德国哈茨山脉南缘二叠纪石膏岩溶带、区域地质构造控制与岩溶水文地质

IF 1 4区 地球科学 Q4 GEOSCIENCES, MULTIDISCIPLINARY
H. Hubrich, S. Kempe
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引用次数: 0

摘要

德国的哈茨山脉是一个向南倾斜的地块,由沿其北部边界逆冲在中生代沉积物上的泥盆系和石炭系岩石组成。沿着南哈茨,上覆的、未展开的石炭系、二叠纪和Buntsandstein(下三叠纪)系列在一个宽阔的地带中暴露出来。它们包括一系列厚的上二叠纪(“Zechstein”)蒸发岩,倾角约为10°S至SW,代表了一个几乎连续的硫酸盐和碳酸盐岩岩溶区,长约90公里,面积338平方公里。在论文中,第一作者编制了一张新的泽克斯坦地质图,比例尺为1:10000,并推导了一个构造模型,以促进我们对岩溶特征的理解。岩溶作用决定了南哈茨的形态,包括180多个已登记的洞穴、数千个天坑、悬雍垂、下沉的小溪和大型岩溶泉。具体来说,一排排的天坑似乎跟在断层后面。通过对最下面的三个Zechstein旋回的详细测绘,揭示了一个密集的断层矩阵。85°至125°走向的断层每隔500米就会重复出现,形成于上白垩纪的Harz抬升挤压阶段。这些断层中有许多是反向的,具有N向推力。这导致了地层的重复暴露,导致Zechstein露头的加宽超过了该系列的倾斜所造成的范围。在其他地区,存在地垒-地堑结构,形成长达一公里的下Buntsandstein山脊。在地下,沿倾向向南流动的地下水被分流到历时走向的方向,从而形成走向平行的凹陷、山谷和天坑排。在最后的伸展阶段,走向150°至180°的断层形成了地堑结构,使地下水和地表河流向南流动,突破了上覆的下Buntsandstein的悬崖。因此,南哈茨的构造结构决定了其水文和地表明显的岩溶特征。讨论了三个最大岩溶泉的构造情况,即福斯特的Salza泉、Rhume泉和诺德豪森的Salza泉水,以及Hainholz/Beierstein、Trogstein和Hainride地区更浅的岩溶环境。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The Permian gypsum karst belt along the southern margin of the Harz-mountains (Germany), tectonic control of regional geology and karst hydrogeology
The Harz Mountains in Germany are a south-tilting block of variscan-folded Devonian and Carboniferous rocks thrust over Mesozoic sediment along its northern border. Along the South Harz the overlying, unfolded upper-most Carboniferous, Permian and Buntsandstein (lower Triassic) series are exposed in a wide belt. They include a thick series of Upper Permian (“Zechstein”) evaporitic rocks, dipping with about 10° S to SW, representing a nearly continuous sulfate and carbonate karst area about 90 km long, covering 338 km². In his dissertation, the first author compiled a new geological map for the Zechstein at a scale of 1:10,000 and deduced a tectonic model to advance our understanding of the karstic features. Karstification determines the morphology of the South Harz including over 180 registered caves, thousands of sinkholes, uvalas, sinking creeks and large karstic springs. Specifically, lines of sinkholes appear to follow faults. By detailed mapping of the three lowermost Zechstein cycles, a dense matrix of faults is revealed. 85° to 125° striking faults reoccur every few 500 m, formed during the Harz-lifting compressional phase during the Upper Cretaceous. Many of these faults are reverse with a Nward thrust. This leads to repetitive exposure of the strata, causing the broadening of the Zechstein outcrop beyond what would be caused by the dip of the series alone. In other areas, horstand graben-structures are present, resulting in kilometer-long Lower Buntsandstein ridges. Below ground, the groundwater flowing southward along the dip is diverted into the direction of diachronicalthe strike, thus causing strike-parallel depressions, valleys and sinkhole rows. In the final extension phase, faults striking 150° to 180° have caused graben-structures, allowing groundwater and surface rivers to flow southward, breaking through the escarpment of the overlying Lower Buntsandstein. Therefore, the tectonic structure of the South Harz determines its hydrology and the karst features apparent at the surface. The tectonic situation of the three largest karstic springs, the Salza Spring at Forste, the Rhume Spring, and the Salza Spring at Nordhausen is discussed along with more shallow karstic settings of the Hainholz/Beierstein, the Trogstein and the area of Hainrode.
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来源期刊
Acta Carsologica
Acta Carsologica 地学-地球科学综合
CiteScore
1.50
自引率
14.30%
发文量
0
审稿时长
>12 weeks
期刊介绍: Karst areas occupy 10-20 % of ice-free land. Dissolution of rock by natural waters has given rise to specific landscape and underground. Karst surface features and caves have attracted man''s curiosity since the dawn of humanity and have been a focus to scientific studies since more than half of millennia. Acta Carsologica publishes original research papers and reviews, letters, essays and reports covering topics related to specific of karst areas. These comprise, but are not limited to karst geology, hydrology, and geomorphology, speleology, hydrogeology, biospeleology and history of karst science.
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