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1.
中国年轻火山岩铀钍(U-Th)非平衡研究进展 总被引:4,自引:2,他引:2
本文简述近些年中国年轻火山岩的铀钍非平衡研究进展.中国东部(五大连池,天池,镜泊湖,龙岗,大兴安岭,海南岛)的年轻火山岩都显示显著的230Th过剩,表明岩浆来源于含石榴子石的深部地幔,并且部分熔融速率低.其中五大连池主要来自深部(≥75km)的岩石圈地幔,天池、镜泊湖、龙岗和大兴安岭岩浆主要来自软流圈地幔,而海南岛火山岩则显示下地慢特征.中国东部年轻火山岩中U-Th非平衡并没有显示俯冲的太平洋板块对年轻火山岩的物质贡献.我们近来发现年轻火山岩中含有锆石.长白山天池火山岩千年喷发的碱流岩中的锆石U-Th等时线年龄为7~10ka.腾冲马鞍山的锆石表面U-Th等时线年龄为55ka,而锆石内部年龄是90ka.锆石年龄可能表明,相对于腾冲马鞍山的小喷发,大喷发的长白山天池火山岩浆滞留年龄短.长白山天池火山的很短的滞留时间表明其存在危险性. 相似文献
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3.
大兴安岭诺敏河第四纪火山岩分期:岩石学、年代学与火山地质特征 总被引:10,自引:4,他引:6
大兴安岭北段诺敏河第四纪火山24座,分布于诺敏河及其支流毕拉河和甘河支流奎勒河,火山岩分布面积约600km2。诺敏河火山岩均属于钾质系列火山岩(K2O含量2%~4%,且K2O>Na2O-2%),类似于邻区五大连池-科洛钾质火山岩,具有来自类似的富钾地幔源区。但诺敏河火山岩的K2O含量明显低于五大连池-科洛火山岩的K2O含量(一般4%~6%)。东北地区和内蒙东部处于中亚造山带东段,从古生代到新生代,多重构造-岩浆活动导致火山岩源区地球化学非均一性和火山岩的多样性。根据本文提出的火山岩K-Ar年龄(2.3~0.128Ma)及火山地质特征,可将诺敏河第四纪火山岩分为四期。早期(早更新世)火山活动主要沿诺敏河和奎勒河流域分布,火山产物多被晚期沉积物或火山产物所覆盖。中更新世保留的火山锥体及熔岩流是诺敏河第四纪火山产物的主体,表明是第四纪火山活动的高潮期。晚更新世-全新世火山活动限于毕拉河流域,典型的四方山火山和马鞍山火山是该时期火山活动的代表作,保留了较完好的火山地质地貌特征。从火山产物的时空展布,推测诺敏河第四纪火山活动有从东向西发展的趋势。 相似文献
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我国东北地区晚新生代火山群分布广泛,诺敏火山群是其中的一个。它位于大兴安岭东坡,东距五大连池火山群约160km。前人对该区火山的地貌特征进行过定性描述,划分了火山锥及其喷发的玄武岩流,但整体上研究工作较少,尤其对火山的喷发时代了解不多。以往的研究认为这套玄武岩属于上更新统大黑山组,而K/Ar测年显示一部分玄武岩的年龄为46-42kaB.P.,属于中更新世;马鞍山火山锥喷出的熔岩地貌特征与五大连池老黑山期的非常相似,可能属于全新世,但其K-Ar年龄为18.7kaB.P.。此外,对诺敏火山的时代所进行的区域对比均缺乏充分可信的测年数据的支持。这些事实显示对该火山群喷发时代的认识远未达到统一。本文用热释光方法测得诺敏河2级阶地及玄武岩烘烤层的年龄,初步约束了玄武岩的喷发时代。 相似文献
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长白山火山活动历史、岩浆演化与喷发机制探讨 总被引:18,自引:0,他引:18
广义的长白山火山在我国境内包括著名的天池火山、望天鹅火山、图们江火山和龙岗火山,是我国最大的第四纪火山岩分布区。图们江火山和望天鹅火山活动都始于上新世,喷发活动分别介于上新世—中更新世(5.5~0.19 Ma)和上新世—早更新世(4.77 ~2.12 Ma)。天池火山和龙岗火山属于第四纪火山,喷发活动从早更新世(~2 Ma)持续到全新世。图们江火山岩为溢流式喷发的拉斑玄武岩,望天鹅火山、天池火山和龙岗火山母岩浆都是钾质粗面玄武岩,但经历了不同的演化过程。天池火山和望天鹅火山都经历了钾质粗面玄武岩造盾、粗面岩造锥和晚期碱性酸性岩浆(碱流岩和碱性流纹岩)的喷发;龙岗火山来自地幔的钾质粗面玄武岩浆则未经演化和混染直接喷出地表。图们江火山岩以溢流式喷发的拉斑玄武岩为主,少量玄武质粗安岩等。天池火山造盾之后,地壳岩浆房和地幔岩浆房具互动式喷发特点,来自地幔的钾质粗面玄武岩浆一方面在天池火山锥体内外形成诸多小火山渣锥,另一方面持续补给地壳岩浆房发生岩浆分离结晶作用和混合作用,分别导致双峰式火山岩分布特征和触发千年大喷发。火山岩微量元素和Sr-Nd-Pb同位素示踪揭示,长白山东(图们江火山、望天鹅火山和天池火山)、西(龙岗火山)两区显示地幔非均一性,东区岩浆源区具有软流圈地幔与富集岩石圈地幔混合特征,西区岩浆源区具有相对亏损的较原始地幔特征。西太平洋板块俯冲—东北亚大陆弧后引张是长白山火山活动的动力学机制。 相似文献
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大兴安岭哈拉哈河—淖尔河地区第四纪火山活动初步研究 总被引:16,自引:11,他引:5
大兴安岭中部哈拉哈河-淖尔河地区受基底断裂控制,发育28座第四纪火山,这些火山总体呈北东向带状分布。研究区第四纪火山岩分布面积约1000km^2,岩性主要为碱性玄武岩。根据喷发时代和火山地质特征,这里的火山大体可分为更新世和全新世两期。按照火山作用方式不同,区内火山可分为岩浆成因和射汽岩浆成因两类:前者活动产物主要包括火山碎屑锥、碎屑席、熔岩流,其中发育结壳熔岩、渣状熔岩、块状熔岩,以及喷气锥、熔岩冢等火山地质现象;后者产物主要是射汽岩浆喷发形成的基浪堆积物,其中发育大型平行层理及交错层理。不同的火山作用形成了火山口湖、低平火山口湖、火山堰塞湖和塌陷熔岩湖四种不同规模与形态特征的湖泊,这种水火相容的火山地质现象为阿尔山火山温泉国家地质公园增添了景观。 相似文献
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广西北海涠洲岛是我国最大的第四纪火山岩海岛。近些年来随着我国核电事业的不断发展,涠洲岛火山最后喷发时代和对区域核电厂址的潜在火山灾害,受到了国内外地学界和核电工业界的广泛关注。我们通过对涠洲岛南部地区射汽岩浆喷发的基浪堆积物的野外地质地貌考察,研究了火山喷发物的岩性特征、沉积结构和堆积规模。同时,对系统采集于不同堆积部位的喷发物样品和上覆的黄土样品进行了电子自旋共振(ESR)年代测试分析,结合前人光释光(OSL)测年结果,得出涠洲岛火山最后一次喷发的时间为晚更新世晚期至全新世早期,距今约13~33ka。 相似文献
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大量前人成果和1:5万区调钻孔资料证实,五大连池第四纪火山地层属于水平岩层.因此,该地区第四纪火山地层的划分,是在地表岩石层序与钻孔岩石层序充分划分与对比的基础上进行的.从沉积角度看,五大连池火山地层属于松嫩盆地连续沉积过程中的第四纪短暂幕式火山喷发所形成的水平岩层.本文结合K-Ar同位素测年新资料,将该区第四纪岩石地层重新划分为11个组级地层单位.其中的火山岩石地层可以自下而上划分为:下更新统焦得布玄武岩(1.214—1.113 Ma);中更新统尾山玄武岩(0.62—0.285 Ma);中更新统笔架山玄武岩(0.24—0.132 Ma)和全新统老黑山玄武岩(距今290~288 a),对夹于其间的正常沉积地层也进行了相应的划分.对层状火山岩层序的层位划分和空间分布研究对于理解五大连池火山群的构造背景和生态环境具有特别重要的意义,五大连池火山群处于中国大陆内部的大同—大兴安岭火山岩带的最北东端,是地幔流体向北东方向流动的最前缘;这类富钾的碱性玄武岩的火山喷发活动对东北富饶的黑土地的形成具有重要贡献,火山岩在嫩江平原上塑造的台地和火山锥地形地貌对生态多样性和优质地下水的生态要素具有重要影响. 相似文献
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内蒙古阿尔山地区新生代玄武岩及其幔源包体微量元素组成特征 总被引:2,自引:0,他引:2
内蒙古阿尔山地区新生代火山活动频繁,喷发期次可划分为上新世、更新世、全新世,最新喷发时间约为1 900 a B P,具有再次喷发的可能。为了探讨活火山源区地幔流体的分布特征,利用中子活化分析和同步辐射X射线荧光微探针分析技术,对阿尔山地区全新世玄武岩及其幔源包体的稀土、微量元素组成特征、地幔包体矿物及其熔融包裹体的微量元素组成特征进行了分析。中子活化分析结果表明,不同产地玄武岩具有相同的稀土配分模式,其中,Σ8REE=96.93~114.94,Eu/Sm=0.32~0.37,(L a/Lu)N=8.89~12.52;不相容元素蛛网曲线整体右倾,B a,T a,Sm具正异常,T h,Z r具负异常,没有明显的S r异常,说明岩浆上升过程中很少演化和分离结晶;不同产地地幔岩包体中不含包裹体的同类矿物的REE组成相近,反映了不同活火山的地幔源区REE组成特征相同;不同产地地幔岩包体同类矿物及其内部包裹体同步辐射X射线荧光微探针分析表明具有相同的微量元素曲线分布形态;这些特征说明阿尔山活火山群分布区地幔流体不存在显著的不均一性。 相似文献
10.
内蒙东部晚第四纪火山活动与新构造 总被引:8,自引:4,他引:4
本文所指的晚第四纪包括晚更新世和全新世。内蒙东部晚第四纪火山活动强烈,北起大兴安岭北部的鄂伦春诺敏河火山群、经阿尔山-柴河、锡林浩特-阿巴嘎火山群,南抵察右后旗乌兰哈达火山群,断续延伸约1000km,分布着约390余座大小不一、形态各异的火山,构成了内蒙东部壮观的北北东向第四纪火山喷发带。火山类型包括玛珥式、夏威夷式、斯通博利式、亚布里尼式和冰岛式,以斯通博利式最为发育。爆破式火山作用包括射汽、射汽-岩浆爆发和岩浆爆发。火山岩类型主要为碱性玄武岩及其火山碎屑物(岩),火山岩具初期裂谷构造属性。火山活动主体受北北东向基底断裂控制,但就具体火山群而言,又多处于北东和北西向基底深断裂交会处。区内新构造与火山活动密切相关,深部岩浆的上侵,可能是控制本区新构造活动的主因。尤其是全新世火山的空间展布,显示了内蒙东部新构造的活动性。 相似文献
11.
Tetsuya Yokoyama Takeshi Kuritani Eizo Nakamura 《Geochimica et cosmochimica acta》2006,70(11):2885-2901
In order to unravel magma processes and the geochemical evolution of shallow plumbing systems beneath active volcanoes, we investigated U-series disequilibria of rocks erupted over the past 500 years (1469-2000 AD) from Miyakejima volcano, Izu arc, Japan. Miyakejima volcanic rocks show 238U-230Th-226Ra disequilibria with excess 238U and 226Ra, due to the addition of slab-derived fluids to the mantle wedge. Basaltic bombs of the 2000 AD eruption have the lowest (230Th/232Th) ratio compared to older Miyakejima eruptives, yielding the youngest 238U-230Th model age of 2 kyr. This reinforces our previous model that fluid release from the slab and subsequent magma generation in the mantle wedge beneath Miyakejima occur episodically on a several-kyr timescale. In the last 500 years, Miyakejima eruptives show: (1) a vertical trend in a (230Th/232Th)-(238U/232Th) diagram and (2) a positive linear correlation in a (226Ra/230Th)0 − 1/230Th diagram, which is also observed in lavas from some of the single eruptions (e.g., 1940, 1962, and 1983 AD). The variations cannot be produced by simple fractional crystallization in a magma chamber with radioactive decay of 230Th and 226Ra, but it is possibly produced by synchronous generation of melts in the mantle wedge with different upwelling rate or addition of multiple slab-derived fluids. A much more favorable scenario is that some basaltic magmas were intermittently supplied from deep in the mantle and injected into the crust, subsequently modifying the original magma composition and producing variations in (230Th/232Th) and (226Ra/230Th)0 ratios via assimilation and fractional crystallization (AFC). The assimilant of the AFC process would be a volcanic edifice of previous Miyakejima magmatism. Due to the relatively short timescales involved, the interaction between the assimilant and recent Miyakejima magmatism has not been recorded by the Sr-Nd-Pb isotopic systems. In such cases, Th isotopes and (226Ra/230Th) ratio are excellent geochemical tracers of magmatic evolution. 相似文献
12.
Stefano Branca Mauro Coltelli Emanuela De Beni Jan Wijbrans 《International Journal of Earth Sciences》2008,97(1):135-152
We present an updated geological evolution of Mount Etna volcano based on new 40Ar/39Ar age determinations and stratigraphic data integrating the previous K/Ar ages. Volcanism began at about 500 ka ago through
submarine eruptions on the Gela–Catania Foredeep basin. About 300 ka ago fissure-type eruptions occurred on the ancient alluvial
plain of the Simeto River forming a lava plateau. From about 220 ka ago the eruptive activity was localised mainly along the
Ionian coast where fissure-type eruptions built a shield volcano. Between 129 and 126 ka ago volcanism shifted westward toward
the central portion of the present volcano (Val Calanna–Moscarello area). Furthermore, scattered effusive eruptions on the
southern periphery of Etna edifice occurred until about 121 ka ago. The stabilization of the plumbing system on the Valle
del Bove area is marked by the building of two small polygenic edifices, Tarderia and Rocche volcanoes. Their eruptive activity
was rather coeval ending 106 and 102 ka ago, respectively. During the investigated time-span volcanism in Etna region was
controlled by a main E–W extensional tectonic related to the reactivation of Malta Escarpment fault system in eastern Sicily.
Electronic supplementary material The online version of this article () contains supplementary material, which is available to authorized users.
An erratum to this article can be found at 相似文献
13.
Glaciers in the southern province of the Southern Volcanic Zone (SVZ) of Chile (37–46°S) have experienced significant frontal retreats and area losses in recent decades which have been primarily triggered by tropospheric warming and precipitation decrease. The resulting altitudinal increase of the Equilibrium Line Altitude or ELA of glaciers has lead to varied responses to climate, although the predominant volcanic stratocone morphologies prevent drastic changes in their Accumulation Area Ratios or AAR. Superimposed on climate changes however, glacier variations have been influenced by frequent eruptive activity. Explosive eruptions of ice capped volcanoes have the strongest potential to destroy glaciers, with the most intense activity in historical times being recorded at Nevados de Chillán, Villarrica and Hudson. The total glacier area located on top of the 26 active volcanoes in the study area is ca. 500 km2. Glacier areal reductions ranged from a minimum of −0.07 km2 a −1 at Mentolat, a volcano with one of the smallest ice caps, up to a maximum of −1.16 km2 a −1 at Volcán Hudson. Extreme and contrasting glacier–volcano interactions are summarised with the cases ranging from the abnormal ice frontal advances at Michinmahuida, following the Chaitén eruption in 2008, to the rapid melting of the Hudson intracaldera ice following its plinian eruption of 1991. The net effect of climate changes and volcanic activity are negative mass balances, ice thinning and glacier area shrinkage. This paper summarizes the glacier changes on selected volcanoes within the region, and discusses climatic versus volcanic induced changes. This is crucial in a volcanic country like Chile due to the hazards imposed by lahars and other volcanic processes. 相似文献
14.
《International Geology Review》2012,54(9):1059-1097
Kamchatka Peninsula is one of the most active volcanic regions in the world. Many Holocene explosive eruptions have resulted in widespread dispersal of tephra-fall deposits. The largest layers have been mapped and dated by the 14C method. The tephra provide valuable stratigraphic markers that constrain the age of many geological events (e.g. volcanic eruptions, palaeotsunamis, faulting, and so on). This is the first systematic attempt to use electron microprobe (EMP) analyses of glass to characterize individual tephra deposits in Kamchatka. Eighty-nine glass samples erupted from 11 volcanoes, representing 27 well-identified Holocene key-marker tephra layers, were analysed. The glass is rhyolitic in 21 tephra, dacitic in two, and multimodal in three. Two tephra are mixed with glass compositions ranging from andesite/dacite to rhyolite. Tephra from the 11 eruptive centres are distinguished by their glass K2O, CaO, and FeO contents. In some cases, individual tephra from volcanoes with multiple eruptions cannot be differentiated. Trace element compositions of 64 representative bulk tephra samples erupted from 10 volcanoes were analysed by instrumental neutron activation analysis (INAA) as a pilot study to further refine the geochemical characteristics; tephra from these volcanoes can be characterized using Cr and Th contents and La/Yb ratios. Unidentified tephra collected at the islands of Karaginsky (3), Bering (11), and Attu (5) as well as Uka Bay (1) were correlated to known eruptions. Glass compositions and trace element data from bulk tephra samples show that the Karaginsky Island and Uka Bay tephra were all erupted from the Shiveluch volcano. The 11 Bering Island tephra are correlated to Kamchatka eruptions. Five tephra from Attu Island in the Aleutians are tentatively correlated with eruptions from the Avachinsky and Shiveluch volcanoes. 相似文献
15.
Olgeir Sigmarsson Michel Condomines Serge Fourcade 《Contributions to Mineralogy and Petrology》1992,112(1):20-34
238U–230Th disequilibria and Sr and O isotope ratios have been measured in a suite of samples from most of the known prehistoric and historic eruptions of Hekla volcano, Iceland. They cover the compositional range from basaltic andesite to rhyolite. Recent basalts erupted in the vicinity of the volcano and a few Pleistocene basalts have also been studied. Geochemical data indicate that the best tracers of magmatic processes in Hekla are the (230Th/232Th) and Th/U ratios. Whereas most geochemical parameters, including Sr, Nd and O isotopes, could be compatible with crystal fractionation, (230Th/232Th) and Th/U ratios differ in the basalts and basaltic andesites (1.05 and 3.2, respectively) and in the silicic rocks, dacites and rhyolites (0.98 and 3.4–3.7, respectively). This observation precludes fractional crystallization as the main differentiation process in Hekla. On the basis of these results, the following model is proposed: basaltic magmas rise in the Icelandic crust and cause partial melting of metabasic rocks, leading to the formation of a dacitic melt. The basaltic magma itself evolves by crystal fractionation and produces a basaltic andesite magma. The latter can mix with the dacitic liquid to form andesites. At higher levels in the magma chamber, the dacitic melt sometimes undergoes further differentiation by crystal fractionation and produces subordinate volumes of rhyolites. Together all these processes lead to a zoned magma chamber. However, complete zoning is achieved only when the repose time between eruptions is long enough to allow the production of significant volumes of dacitic magma by crustal melting. This situation corresponds to the large plinian eruptions. Between these eruptions, the so-called intra-cyclic activity is characterized by the eruption of andesites and basaltic andesites, with little crustal melting. The magmatic system beneath Hekla most probably was established during the Holocene. The shape and the size of the magma chamber may be inferred from the relationships between the composition of the lavas and the location of the eruption sites. In a cross-section perpendicular to Hekla's ridge, a bell-shaped reservoir 5 km wide and 7 km deep appears the most likely; its top could be at depth of 8 km according to geophysical data. 相似文献
16.
The influence of volcanism on paleoclimate in the northeast of China: Insights from Jinchuan peat, Jilin Province, China 总被引:3,自引:0,他引:3
Just like contemporary sediments, peat itself is a good repository of information about climate change, the effects of volcanic
activity on climate change have been truly recorded in peat, since it is a major archive of volcanic eruption incidents. A
section of sand was identified as tephra from the Jinchuan peat, Jilin Province, China, for the grains look like slag with
surface bubbles and pits, characterized by high porosity, and loose structure with irregular edges and corners. According
to the peat characteristics of uniform deposition, the tephra was dated at 2002–1976 a B.P. by way of linear interpolation,
so the time of volcanic eruption was 15 B.C.–26 A.D. (the calibrated age). While the geochemical characteristics of tephra
in this study are quite the same as those of tephra from the Jinlongdingzi volcano at Longgang and from alkaline basaltic
magma, with the contents of SiO2<55%, and the similar contents to Al2O3 and Fe, but the contents of Na2O>K2O. We speculated that the tephra in this study came from the Longgang volcano group. Compared with 11 recorded volcanic eruption
events as shown on the carbon and oxygen isotope curves of the Jinchuan peat cellulose, it is obviously seen that adjacent
or large-scale volcanic eruptions are precisely corresponding to the minimum temperature and humidity. It seems that these
volcanic eruptions indeed affected the local climate, leading to the drop of regional temperature and humidity. As a result,
there was prevailing a cold and dry climate there, and all these changes can be well recorded in peat. So the comparison of
volcanic eruption events with information about climate change developed from peat, can provide strong evidence for the impact
of volcanism on climate change. 相似文献
17.
Tetsuya Yokoyama Festus T. Aka Minoru Kusakabe 《Geochimica et cosmochimica acta》2007,71(7):1835-1854
Precise measurements of 238U-230Th-226Ra disequilibria in lavas erupted within the last 100 yr on Mt. Cameroon are presented, together with major and trace elements, and Sr-Nd-Pb isotope ratios, to unravel the source and processes of basaltic magmatism at intraplate tectonic settings. All samples possess 238U-230Th-226Ra disequilibria with 230Th (18-24%) and 226Ra (9-21%) excesses, and there exists a positive correlation in a (226Ra/230Th)-(230Th/238U) diagram. The extent of 238U-230Th-226Ra disequilibria is markedly different in lavas of individual eruption ages, although the (230Th/232Th) ratio is constant irrespective of eruption age. When U-series results are combined with Pb isotope ratios, negative correlations are observed in the (230Th/238U)-(206Pb/204Pb) and (226Ra/230Th)-(206Pb/204Pb) diagrams. Shallow magma chamber processes like magma mixing, fractional crystallization and wall rock assimilation do not account for the correlations. Crustal contamination is not the cause of the observed isotopic variations because continental crust is considered to have extremely different Pb isotope compositions and U/Th ratios. Melting of a chemically heterogeneous mantle might explain the Mt. Cameroon data, but dynamic melting under conditions of high DU and DU/DTh, long magma ascent time, or disequilibrium mineral/melt partitioning, is required. The most plausible scenario to produce the geochemical characteristics of Mt. Cameroon samples is the interaction of melt derived from the asthenospheric mantle with overlying sub-continental lithospheric mantle which has elevated U/Pb (>0.75) and Pb isotope ratios (206Pb/204Pb > 20.47) due to late Mesozoic metasomatism. 相似文献
18.
M. Condomines P. Morand G. Camus L. Duthou 《Contributions to Mineralogy and Petrology》1982,81(4):296-303
Datations of ancient lavas from the Chaîne des Puys through the 230Th-238U radioactive disequilibrium method confirm the eruption of several basaltic or slightly differentiated lavas around 40,000 years ago. The study of (230Th/232Th)0 initial ratios of these lava flows clearly demonstrates the influence of a crustal contamination of magmas superimposed to crystal fractionation. This contamination probably affects many trace elements, in particular, U, Th and Sr. A model based on the (230Th/232Th)0 initial ratio variations of non-contaminated lavas permits to consider that the first eruptions in the Chaîne des Puys could have occurred about 100,000 years ago. 相似文献
19.
Measurements of 238U-230Th-226Ra disequilibria, Sr-Nd-Pb-Hf isotopes and major-trace elements have been conducted for lavas erupted in the last quarter-millennium at Hekla volcano, Iceland. The volcanic rocks range from basalt to dacite. Most of the lavas (excluding dacitic samples) display limited compositional variations in radiogenic Sr-Nd-Pb-Hf isotopes (87Sr/86Sr = 0.70319-0.70322; 143Nd/144Nd = 0.51302-0.51305; 206Pb/204Pb = 19.04-19.06; 207Pb/204Pb = 15.53-15.54; 208Pb/204Pb = 38.61-38.65; 176Hf/177Hf = 0.28311-0.28312). All the samples possess (230Th/238U) disequilibrium with 230Th excesses, and they show systematic variations in (230Th/232Th) and (238U/232Th) ratios. The highest 226Ra excesses occur in the basalt and most differentiated andesite lavas, while some basaltic-andesite lavas have (226Ra/230Th) ratio that are close to equilibrium. The 238U-230Th-226Ra disequilibria variations cannot be produced by simple closed-system fractional crystallization with radioactive decay of 230Th and 226Ra in a magma chamber. A closed-system fractional crystallization model and assimilation and fractional crystallization (AFC) model indicate that the least differentiated basaltic andesites were derived from basalt by fractional crystallization with a differentiation age of ∼24 ± 11 kyr, whereas the andesites were formed by assimilation of crustal material and fractionation of the basaltic-andesites within 2 kyr. Apatite is inferred to play a key role in fractionating the parent-daughter nuclides in 230Th-238U and 226Ra-230Th to make the observed variations. Our proposed model is that several batches of basaltic-andesite magmas that formed by fractional crystallization of a basaltic melt from a deeper reservoir, were periodically injected into the shallow crust to form individual magma pockets, and subsequently modifying the original magma compositions via simultaneous assimilation and fractional crystallization. The assimilant is the dacitic melt, which formed by partial melting of the crust. 相似文献