization ages of the samples even though conventional K-Ar ages are significantly younger. The cause of this effect is not known but it may be due to low-temperature loss of39Ar from nonretentive montmorillonite clays that have also lost40Ar. 相似文献
14.
K–Ar ages have been determined for 14 late Miocene to Pliocene volcanic rocks in the north of the Kanto Mountains, Japan, for tracking the location of the volcanic front through the time. These samples were collected from volcanoes located behind the trench–trench–trench (TTT) triple junction of the Pacific, Philippine Sea, and North American plates. This junction is the site of subduction of slabs of the Pacific and the Philippine Sea plates, both of which are thought to have influenced magmatism in this region. The stratigraphy and K–Ar ages of volcanic rocks in the study area indicate that volcanism occurred between the late Miocene and the Pliocene, and ceased before the Pleistocene. Volcanism in adjacent areas of the southern NE Japan and northern Izu–Bonin arcs also occurred during the Pliocene and ceased at around 3 Ma with the westward migration of the volcanic front, as reported previously. Combining our new age data with the existing data shows that before 3 Ma the volcanic front around the TTT junction was located about 50 km east of the preset‐day volcanic front. We suggest that northward subduction of the Philippine Sea Plate slab ended at ~3 Ma as a result of collision between the northern margin of the plate with the surface of the Pacific Plate slab. This collision may have caused a change in the subduction vector of the Philippine Sea Plate from the original north‐directed subduction to the present‐day northwest‐directed subduction. This indicates that the post ~3 Ma westward migration of the volcanic front was a result of this change in plate motion. 相似文献
15.
A new geochronological and geochemical study was carried out to better constrain the petrogenesis and eruptive history of Monte Amiata, a large Pleistocene trachydacitic volcano of Southern Tuscany. Previous studies suggested a magma mixing origin between calc-alkaline silicic melts from the Tuscan Magmatic Province (TMP) and potassic mafic melts like those found in the Roman Magmatic Province (RMP). Two eruptive episodes–the first at ca. 300 kyr, the second at ca. 200 kyr–were distinguished from the few available ages. However, both the involvement of a RMP-like melt as mafic end-member and the timing of volcanic activity remained to be ascertained. The K–Ar ages obtained on plagioclase, sanidine and glass separated from Mt Amiata volcanic rocks demonstrate the sanidine is the most suitable phase for K–Ar dating. Sanidine yields ages of 304–293 kyr for the basal trachydacitic unit (BTC), 298–280 kyr in the domes unit (DLC) and unexpected older ages of 312–308 kyr for the more mafic summit lava unit (OLL). A careful re-examination of the literature ages together with those obtained in this study shows that they tend to a common age of ca. 300 kyr whatever the volcanic unit. We interpret this as a reset of the K–Ar chronometer in response to a consequent recharge of the silicic magma reservoir by hot mafic melts. This recharge most probably triggered the first volcanic eruption of Mt Amiata magmas. In our model, we suppose an initially chemically-stratified magma chamber; the input of deep hot mafic melts reset the crystals clock and probably allowed the eruption of the huge amount of trachydacitic crystal mush. We propose that the controversial BTC unit could have emplaced during a non-explosive eruption if we consider either pre-eruption passive degassing or extrusion of the trachydacites as magmatic foam.First Pb isotopic data of mafic enclaves from the trachydacitic units, together with major and trace elements and new Sr and Nd data support the magma mixing as the dominant process at the origin of the Mt Amiata volcanic rocks. The similar LILE/HFSE ratios evidenced in this contribution between the magmatic enclaves of Mt Amiata and RMP volcanic rocks, together with their comparable Sr, Nd and Pb isotopic compositions, definitively argue for the involvement of a RMP-like melt in the mixing. The Mt Amiata is thus indisputably a hybrid volcano between TMP and RMP in terms of petrogenesis and ages. 相似文献
16.
Ichiro Kaneoka 《Earth and Planetary Science Letters》1980,46(2):233-243
40Ar/39Ar dating results on seven volcanic rocks from four areas of the Deccan Traps, India, suggest that volcanic activity more than 70 Ma ago might have occurred at least in limited areas.In the Igat Puri area, the uppermost flow shows an40Ar/39Ar age of 63 Ma, whereas a lower flow has an age of around 82–84 Ma.40Ar/39Ar ages of samples from the Bombay area also seem to favor the occurrence of volcanic activity more than 70 Ma ago. One rhyolite dyke from the Osam Hill in the Girnar Hill area shows a well-defined plateau age of 68 Ma, whereas two tholeiitic basalts from the Mahabaleshwar area indicate a total40Ar/39Ar age of around 63–64 Ma, though they show the effect of secondary disturbance in the age spectra.The volcanic activity(ies) more than 70 Ma ago may correspond to precursory one(s) for the main volcanic activity around 65 Ma ago in the Deccan Traps. 相似文献
17.
Jan Wijbrans Károly Németh Ulrike Martin Kadosa Balogh 《Journal of Volcanology and Geothermal Research》2007
Neogene alkaline basaltic volcanic fields in the western Pannonian Basin, Hungary, including the Bakony–Balaton Highland and the Little Hungarian Plain volcanic fields are the erosional remnants of clusters of small-volume, possibly monogenetic volcanoes. Moderately to strongly eroded maars, tuff rings, scoria cones, and associated lava flows span an age range of ca. 6 Myr as previously determined by the K/Ar method. High resolution 40Ar/39Ar plateau ages on 18 samples have been obtained to determine the age range for the western Pannonian Basin Neogene intracontinental volcanic province. The new 40Ar/39Ar age determinations confirm the previously obtained K/Ar ages in the sense that no systematic biases were found between the two data sets. However, our study also serves to illustrate the inherent advantages of the 40Ar/39Ar technique: greater analytical precision, and internal tests for reliability of the obtained results provide more stringent constraints on reconstructions of the magmatic evolution of the volcanic field. Periods of increased activity with multiple eruptions occurred at ca. 7.95 Ma, 4.10 Ma, 3.80 Ma and 3.00 Ma. 相似文献
18.
Mount Sidley is a complex, polygenetic stratovolcano composed primarily of phonolitic and trachytic lavas and subordinate pyroclastic lithologies at the southern extremity of the Executive Committee Range, a linear chain of volcanoes in central Marie Byrd Land, Antarctica. Detailed field investigation coupled with 14 high precision 40Ar/39Ar age determinations reveal a 1.5 million year life span between 5.7 and 4.2 Ma in which three major phonolitic central vent edifices (Byrd, Weiss and Sidley volcanoes) and their calderas were developed (5.7–4.8 Ma). This was followed (4.6–4.5 Ma) by the eruption of trachytic magmas from multiple vent localities further south, and then by small volume benmoreite-mugearite lavas and tephras around 4.4–4.3 Ma at the southern end of Mount Sidley. The final phase of activity was the eruption of basanite cones at approximately 4.2 Ma. The southward migration of volcanic activity was accompanied by distinct changes in magma composition and is best explained by the sequential release of magmas stored within an intricate system of conduits and chambers in the crust by tectonically driven (magma assisted?) fracture propagation. The style of volcanic migration at Mount Sidley is emulated on a larger scale by other volcanoes in the Executive Committee Range, in which progressive southward displacement of volcanic activity corresponds with significant petrological variations between major centers. 相似文献
19.
Talat Ahmad Kabita C. Longjam Baishali Fouzdar Mike J. Bickle Hazel J. Chapman 《Island Arc》2009,18(1):155-174
The Sakoli Mobile Belt comprises bimodal volcanic rocks that include metabasalt, rhyolite, tuffs, and epiclastic rocks with metapelites, quartzite, arkose, conglomerate, and banded iron formation (BIF). Mafic volcanic rocks are tholeiitic to quartz‐tholeiitic with normative quartz and hypersthene. SiO2 shows a large compositional gap between the basic and acidic volcanics, depicting their bimodal nature. Both the volcanics have distinct geochemical trends but display some similarity in terms of enriched light rare earth element–large ion lithophile element characteristics with positive anomalies for U, Pb, and Th and distinct negative anomalies for Nb, P, and Ti. These characteristics are typical of continental rift volcanism. Both the volcanic rocks show strong negative Sr and Eu anomalies indicating fractionation of plagioclases and K‐feldspars, respectively. The high Fe/Mg ratios for the basic rocks indicate their evolved nature. Whole rock Sm–Nd isochrons for the acidic volcanic rocks indicate an age of crystallization for these volcanic rocks at about 1675 ± 180 Ma (initial 143Nd/144Nd = 0.51017 ± 0.00017, mean square weighted deviate [MSWD] = 1.6). The εNdt (t = 2000 Ma) varies between ?0.19 and +2.22 for the basic volcanic rock and between ?2.85 and ?4.29 for the acidic volcanic rocks. Depleted mantle model ages vary from 2000 to 2275 Ma for the basic and from 2426 to 2777 Ma for the acidic volcanic rocks, respectively. These model ages indicate that protoliths for the acidic volcanic rocks probably had a much longer crustal residence time. Predominantly basaltic magma erupted during the deposition of the Dhabetekri Formation and part of it pooled at crustal or shallower subcrustal levels that probably triggered partial melting to generate the acidic magma. The influence of basic magma on the genesis of acidic magma is indicated by the higher Ni and Cr abundance at the observed silica levels of the acidic magma. A subsequent pulse of basic magma, which became crustally contaminated, erupted as minor component along with the dominantly acidic volcanics during the deposition of the Bhiwapur Formation. 相似文献
20.
腾冲是青藏高原东南缘重要的第四纪火山活动区域,全新世以来的火山主要集中在腾冲盆地的中央,由北向南形成一个串珠状的火山链.为了深入探索这一火山区的深部结构和岩浆活动特征,我们在腾冲北部开展了为期一年的流动地震观测,利用接收函数方法计算了台站下方的地壳厚度、平均波速比和泊松比,研究结果揭示出测线下方地壳结构与岩浆活动及火山分布的对应关系.测线北部7个台站的地壳厚度在35.4~37.6 km之间,平均波速比为1.82~1.92、泊松比为0.28~0.31,其中马站附近莫霍面抬升幅度最大,与相邻地区莫霍面深度相差1~2 km,平均波速比和泊松比也达到最大值.相比之下,测线南端两个台站的地壳厚度接近40 km,平均波速比和泊松比仅为1.61~1.64和0.18~0.20,与测线北部7个台站的地壳结构相差甚大.分析表明地幔上涌对火山区莫霍面的局部抬升产生了一定影响,火山湖、黑空山、大-小空山和打鹰山下方应该存在一个相互联通的壳内岩浆囊.该岩浆囊在南北方向上的尺度约为20 km,热流活动以及幔源物质的侵入是地壳平均波速比和泊松比偏高的主要原因,它与热海附近的地温异常区分属两个不同的壳内岩浆存储系统. 相似文献