Unveiling the paleosalinity constraints on southern peri-Pannonian Lower Miocene lacustrine systems in Serbia and Bosnia and Herzegovina: Lopare (Dinaride Lake System) versus Toplica basin (Serbian Lake System)

IF 3.6 2区地球科学 Q1 GEOCHEMISTRY & GEOPHYSICS

Chemical Geology Pub Date : 2024-11-01 DOI:10.1016/j.chemgeo.2024.122475

Nikola Burazer , Aleksandra Šajnović , Darko Spahić , Pavle Tančić , Nenad Grba , Branimir Jovančićević

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Abstract

Early Neogene saline lakes were widely developed across Central Paratethys, particularly across its „Dinaride-Anatolide“ landbridge (area of Dinarides, Balkans). The constraints on Lopare (western part of Jadar block; eastern Bosnia and Herzegovina) and Toplica (Jastrebac Mt., central Serbia) Neogene paleolakes provide a better understanding of deep-time climate evolution. The study focused on early Neogene paleolacustrine configuration, paleogeography, and the factors affecting a considerable paleosalinity increase. The study integrated available records on the predominantly Lower Miocene sedimentary sequence by analyzing and interpreting several paleosalinity markers (inorganic geochemical proxies, mineralogical data). The constraints on paleosalinity markers are afterward coupled with rather complex tectonic inferences. The two wellbores drilled in the Lopare and Toplica basins expose Neogene sections from which the critical paleosalinity markers are extracted (drillhole depths up to 350 and 1000 m, respectively). The mineral searlesite (NaBSi₂O₅(OH)₂), and high B/Ga, markers of alkaline and arid paleoenvironmental lacustrine conditions, suggested intense evaporation (frequent drought periods). The evaporation was associated with paleoclimatic conditions during the Miocene Climatic Optimum. The Early Neogene arid climate and frequent evaporation episodes resulted in significant salinization of the Lower Miocene Lopare lacustrine sequence. The salinity in the Lopare sequence changed its character between brackish and saline, as evidenced by S/TOC and Ca/(Ca + Fe) ratios (TOC—Total Organic Carbon). At the same time, the salinity in the early Toplica basin was significantly lower and characterized by freshwater and brackish environments. The salinity variations between Toplica and Lopare were further exposed by Fe/(Ca + Mg), (Al + Fe)/(Ca + Mg), and C-value, yielding the change in the (paleo)water column. These markers further indicated the influence of warm climate conditions, consistent with the Miocene paleoclimatic record. Regarding paleogeography and Early Neogene tectonics, the results showed that before the Middle Miocene Badenian transgression, the Paratethyan Sea had no interference with the investigated intramontane lacustrine basins.

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揭示塞尔维亚及波斯尼亚和黑塞哥维那围潘诺尼亚地区南部下中新世湖泊系统的古盐度制约因素：洛帕雷（迪纳里德湖泊系统）与托普里卡盆地（塞尔维亚湖泊系统）

新近纪早期的盐湖在中帕拉特提斯地区广泛发育，特别是在其 "Dinaride-Anatolide "陆桥（巴尔干半岛的 Dinarides 地区）上。对 Lopare（Jadar 地块西部；波斯尼亚和黑塞哥维那东部）和 Toplica（Jastrebac 山，塞尔维亚中部）新元古代湖泊的研究，有助于更好地了解深时气候的演变。研究的重点是新近纪早期古岩浆构造、古地理以及影响古盐度大幅上升的因素。该研究通过分析和解释若干古盐度标志物（无机地球化学代用指标、矿物学数据），整合了主要为下中新世沉积序列的现有记录。之后，对古盐度标记的限制与相当复杂的构造推断相结合。在洛帕雷盆地和托普利卡盆地钻探的两口井揭露了新近纪断面，从中提取了关键的古盐度标志物（钻孔深度分别达 350 米和 1000 米）。矿物海泡石（NaBSi2O5(OH)2）和高 B/Ga 是碱性和干旱古环境湖沼条件的标志，表明蒸发强烈（干旱期频繁）。蒸发与中新世气候最适宜期的古气候条件有关。新近纪早期的干旱气候和频繁的蒸发导致下中新世 Lopare 湖底岩层严重盐碱化。从 S/TOC 和 Ca/（Ca + Fe）比值（TOC-总有机碳）可以看出，洛帕雷序列的盐度在咸水和盐水之间变化。与此同时，托普利卡盆地早期的盐度明显较低，具有淡水和咸水环境的特征。铁/（钙+镁）、（铝+铁）/（钙+镁）和碳值进一步揭示了托普里卡和洛帕雷之间的盐度变化，从而得出（古）水柱的变化。这些标记进一步表明了温暖气候条件的影响，与中新世古气候记录一致。在古地理和新近纪早期构造方面，研究结果表明，在中新世巴登大断裂之前，帕拉蒂安海与所调查的海内湖沼盆地没有任何关系。

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来源期刊

Chemical Geology 地学-地球化学与地球物理

CiteScore

7.20

自引率

10.30%

发文量

374

审稿时长

3.6 months

期刊介绍： Chemical Geology is an international journal that publishes original research papers on isotopic and elemental geochemistry, geochronology and cosmochemistry. The Journal focuses on chemical processes in igneous, metamorphic, and sedimentary petrology, low- and high-temperature aqueous solutions, biogeochemistry, the environment and cosmochemistry. Papers that are field, experimentally, or computationally based are appropriate if they are of broad international interest. The Journal generally does not publish papers that are primarily of regional or local interest, or which are primarily focused on remediation and applied geochemistry. The Journal also welcomes innovative papers dealing with significant analytical advances that are of wide interest in the community and extend significantly beyond the scope of what would be included in the methods section of a standard research paper.