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合肥下蜀土地球化学特征及其古气候意义 总被引:1,自引:0,他引:1
合肥地处长江中下游北岸,下蜀黄土广泛分布,通过对合肥地区BK2钻孔剖面岩性、氧化物含量及其地球化学风化参数的分析,研究合肥地区风成沉积物地球化学元素特征及其气候变化规律。结果表明:野外钻孔岩芯剖面显示地层较好连续性,结合年龄数据划分了该孔的第四纪沉积框架,Qh底界为1.20 m,Qp3底界为5 m,5~35.10 m属Qp2中晚期地层;合肥下蜀土主要化学成分(SiO2+Al2O3+Fe2O3)的平均含量之和达88.99%,这种显著的富硅铝铁现象表明了该区气候较为湿润;化学风化程度较强,下蜀土的CIA平均值及其脱Ca、Na、K的程度均大于洛川黄土,说明其堆积期古气候比同期堆积的洛川气候温湿,较宣城干凉,与南京、镇江气候较为接近;近0.5 Ma以来总体经历由湿热-干冷的变化,大致可分为35~14.50 m、14.50~4.50 m、4.50~1.20 m和1.20~0 m四个阶段,气候变化由温暖湿润-温暖偏干-冷凉偏干-温暖湿润,显示了区内更新世中晚期以来的气候变迁具有全球一致性特征。 相似文献
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城市大规模工程建设揭露了蕴含在土层中的丰富变形信息,调查发现合肥地区上更新统黏土中发育有数量众多的节理,节理成组产出,呈现不同交切、配套关系。通过对大量的调查数据进行统计分析,并绘制各调查点的节理玫瑰花图,将研究区内节理发育与断层分布逐一对比分析,结果显示合肥地区上更新统黏土中广泛发育的节理产状与场地附近的主要断层产状有关。走向玫瑰花图显示节理优势分布方位与场地附近主要断层走向近似一致;如果场地附近有多条断层交汇,土层中节理有以北西向较为优势的特征。 相似文献
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前人对于郯庐断裂带安徽段出露部分的活动性开展了不同程度的研究,并获得了丰富的成果,而对于隐伏于合肥盆地中的段,其活动性如何,甚至断裂是否存在一直未能取得明确认识。文中利用浅层地震勘探及钻探联合地质剖面探测方法,对隐伏于合肥盆地中的郯庐断裂带西分支断层——乌云山-合肥断裂开展了详细的探测研究工作,在合肥城区由北向南跨断裂布设了4条浅层地震勘探测线和2排联合钻孔剖面,采用14C、OSL和ESR 3种测年手段共获得了34个钻孔地层剖面样品的年龄数据,结果显示乌云山-合肥断裂错动的最新地层为中更新统青灰色黏土层,断层活动表现为逆断性质,最大垂直错距达2. 4m,最新活动时代为中更新世晚期,上断点最浅埋深达17m。文中研究证实了郯庐断裂带穿切合肥盆地,且第四纪以来仍有活动,所得成果充实了对郯庐断裂带安徽段总体活动的认识。 相似文献
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Chishan is located in Sixian County of Anhui Province, and the west branch fault of Tancheng-Lujiang fault zone passes through here. According to previous research, the Chishan segment of Tancheng-Lujiang fault zone has been obviously active since the Quaternary. Trenches excavated perpendicular to the Chishan segment for this study have revealed many prehistoric earthquake ruins-the multi-phase reverse faulting colluvial wedge, which is represented as the western brick-red sandstone of the late Cretaceous or maize gravel stratum of the mid Pleistocene of the hanging wall of the fault overlapping eastward the mid-late Pleistocene brown clay. In the base of the wedges, steep NW-dipping faults were found, and the steep fault planes turned upward to gently dipping collapse planes. As revealed by the trenches, the connection line of the breaking points strikes NNE in general. Heaving landforms are preserved at most parts of the tailing edge of the hanging wall where the fault passes through, and some EW-trending gullies were offset by right-lateral faulting. The two walls of several trenches have consistently shown that the collapse of traces have been pushed by a west-to-east force. Among them, Tc1~Tc4 show that the brick red limestone(K2)overthrust and collapsed on the yellow-brown clay containing ferro-manganese nodules (Q2-3P); Tc5 reveals that the yellowish-white gravel (Q2P) and the sandstone (K2) and overthrust and collapsed on the aforementioned clay. Reverse faulting colluvial wedges are found on both walls of each of the 8 trenches, but the number of wedges revealed in different trenches is different: there is 1 wedge, and 2 wedges in Tc1 and Tc3. 3 wedges in Tc2, Tc4 and Tc5, and in individual trenches, few wedges are revealed. This may be related to the trench’s location, depth and height of the remaining denudation. From the analysis of the trenches and the thermoluminescence dating results, we can preliminarily conclude that multiple large-scale reverse faulting stick events have taken place on the Chishan segment of the Tancheng-Lujiang fault zone during the mid-late Pleistocene, that is to say, many pre-historic strong earthquakes have occurred. 相似文献
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