Petrology, Geochemistry and Mantle Minerals of the Walgidee Hills Lamproite, West Kimberley, Western Australia

IF 3.5 2区 地球科学 Q1 GEOCHEMISTRY & GEOPHYSICS Journal of Petrology Pub Date : 2024-04-16 DOI:10.1093/petrology/egae040
A L Jaques
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Abstract

The 17.44 Ma Walgidee Hills lamproite in the West Kimberley province of Western Australia is the type locality for several K-, Ba- and Ti-rich minerals characteristic of lamproites and, at 490 ha, the largest known lamproite. The Walgidee Hills pipe comprises a thin sequence of tuffs and breccia formed by explosive eruptions that excavated a large shallow crater that was infilled by lamproite magma which cooled and crystallised in situ. The lamproite is zoned in grain size, mineralogy, and mineral and rock composition from porphyritic olivine lamproite at the margin through medium grained lamproite comprised of olivine (altered), titanian phlogopite, diopside, leucite (altered) and titanian potassic richterite to coarse gained lamproite rich in potassic richterite, priderite, jeppeite, perovskite, apatite, wadeite and noonkanbahite at the centre of the body. Compositional zoning is evident across the lamproite in phlogopite (to lower Mg and Al, higher Fe), potassic richterite (to higher Fe and Na, lower Ti), priderite (to lower Cr) and perovskite (to lower Cr and Fe, higher Na, Sr, Y, Nb, U, REE). The Walgidee Hills lamproite is ultrapotassic and ranges from olivine lamproite (up to ~21 wt % MgO, ~800 μg/g Ni, ~4 wt % K2O) to sanidine/leucite-rich lamproite (~7 wt % MgO, ≤100 μg/g Ni, ~7 wt % K2O) at the centre of the pipe. The lamproite has low Al2O3, total Fe, Na2O and CaO (except for intensely carbonate-veined rocks at the centre) and is highly enriched in TiO2 (3−6.5 wt %), Ba, Rb, Sr, Zr and LREE (LaN = 150−520 x primitive mantle). A transect and geochemical contours show MgO, Ni and Cr contents decrease and P, K, Ti, Fe, Rb, Sr, Y, Zr, Nb, REE, Hf, Pb, Th and U abundances increase inwards to the most evolved rocks at the centre of the pipe, consistent with fractionation by inwards in situ crystallisation. The parent magma is estimated from the composition of the porphyritic olivine lamproite at the margins of the pipe to have ~16 ± 1 wt % MgO, ~600 μg/g Ni, ~6 wt % K2O with La/Yb ~ 150. Modelling suggests that the most MgO-rich lamproites result from entrainment of ~15–20 wt % mantle olivine in the parent magma. Cooling of the magma resulted in fractional crystallisation of olivine and in situ crystallisation with the evolved coarse-grained lamproites at the centre of the pipe crystallised from residual magma enriched in the more incompatible elements. Mantle xenocrysts include abundant Cr-Al spinel, chrome diopside, chrome pyrope, and rare diamond. Thermobarometry on the Cr diopside xenocrysts defines a cold paleogeotherm of ~38 mW/m2 and a thick lithosphere (~235 km) extending from the Kimberley craton. Many of the Cr diopsides from the deeper lithospheric mantle are enriched in K, Ba and LREE and these, and the Ti-rich spinel xenocrysts, are inferred to be derived from metasomatised mantle peridotite. The enriched trace element and Sr-Nd-Pb isotopic signatures of the Walgidee Hills lamproite suggest derivation from or extensive incorporation of ancient formerly depleted lithospheric mantle that has undergone metasomatism and long term (≥2 Ga) geochemical enrichment including by melts from Paleoproterozoic subducted crust.
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西澳大利亚西金伯利 Walgidee Hills 兰普罗岩的岩石学、地球化学和地幔矿物
位于西澳大利亚西金伯利省的17.44 Ma Walgidee Hills灯绿岩是灯绿岩特有的几种富含K、Ba和Ti的矿物的典型产地,也是已知最大的灯绿岩,面积达490公顷。Walgidee Hills岩管由薄层凝灰岩和角砾岩组成,这些凝灰岩和角砾岩是由爆炸性喷发形成的,爆炸性喷发挖掘出一个巨大的浅火山口,并由原地冷却和结晶的灯绿岩岩浆填充。橄欖岩的粒度、礦物學以及礦物和岩石成分各不相同,從邊緣的斑狀橄欖岩到由橄欖岩(已變質)、榍石輝橄欖岩組成的中粒橄欖岩、透辉石、白云石(蚀变)和榍石钾长石,到岩体中心富含钾长石、菱镁矿、辉绿岩、磷灰石、黑云母和正长岩的粗粒萤石。整个灯石矿的成分分带明显,包括辉绿岩(镁和铝含量较低,铁含量较高)、钾长石(铁和纳含量较高,钛含量较低)、菱铁矿(铬含量较低)和透辉石(铬和铁含量较低,纳、锶、钇、铌、铀、稀土元素含量较高)。沃尔吉迪山的橄欖岩为超重质岩,从管道中心的橄榄石橄欖岩(氧化镁含量高达~21 wt %,镍含量~800 μg/g,K2O含量~4 wt %)到富含闪长岩/褐铁矿的橄欖岩(氧化镁含量~7 wt %,镍含量≤100 μg/g,K2O含量~7 wt %)不等。灯绿泥石的 Al2O3、总铁、Na2O 和 CaO 含量较低(除中部碳酸盐脉强烈的岩石外),TiO2(3-6.5 wt %)、Ba、Rb、Sr、Zr 和 LREE(LaN = 150-520 x 原始地幔)含量较高。横断面和地球化学等值线图显示,氧化镁、镍和铬的含量降低,而P、K、Ti、Fe、Rb、Sr、Y、Zr、Nb、REE、Hf、Pb、Th和U的丰度向内增加,直至管道中心最演化的岩石,这与原位结晶的向内分馏是一致的。根据岩管边缘斑状橄榄岩灯石的成分推测,母岩浆的氧化镁含量为~16 ± 1 wt %,镍含量为~600 μg/g,K2O含量为~6 wt %,镓/镱含量为~150。建模表明,母岩浆中夹带的约 15-20 wt % 的地幔橄榄石产生了氧化镁含量最高的灯石。岩浆的冷却导致橄榄石的部分结晶和原位结晶,管道中心的演化粗粒灯石是由富含更多不相容元素的残余岩浆结晶而成的。地幔异晶包括丰富的铬铝尖晶石、铬透辉石、铬辉石和稀有的金刚石。铬透辉石异晶石的热压测定确定了约 38 mW/m2 的冷古地温和从金伯利陨石坑延伸出来的厚岩石圈(约 235 千米)。岩石圈深部地幔中的许多铬二长晶富含 K、Ba 和 LREE,据推断,这些铬二长晶和富钛尖晶石来自变质地幔橄榄岩。沃尔吉迪丘陵灯绿岩富集的微量元素和Sr-Nd-Pb同位素特征表明,它来源于或广泛掺入了以前贫化的古老岩石圈地幔,这些地幔经历了变质作用和长期(≥2 Ga)的地球化学富集,包括来自古元古代俯冲地壳熔体的富集。
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来源期刊
Journal of Petrology
Journal of Petrology 地学-地球化学与地球物理
CiteScore
6.90
自引率
12.80%
发文量
117
审稿时长
12 months
期刊介绍: The Journal of Petrology provides an international forum for the publication of high quality research in the broad field of igneous and metamorphic petrology and petrogenesis. Papers published cover a vast range of topics in areas such as major element, trace element and isotope geochemistry and geochronology applied to petrogenesis; experimental petrology; processes of magma generation, differentiation and emplacement; quantitative studies of rock-forming minerals and their paragenesis; regional studies of igneous and meta morphic rocks which contribute to the solution of fundamental petrological problems; theoretical modelling of petrogenetic processes.
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