On the Billefjorden fault zone in Garmdalen, central Spitsbergen: implications for the mapping of major fault zones during geological fieldwork and for the tectonic history of Svalbard

Jean-Baptiste P. Koehl, Eirik M. B. Stokmo, Jhon M. Muñoz‐Barrera
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Abstract

Background The present contribution reexamines the geometry of a segment of a presumably long-lived fault in Svalbard, the Balliolbreen Fault segment of the Billefjorden Fault Zone, along which presumably two basement terranes of Svalbard accreted in the early–mid Paleozoic after thousands of kilometers strike-slip displacement. Methods We performed structural fieldwork to Billefjorden in central Spitsbergen and interpreted satellite images. Results Field observations demonstrate that the Balliolbreen Fault formed as a top-west thrust fault in the early Cenozoic and that weak sedimentary units such as shales of the Lower Devonian Wood Bay Formation and coals of the uppermost Devonian–Mississippian Billefjorden Group partitioned deformation, resulting in significant contrast in deformation intensity between stratigraphic units. For example, tight early Cenozoic folds are localized in shales of the Wood Bay Formation and contemporaneous top-west brittle–ductile thrusts within coals of the Billefjorden Group, whereas Pennsylvanian deposits of the Hultberget (and/or Ebbadalen?) Formation are simply folded into gentle open folds. Rheological contrasts also resulted in the development of décollements locally, e.g., between tightly folded strata of the Wood Bay Formation and Billefjorden Group and flat-lying, brecciated limestone-dominated strata of the Wordiekammen Formation. Despite the limited quality and continuity of outcrops in the area, the eastward-thickening character (i.e., away from the fault) of Pennsylvanian deposits of the Hultberget, Ebbadalen, and Minkinfjellet formations suggests that the fault did not act as a normal fault in Pennsylvanian times. Conclusions The study suggests that strain partitioning of early Cenozoic Eurekan contraction alone may explain the deformation patterns in Paleozoic rock units in central Spitsbergen, i.e., that Late Devonian Svalbardian contraction is not required, and that a major segment of the Billefjorden Fault Zone formed in the early Cenozoic. The present work illustrates the crucial need for interdisciplinary approaches and composite educational backgrounds in science.
斯匹次卑尔根中部加姆达伦的比勒菲尤登断层带:对在地质野外工作中绘制主要断层带和斯瓦尔巴特构造史的影响
背景 本报告重新研究了斯瓦尔巴群岛一条可能存在已久的断层--比勒菲尤登断层带的巴利奥尔布林断层段的几何形状,据推测,斯瓦尔巴群岛的两块基底地层是在古生代早中期经过数千公里的走向滑动位移后沿该断层段增生的。方法 我们对斯匹次卑尔根中部的比勒峡湾进行了构造实地考察,并对卫星图像进行了解读。结果 实地观测结果表明,巴利奥尔布林断层在新生代早期形成了一个顶部向西的推力断层,泥盆纪下统伍德湾地层的页岩和泥盆纪-密西西比纪最上层比勒费尔登组的煤炭等薄弱沉积单元对变形进行了分区,导致地层单元之间的变形强度反差很大。例如,伍德湾地层的页岩中存在新生代早期的紧密褶皱,比勒费尔登组煤炭中存在同时代的顶部-西部脆性-韧性推力,而 Hultberget(和/或 Ebbadalen?)地层的宾夕法尼亚沉积则只是简单地褶皱成平缓的开放褶皱。流变对比也导致了局部地区的褶皱发育,例如,在伍德湾地层和比勒费尔登组的紧密褶皱地层与沃迪卡门地层的平卧、以角砾岩为主的石灰岩地层之间。尽管该地区出露地层的质量和连续性有限,但 Hultberget、Ebbadalen 和 Minkinfjellet 地层的宾夕法尼亚沉积物向东增厚(即远离断层)的特征表明,该断层在宾夕法尼亚时期并非正常断层。结论 该研究表明,仅新生代早期尤里坎收缩的应变分区就可以解释斯匹次卑尔根中部古生代岩石单元的变形模式,即不需要晚泥盆世的斯瓦尔巴德收缩,比勒菲尤登断层带的主要部分形成于新生代早期。本研究成果表明,在科学领域,跨学科方法和复合教育背景至关重要。
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