Lithostratigraphy, geology and geochemistry of the volcanic rocks of the Maligât Formation and associated intrusions on Disko and Nuussuaq, Paleocene of West Greenland

IF 2 4区 地球科学 Q1 GEOLOGY Geus Bulletin Pub Date : 2018-09-30 DOI:10.34194/geusb.v40.4326
A. Pedersen, Lotte Melchior Larsen, Gunver Krarup Pedersen
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引用次数: 14

Abstract

The Paleocene volcanic rocks in the Nuussuaq Basin on Disko and Nuussuaq comprise the picritic Vaigat Formation (c. 62–61 Ma) and the overlying basaltic Maligât Formation (c. 60 Ma). The Maligât Formation is up to 2000 m thick on western Disko where the top of the formation is least eroded. The formation is divided into four members, the Rinks Dal, Nordfjord, Niaqussat and Sapernuvik members, which are formally defined here. On central and eastern Disko and Nuussuaq the Maligât Formation lavas are interbedded with fluvial and lacustrine sandstones and mudstones of the Atanikerluk Formation.The Rinks Dal Member is the lowest member and originally constituted around 61% by volume of the formation. It is divided into 12 informal units based on chemically recognisable oscillations in the fractionation state of the basalts. The oldest units are present on central and south Disko close to the Disko Gneiss Ridge. The younger lavas spread farther to the east, north and west, filled the Assoq Lake basin east of the ridge and gradually onlapped the shield of the earlier Vaigat Formation that rose to the north. Only the lavas of the upper Rinks Dal Member reached far into Nuussuaq. The lavas are generally not crustally contaminated and comprise evolved basalts with 4.4–9.2 wt% MgO and a few picrites. The most evolved basalts with 3.2–4.8 wt% TiO2 occur in the middle part of the member where they form the Akuarut unit. The Nordfjord Member originally constituted around 6% by volume of the formation. It is not subdivided because the lithological variability is local. The member is widespread but has its depocentre on north-western Disko where thicknesses reach 350 m and eruption sites, intermediate lavas and acid tuffs are present. Over most of the area the member consists of just a few lava flows with combined thicknesses of 30–100 m. The member has a very diverse lithology with rock types ranging from silicic basalt with 5.3–10.0 wt% MgO through magnesian basaltic andesite and andesite with 2.4–10.6 wt% MgO to dacite with 1.2–2.2 wt% MgO. Rhyolite with 0.2–1.2 wt% MgO and up to 77 wt% SiO2 occur in tuffs and conglomerate clasts. All rocks are crustally contaminated and some are native-iron-bearing. The Niaqussat Member originally constituted around 33% by volume of the formation. It is subdivided into three informal units. The member is widespread, but much of it has been removed by erosion. Lithologies in the lower unit range from silicic picrite with up to 15 wt% MgO to basalt with 6–12 wt% MgO and a few basaltic andesite flows. The middle and upper parts of the Niaqussat Member comprise more evolved basalts with respectively 6.1–7.2 wt% MgO and 4.9–6.4 wt% MgO. All rocks are crustally contaminated and a few lava flows are native-iron-bearing. The Sapernuvik Member comprises three uncontaminated basalt flows with 7.5–10.7 wt% MgO. It is only preserved in a small area on western Disko. Dyke systems with up to 80 km long dykes and subvolcanic intrusions associated with the Nordfjord and Niaqussat members occur on western and north-eastern Disko. The rocks are crustally contaminated and range from silicic basalt with 4–13 wt% MgO to magnesian andesite with 3–10 wt% MgO. They commonly form composite intrusions, some of which contain accumulations of native iron and sulfides. The contaminants are carbon- and sulfur-bearing sediments of the Nuussuaq Group. Major contamination mechanisms were mixing with partial melts from the sediment sidewall and xenoliths and selective exchange of some elements, including carbon and sulfur, between magma and sediment. Degrees of contamination vary from 2−5% in the basalts to 10−50% in the more silicic rocks. No rocks more evolved than basalt were produced by ordinary fractional crystallisation.
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西格陵兰古新世Disko和Nuussuaq Maligât组火山岩及相关侵入体的岩石地层学、地质学和地球化学
迪斯科和努苏阿克努苏阿盆地的古新世火山岩包括picriti Vaigat组(约62–61 Ma)和上覆的玄武岩Maligât组(大约60 Ma)。Maligât组位于Disko西部,厚度高达2000米,该组顶部受侵蚀程度最低。该组分为四个成员,Rinks Dal、Nordfjord、Niaqussat和Sapernuvik成员,在这里正式定义。在Disko和Nuussuaq的中部和东部,Maligât组熔岩与Atanikerluk组的河流和湖泊砂岩和泥岩互层。Rinks Dal段是最低的一段,最初约占地层体积的61%。根据玄武岩分馏状态的化学可识别振荡,将其分为12个非正式单元。最古老的单元位于迪斯科中部和南部,靠近迪斯科片麻岩山脊。较年轻的熔岩进一步向东、北和西扩散,填充了山脊以东的Assoq湖盆地,并逐渐覆盖了向北上升的早期Vaigat组的地盾。只有上Rinks Dal成员的熔岩深入努苏阿。熔岩通常不受硬壳污染,由MgO含量为4.4~9.2wt%的演化玄武岩和少量苦橄榄岩组成。具有3.2–4.8 wt%TiO2的最演化玄武岩出现在形成Akuarut单元的成员的中部。Nordfjord段最初约占地层体积的6%。由于岩性变化是局部的,因此没有对其进行细分。该成员分布广泛,但其沉积中心位于迪斯科西北部,厚度达350米,存在喷发点、中间熔岩和酸性凝灰岩。在该区域的大部分地区,该段仅由少量熔岩流组成,总厚度为30–100 m。该段岩性非常多样化,岩石类型从MgO含量为5.3–10.0 wt%的硅化玄武岩到MgO含量2.4–10.6 wt%的镁质玄武岩安山岩和安山岩,再到MgO浓度为1.2–2.2 wt%的英安岩。凝灰岩和砾岩碎屑中含有0.2–1.2 wt%MgO和高达77 wt%SiO2的Rhyolite。所有的岩石都被硬壳污染,有些是原生含铁岩石。Niaqussat成员最初约占地层体积的33%。它被细分为三个非正式单位。该成员分布广泛,但大部分已因侵蚀而消失。下部单元的岩性范围从MgO含量高达15wt%的硅化苦玄岩到MgO含量为6-12wt%的玄武岩以及少量玄武岩安山岩流。Niaqussat段的中部和上部由更进化的玄武岩组成,MgO含量分别为6.1–7.2 wt%和4.9–6.4 wt%。所有的岩石都被硬壳污染,少数熔岩流是原生含铁的。Sapernuvik段包括三个未受污染的玄武岩流,MgO含量为7.5-10.7wt%。它只保存在迪斯科西部的一小块地区。Disko西部和东北部出现了与Nordfjord和Niaqussat成员相关的长达80公里的堤坝系统和次火山侵入体。岩石被硬壳污染,范围从MgO含量为4-13 wt%的硅化玄武岩到MgO含量在3-10 wt%的镁质安山岩。它们通常形成复合侵入体,其中一些包含天然铁和硫化物的堆积。污染物是Nuussuaq群的含碳和含硫沉积物。主要的污染机制是与沉积物侧壁和捕虏体的部分熔体混合,以及岩浆和沉积物之间一些元素的选择性交换,包括碳和硫。玄武岩中的污染程度为2−5%,硅化程度较高的岩石中为10−50%。没有比玄武岩更进化的岩石是通过普通的部分结晶产生的。
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Geus Bulletin
Geus Bulletin GEOLOGY-
CiteScore
2.80
自引率
17.60%
发文量
8
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