Unravelling the tectonic evolution of the Dinarides—Alps—Pannonian Basin transition zone: insights from structural analysis and low-temperature thermochronology from Ivanščica Mt., NW Croatia

IF 1.8 2区 地球科学 Q3 GEOSCIENCES, MULTIDISCIPLINARY Swiss Journal of Geosciences Pub Date : 2024-09-02 DOI:10.1186/s00015-024-00464-5
Matija Vukovski, Marko Špelić, Duje Kukoč, Tamara Troskot-Čorbić, Tonći Grgasović, Damir Slovenec, Bruno Tomljenović
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Abstract

A comprehensive study, including geological mapping, structural and thermochronological analysis, has been carried out on Ivanščica Mountain (NW Croatia), with the aim to reconstruct the tectonic history of the Dinarides, Southern/Eastern Alps and Pannonian Basin transitional zone. Implementation of structural and thermochronological methods enabled a subdivision of Ivanščica Mt. into two structural domains (from bottom to top): Ivanščica Parautochthon and Ivanščica Imbricate Fan and Cenozoic sedimentary cover. In addition, a sequence of deformational events in tectonic history of this transitional zone is proposed, comprising three extensional and four contractional events starting from Middle Triassic until present times. The two oldest deformational events indicate Middle Triassic (D1) and Early Jurassic (D2) extensional pulses and only occur in volcano-sedimentary successions of the Ivanščica Mt. The oldest contractional event (D3) is related to the obduction of a Neotethyan ophiolitic mélange over an Upper Triassic to Lower Cretaceous succession of the eastern margin of the Adriatic microplate, which resulted in thermal overprint of the Ivanščica Imbricate Fan structural domain in Berriasian—Valanginian times (~ 140 Ma). This event was soon followed by a second contractional event (D4), which resulted in thrusting and imbrication of the Adriatic passive margin successions together with previously emplaced ophiolitic mélange, thermal overprint of the footwall successions, fast exhumation and erosion. Apatite fission track data together with syn-tectonic deposits indicate an Hauterivian to Albian age of this D4 event (~ 133–100 Ma). These Mesozoic structures were dextrally rotated in post-Oligocene times and brought from the initially typically Dinaridic SE striking and SW verging structures to the recent SW striking and NW verging structures. The following extensional event (D5) is associated with the formation of SE striking and mostly NE dipping normal listric faults, and ENE striking dextral faults accommodating top-NE extension in the Pannonian Basin. Deformations were coupled with hanging wall sedimentation of Ottnangian to middle Badenian (middle Burdigalian to upper Langhian; ~ 18–14 Ma) syn-rift deposit as observed from the reflection seismic and well data. A short-lasting contraction (D6) was registered in the late Sarmatian (late Serravallian; ~ 12 Ma). The youngest documented deformational event (D7) resulted in reactivation of ENE striking dextral faults, formation of SE striking dextral faults as well as the formation of E to ENE trending folds and reverse faults. This event corresponds to late Pannonian (late Messinian; ~ 6 Ma) to Present NNW-SSE contraction driven by the indentation and counterclockwise rotation of Adriatic microplate. Recognized tectonic events and their timings indicate that Ivanščica was mainly affected by deformational phases related to the Mesozoic evolution of the Neotethys Ocean as well as Cenozoic opening and inversion of the Pannonian Basin. Therefore, the Mesozoic tectono-sedimentary evolution of Ivanščica Mountain proves the paleogeographic affiliation of its non-ophiolitic Mesozoic structural-stratigraphic entities to the Pre-Karst unit of the Dinarides.
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揭示迪纳里德斯-阿尔卑斯-潘诺尼亚盆地过渡带的构造演化:从克罗地亚西北部伊万希察山的构造分析和低温热年代学中获得的启示
对伊万什奇卡山(克罗地亚西北部)进行了包括地质测绘、结构和热时学分析在内的综合研究,目的是重建迪纳里德斯山脉、南阿尔卑斯山/东阿尔卑斯山和潘诺尼亚盆地过渡带的构造历史。采用构造和热时学方法将伊万什奇卡山划分为两个构造域(从下到上):伊万尼什奇卡副褶皱岩(Ivanščica Parautochthon)和伊万尼什奇卡覆岩扇及新生代沉积覆盖层。此外,还提出了该过渡带构造史上的变形事件序列,包括从中三叠世至今的三次伸展事件和四次收缩事件。最古老的两个变形事件是中三叠世(D1)和早侏罗世(D2)的伸展脉冲,仅出现在伊万什奇卡山的火山沉积岩层中。最古老的收缩事件(D3)与亚得里亚海微板块东缘上三叠世至下白垩世演替上的新特提山脉蛇绿混杂岩的俯冲有关,这导致了贝里亚-瓦朗基尼时代(约 140 Ma)伊万希奇卡覆盆扇构造域的热覆盖。在这一事件之后不久,又发生了第二次收缩事件(D4),导致亚得里亚海被动边缘岩层与之前沉积的蛇绿岩交错、岩脚岩层热压、快速掘起和侵蚀。磷灰石裂变轨迹数据以及同步构造沉积物表明,这一 D4 事件的年代为豪特里维纪至阿尔卑斯纪(约 133-100 Ma)。这些中生代构造在后更新世时期发生了右旋,并从最初典型的迪纳拉东南向和西南向构造转变为近期的西南向和西北向构造。接下来的延伸事件(D5)与潘诺尼亚盆地中形成的东南走向、大部分为东北倾角的正断层和东偏东走向的右旋断层有关,这些断层可容纳顶部向东北方向的延伸。从反射地震和油井数据中观察到,变形与奥特南安期至巴登中期(伯蒂加里中期至朗希安上期;约 18-14 Ma)同步裂谷沉积的悬壁沉积作用相耦合。在萨尔马特晚期(Serravallian 晚期;约 12 Ma)出现了短暂的收缩(D6)。有记载的最年轻的变形事件(D7)导致 ENE 向的右旋断层重新活跃,形成 SE 向的右旋断层,并形成 E 至 ENE 走向的褶皱和逆断层。这一事件与潘诺尼亚晚期(梅西尼亚晚期;约 6 Ma)至目前的 NNW-SSE 收缩相吻合,其驱动力是亚得里亚海微板块的缩进和逆时针旋转。公认的构造事件及其时间表明,伊万希奇卡主要受到与新特提斯洋中生代演化以及潘诺尼亚盆地新生代开裂和反转有关的变形阶段的影响。因此,伊万希奇卡山的中生代构造沉积演化证明了其非玢岩中生代构造地层实体与迪纳利山脉前喀斯特单元的古地理关联。
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来源期刊
Swiss Journal of Geosciences
Swiss Journal of Geosciences 地学-地质学
CiteScore
4.50
自引率
12.90%
发文量
21
审稿时长
>12 weeks
期刊介绍: The Swiss Journal of Geosciences publishes original research and review articles, with a particular focus on the evolution of the Tethys realm and the Alpine/Himalayan orogen. By consolidating the former Eclogae Geologicae Helvetiae and Swiss Bulletin of Mineralogy and Petrology, this international journal covers all disciplines of the solid Earth Sciences, including their practical applications. The journal gives preference to articles that are of wide interest to the international research community, while at the same time recognising the importance of documenting high-quality geoscientific data in a regional context, including the occasional publication of maps.
期刊最新文献
Facies variability and depositional cyclicity in central Northern Switzerland: insights from new Opalinus Clay drill cores Determination of a normal orogenic palaeo-geothermal gradient with clay mineral and organic matter indices: a review Unravelling the tectonic evolution of the Dinarides—Alps—Pannonian Basin transition zone: insights from structural analysis and low-temperature thermochronology from Ivanščica Mt., NW Croatia Special Issue: Evolution of collisional orogens in space and time—the Alpine-Himalayan system in 4 dimensions Ediacaran to Jurassic geodynamic evolution of the Alborz Mountains, north Iran: geochronological data from the Gasht Metamorphic Complex
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