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31.
Large carbon cycle perturbations associated with the Middle Permian (Capitanian) mass extinction have been widely reported, but their causes and timing are still in dispute. Low resolution carbon isotope records prior to this event also limit the construction of a Middle Permian chemostratigraphic framework and global or local stratigraphic correlation, and hence limit our understanding of carbon cycle and environmental changes. To investigate these issues, we analyzed the 13Corg values from the Middle Permian chert-mudstone sequence (Gufeng Formation) in the Lower Yangtze deep-water basin (South China) and compared them with published records to build a chemostratigraphic scheme and discuss the underlying environmental events. The records show increased δ13Corg values from late Kungurian to early Guadalupian, followed by a decrease to the late Wordian/early Capitanian. The early-mid Capitanian was characterized by elevated δ13Corg values suggesting the presence of the “Kamura Event”: an interval of heavy positive values seen in the δ13Ccarb record. We propose that these heavy Capitanian δ13C values may be a response to a marked decline in chemical weathering rates on Pangea and associated reduction in carbonate burial, which we show using a biogeochemical model. The subsequent negative δ13C excursion seen in some carbonate records, especially in shallower-water sections (and in a muted expression in organic carbon) coincide with the Capitanian mass extinction may be caused by the input of isotopically-light carbon sourced from the terrestrial decomposition of organic matter. 相似文献
32.
There are two types of temporally and spatially associated intrusions within the Emeishan large igneous province (LIP); namely, small uitramafic subvolcanic sills that host magmatic Cu-Ni-Platinum Group Element (PGE)-bearing sulfide deposits and large mafic layered intrusions that host giant Ti-V magnetite deposits in the Panxi region. However, except for their coeval ages, the genetic relations between the ore-bearing intrusions and extrusive rocks are poorly understood. Phase equilibria analysis (Q-PI-OI-Opx-Cpx system) has been carried out to elucidate whether ore-bearing Panzhihua, Xinjie and Limahe intrusions are co-magmatic with the picrites and flood basalts (including high-Ti, low-Ti and alkali basalts), respectively. In this system, the parental magma can be classified as silica-undersaturated olivine basalt and silica-saturated tholeiite. The equivalents of the parental magma of the Xinjie and Limahe peridotites and picrites and iow-Ti basalts are silica-undersaturated, whereas the Limahe gabbro-diorites and high-Ti basalts are silica-saturated. In contrast, the Panzhihua intrusion appears to be alkali character. Phase equilibria relations clearly show that the magmas that formed the Panzhihua intrusion and high-Ti basalts cannot be co-magmatic as there is no way to derive one liquid from another by fractional crystallization. On the other hand, the Panzhihua intrusion appears to be related to Permian alkali intrusions in the region, but does not appear to be related to the alkali basalts recognized in the Longzhoushan lava stratigraphy. Comparably, the Limabe intrusion appears to be a genetic relation to the picrites, whereas the Xinjie intrusion may be genetically related to be low-Ti basaits. Additionally, the gabbro-diorites and peridotites of the Limahe intrusion are not co-magmatic, and the former appears to be derived liquid from high-Ti basalts. 相似文献
33.
滇东南富宁地区基性侵入岩与峨眉山地幔柱存在成因关系吗?——来自1∶5万洞波幅和皈朝幅地质填图的证据 总被引:4,自引:3,他引:1
在滇东南富宁地区,出露一系列以辉绿岩为主、含少量辉长辉绿岩和辉绿玢岩的基性侵入岩。根据地球化学、同位素地球化学以及锆石U-Pb年代学等分析结果,前人将这些基性侵入岩视作峨眉山大火成岩省的组成部分,源自峨眉山地幔柱。国内外研究的共识认为,峨眉山地幔柱活动发生于263~252Ma之间,持续时间极短。在开展1∶2.5万大比例尺地质调查与填图(洞波幅和皈朝幅1∶5万地质调查手图)过程中,我们发现,这些基性侵入岩不仅侵入古生代地层,还侵入了富宁县皈朝一带的晚二叠世-中三叠世岛弧玄武安山岩(255~241Ma)以及早-中三叠世地层。这些地质事实表明,富宁地区基性侵入岩的形成时代至少晚于中三叠世Anisian期或更晚,与峨眉山地幔柱活动时代存在很大的时差,岩石类型与组合上也与峨眉山大火成岩省的有很大差异。根据我们填图过程中获得的基本地质事实分析,滇东南富宁地区的基性侵入岩是华南地块与北越地块间的古特提斯分支洋盆闭合、两个地块碰撞造山(即印支造山)后的岩浆活动产物,与峨眉山地幔柱没有成因关系。 相似文献
34.
丽江东部地区广泛分布的黑泥哨组(P3h)是区域上一个重要的含铜层位,在该地区大公山、铜厂河、宝坪等地均发现有工业铜矿床。该地层中发现的铜矿床具有两种类型:产于火山沉积夹层中的火山沉积-热液型铜矿及产于构造破碎带中的构造热液型铜矿。主要控矿因素为二叠纪晚期古地理环境、火山活动、成矿前构造及喜山期岩浆活动。本文通过分析这些控矿因素之间的关系,总结该区域内黑泥哨组铜矿化规律,为今后的找矿工作提出一些建议。 相似文献
35.
四川盆地的构造、热演化与峨眉山超级地幔柱有密切关系.峨眉山超级地幔柱对四川盆地中二叠统之下的烃源岩热演化有着十分重要的影响.在四川盆地热历史恢复的基础上,研究了峨眉山超级地幔柱对盆地内烃源岩,特别是中二叠统之下的古生界烃源岩热演化的影响.结果表明,中二叠统及下伏烃源岩的热演化受中晚二叠世发生在盆地西南方向的峨眉山超级地幔柱的影响巨大,且具地区差异性.即在靠近峨眉山地幔柱中心的地区,有机质迅速成熟并达到其成熟度的最高值(以H1井为代表),古生界烃源岩迅速进入过成熟,此后未有二次生烃;而远离峨眉山地幔柱的盆地大部分地区,古生界烃源岩在二叠纪以来具有多次生烃过程.中生界烃源岩热演化,主要和前陆盆地阶段的构造过程包括前陆沉积和断裂的逆冲推覆等相关. 在烃源岩有机质成熟度演化史的基础上,从盆地热史和烃源岩热演化的角度指出了下二叠统及之下烃源层在四川盆地不同地区油气勘探中的不同意义. 相似文献
36.
峨眉山大火成岩省太和花岗岩的成因及构造意义 总被引:5,自引:0,他引:5
攀西地区的太和花岗质岩体和赋存超大型钒钛磁铁矿矿床的辉长岩体在空间上共生,成因上均与峨眉山地幔柱头的上升密切相关.太和花岗质岩体主要由超碱质花岗岩和石英正长岩及少量正长岩组成;富含高场强元素并具高Ga/Al值(3.74~5.63),显示典型A型花岗岩的特征.花岗岩、正长岩和辉长岩的Nb/Ta和Zr/Hf值与洋岛玄武岩(OIB)的相应比值近似.花岗质岩石具较低的87Sr/86Sr初始值(0.7025~0.7049)和正的εNd(t)值(1.9~3.5),与辉长岩的值相近[(87Sr/86Sr)i =0.7049~0.7052; εNd(t) =2.4~3.3].太和花岗质岩体的εNd(t)为正值,显示地幔柱来源的底侵玄武质岩浆对其形成起主要作用.辉长质和花岗质岩石具相似的钕同位素组成,表明其母岩浆来自于同一源区.我们认为太和花岗质侵入体主要由底侵于下地壳的玄武质岩浆分异出的花岗质熔体侵位及随后经结晶分异而形成.因此,晚古生代时幔源岩浆底侵造成的地壳增生在峨眉山大火成岩省中表现极为显著. 相似文献
37.
贵州水城二叠纪钠质粗面玄武岩的地球化学特征及其源区 总被引:4,自引:0,他引:4
贵州水城二叠纪玄武岩位于峨眉山大火成岩省东部。该玄武岩全岩SiO2的含量为44.5%~50.04%,TiO2的含量为2.38%~2.74%,MgO的含量为5.74%~7.96%, Mg#值较低为0.40~0.49,Na2O含量高,为4.81%~7.19%,并且Na2O/K2O>4,属于钠质粗面玄武岩即夏威夷岩。具有ΣREE富集的右倾型稀土元素分布模式,稀土和微量元素特征和Pb同位素特征显示洋岛玄武岩OIB的地球化学特征,(87Sr/86Sr)i=0.70482~0.70503,εNd(t)和(206Pb/204Pb)<em>t变化范围较窄:1.3~1.8和17.21~17.62。与贵州威宁黑石头和织金二叠纪玄武岩比较,水城玄武岩富碱,TiO2含量低,Na2O、MgO和Al2O3含量高,造成峨眉山大火成岩省东部贵州境内三个地方玄武岩不同性质的主要原因是由于地幔源区不同,分离结晶程度和地壳混染程度的不同,水城玄武岩来源于交代富集地幔,是峨眉山地幔柱上升至石榴石稳定区发生部分熔融,地幔柱的部分熔融体和富含挥发分的大陆岩石圈地幔混合,在上升到地表过程中受到轻微的地壳混染所形成。 相似文献
38.
《International Geology Review》2012,54(1):112-130
AbstractFluid dynamical and numerical modelling predicts a large-scale regional domal uplift prior to basalt eruptions in large igneous provinces, which can be readily measured when a plume head rises below a shallow marine sedimentary basin. Research on the sedimentology, biostratigraphy, and isotopic chronology of the Emeishan large igneous province demonstrates that the sedimentary environment in the Maokou stage is not uniform carbonate platform facies, but rather sedimentary facies with a north–south linear alignment and west–east different distribution controlled by the syn-depositional normal faulting of the Changhai and Xiaojiang faults, which are the result of underwater dynamic uplift induced by deep mantle activity. The dynamic uplift started in the Maokou stage. Thus, thinning of the Maokou limestone was the product of the difference in the initial depositional thickness caused by the underwater uplift and post-depositional surface uplift and erosion, but post-depositional uplift was much less than kilometre scale. Sedimentary facies differentiation and tectonic–sedimentary evolution in the Maokou stage provide a constraint for the time of the initial eruption and eruption environment before and during the Emeishan basalt eruption. Small-scale magmatic activity might have already begun in the middle of the Maokou stage, whereas submarine and terrestrial sedimentary environments coexisted before and during Emeishan basalt eruption. 相似文献
39.
40.
栖霞组和茅口组等厚图:对峨眉山地幔柱成因模式的指示意义 总被引:6,自引:1,他引:5
对峨眉山大火成岩省(ELIP)及周边地区的栖霞组和茅口组地层进行厚度统计,并利用Surfer软件分别绘制等厚图.栖霞组和茅口组等厚图表明,峨眉山地幔柱导致的隆升可能在栖霞期已开始.茅口组顶部普遍存在平行不整合界面,说明广大区域内的茅口组地层均曾抬升为陆并遭受剥蚀,与CampbeU和Griffiths提出的经典地幔柱模型相吻合.永仁-大姚-楚雄-石屏以及宜良-曲靖一带存在二叠系地层缺失区域,可能是地壳隆升幅度最大地区.利用实验模型推导出ELIP的最大隆升幅度为1500m,与前人利用沉积学推算的结果基本一致.茅口组差异剥蚀指示的地幔柱中心地区与放射状基性岩墙群收敛中心吻合.隆起幅度最大的中心区域存在海相玄武岩喷发现象则可能是隆升之后快速沉降造成的,并不能作为否定曾经发生隆起的证据. 相似文献