Igneous Rock Associations 26. Lamproites, Exotic Potassic Alkaline Rocks: A Review of their Nomenclature, Characterization and Origins

IF 1.8 4区 地球科学 Q3 GEOSCIENCES, MULTIDISCIPLINARY
R. Mitchell
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引用次数: 25

Abstract

Lamproite is a rare ultrapotassic alkaline rock of petrological importance as it is considered to be derived from metasomatized lithospheric mantle, and of economic significance, being the host of major diamond deposits. A review of the nomenclature of lamproite results in the recommendation that members of the lamproite petrological clan be named using mineralogical-genetic classifications to distinguish them from other genetically unrelated potassic alkaline rocks, kimberlite, and diverse lamprophyres. The names “Group 2 kimberlite” and “orangeite” must be abandoned as these rock types are varieties of bona fide lamproite restricted to the Kaapvaal Craton. Lamproites exhibit extreme diversity in their mineralogy which ranges from olivine phlogopite lamproite, through phlogopite leucite lamproite and potassic titanian richterite-diopside lamproite, to leucite sanidine lamproite. Diamondiferous olivine lamproites are hybrid rocks extensively contaminated by mantle-derived xenocrystic olivine. Currently, lamproites are divided into cratonic (e.g. Leucite Hills, USA; Baifen, China) and orogenic (Mediterranean) varieties (e.g. Murcia-Almeria, Spain; Afyon, Turkey; Xungba, Tibet). Each cratonic and orogenic lamproite province differs significantly in tectonic setting and Sr–Nd–Pb–Hf isotopic compositions. Isotopic compositions indicate derivation from enriched mantle sources, having long-term low Sm/Nd and high Rb/Sr ratios, relative to bulk earth and depleted asthenospheric mantle. All lamproites are considered, on the basis of their geochemistry, to be derived from ancient mineralogically complex K–Ti–Ba–REE-rich veins, or metasomes, in the lithospheric mantle with, or without, subsequent contributions from recent asthenospheric or subducted components at the time of genesis. Lamproite primary magmas are considered to be relatively silica-rich (~50–60 wt.% SiO2), MgO-poor (3–12 wt.%), and ultrapotassic (~8–12 wt.% K2O) as exemplified by hyalo-phlogopite lamproites from the Leucite Hills (Wyoming) or Smoky Butte (Montana). Brief descriptions are given of the most important phreatomagmatic diamondiferous lamproite vents. The tectonic processes which lead to partial melting of metasomes, and/or initiation of magmatism, are described for examples of cratonic and orogenic lamproites. As each lamproite province differs with respect to its mineralogy, geochemical evolution, and tectonic setting there is no simple or common petrogenetic model for their genesis. Each province must be considered as the unique expression of the times and vagaries of ancient mantle metasomatism, coupled with diverse and complex partial melting processes, together with mixing of younger asthenospheric and lithospheric material, and, in the case of many orogenic lamproites, with Paleogene to Recent subducted material.
火成岩协会外来钾碱性岩煌斑岩的命名、特征及成因综述
煌斑岩是一种稀有的超古生代碱性岩石,在岩石学上具有重要意义,被认为起源于交代岩石圈地幔,并具有重要的经济意义,是主要金刚石矿床的宿主。在对煌斑岩命名法的回顾中,建议使用矿物学-成因分类来命名煌斑岩岩石学家族的成员,以区分它们与其他遗传上不相关的钾碱性岩石、金伯利岩和各种煌斑岩。必须放弃“第二组金伯利岩”和“橙色岩”的名称,因为这些岩石类型是真正的煌斑岩品种,仅限于卡普瓦尔克拉通。煌斑岩的矿物学表现出极大的多样性,从橄榄绿云母煌斑岩,到绿云母白闪辉斑岩和钾钛辉辉透辉辉斑岩,再到白闪辉辉斑岩。菱形橄榄石煌斑岩是一种杂化岩,广泛受到幔源异晶橄榄石的污染。目前,煌斑岩分为克拉通型(如美国的Leucite Hills;白芬,中国)和造山带(地中海)品种(如西班牙的穆尔西亚-阿尔梅里亚;金丝黄、土耳其;Xungba、西藏)。各克拉通造山带煌斑岩省在构造背景和Sr-Nd-Pb-Hf同位素组成上存在显著差异。同位素组成表明,相对于大块地球和衰竭软流圈地幔,地幔源长期具有低Sm/Nd和高Rb/Sr的特征。根据其地球化学特征,所有煌斑岩都被认为来源于岩石圈地幔中具有或不具有近期软流圈或俯冲成分的古老矿物学复杂的富含k - ti - ba - ree的矿脉或交代体。煌斑岩原生岩浆被认为是相对富硅(~ 50-60 wt.% SiO2)、贫镁(~ 3-12 wt.%)和超经典(~ 8-12 wt.% K2O)的煌斑岩,例如来自怀俄明州的Leucite Hills和蒙大拿州的Smoky Butte的透明质-绿云母煌斑岩。简要介绍了最重要的含金刚石煌斑岩喷口。构造过程导致交代岩的部分熔融和/或岩浆活动的开始,以克拉通和造山煌斑岩为例。由于每个煌斑岩省的矿物学、地球化学演化和构造背景不同,它们的成因没有一个简单或共同的成岩模式。每一个省都必须被认为是古地幔交代作用的时代和变幻莫测的独特表现,加上多样化和复杂的部分熔融过程,以及年轻的软流圈和岩石圈物质的混合,在许多造山煌斑岩的情况下,与古近纪到近代的俯冲物质。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Geoscience Canada
Geoscience Canada 地学-地球科学综合
CiteScore
3.30
自引率
0.00%
发文量
9
审稿时长
>12 weeks
期刊介绍: Established in 1974, Geoscience Canada is the main technical publication of the Geological Association of Canada (GAC). We are a quarterly journal that emphasizes diversity of material, and also the presentation of informative technical articles that can be understood not only by specialist research workers, but by non-specialists in other branches of the Earth Sciences. We aim to be a journal that you want to read, and which will leave you better informed, rather than more confused.
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