四川盆地基底断裂对长兴组生物礁的控制作用研究

四川盆地长兴组生物礁油气藏是国内外该类型油气藏的一个典型代表。在前人主要针对川东北地区提出台地边缘是生物礁发育有利部位的基础上,从盆地更广的尺度,结合国内外已有实例,着重从基底断裂角度,分析了其对生物礁发育的影响与控制作用。结果表明,盆地内长兴组发育有大量NE和NW向深大断裂,地层、岩相和构造证据均反映这些断裂在晚二叠世处于正断活动期,并形成了台—槽相间和台内棋盘格状堑垒构造格局。基底正断活动通过对古地理的影响来实现对生物礁的控制,生物礁受张性正断层上升盘"断隆"控制,分布于基底断裂古上升盘断阶处,如环海槽的台地边缘和台地内部断垒周缘。因此,除已获得重大突破的"环海槽礁滩气藏富气带"外,在台地内部靠基底断裂带附近,礁滩也可能发育,可作为今后油气勘探重点考虑的对象。这一研究新认识有助于拓展区域油气勘探思路,并为生物礁型油气成藏理论研究提供新的参考信息。     

三塘湖盆地马朗凹陷石炭系火山岩系油气成藏主控因素及模式

三塘湖盆地马朗凹陷石炭系主要发育两套烃源岩,分别为哈尔加乌组上段和哈尔加乌组下段,油气藏形成的源控作用十分明显。通过烃源岩和原油地球化学的分析以及油源对比,发现不同类型原油的形成与分布严格受控于对应源岩的分布范围。分析表明,马朗凹陷石炭系火山岩系油气成藏的主控因素是优质烃源岩、强充注油源断裂和有利火山岩相带的合理配置。根据烃源岩与储层的配置关系,石炭系油气藏的形成可以概括为两种模式:一种为风化壳型成藏模式,油气聚集在石炭系火山岩顶部受风化淋漓作用改造的优质储层中,其中的油气来自下部烃源岩,运移通道为与烃源岩相沟通的油源断裂;另一种模式为内幕型成藏模式,储层为流体溶蚀改造的储层,其中聚集的油气来自邻近火山喷发间歇期沉积的炭质泥岩。     

海底可控源电磁采集站的低时漂技术研究

海洋可控源电磁方法要求位于海底的多台可控源电磁采集站对微弱的电磁信号进行长期同步连续观测,对各台采集站的时间一致性严格要求。为解决海底无法进行GPS授时这一技术难题,提出了以高稳OCXO(恒温晶体振荡器)与精确授时GPS结合为硬件基础,形成通过下水前对钟、出水后对钟以及时漂补偿等组成的低时漂技术。通过室内及海洋试验,实现了多台海底可控源电磁采集站同步观测,显著降低数据同步误差。     

铜坑矿锌多金属矿体三维可视化模型构建

构建矿体三维可视化模型对指导资源优化开采具重要意义。利用3DMine软件对铜坑矿锌多金属矿体钻孔勘探数据进行整理和分析,构建了矿山地表地形、矿体赋存状态及井巷工程布置等三维可视化模型。     

胶西北上庄金矿断裂—岩体控矿规律

采用GeoMine3D软件对胶西北上庄金矿进行了三维地质建模。三维地质模型全面展现了矿体、望儿山断裂带及下伏郭家岭岩体的空间关系:金矿体受望儿山断裂带控制,在断裂带中具有丛聚性、似等距性、侧伏性的分布特征,其主要赋存在断裂带产状变化大的位置;郭家岭岩体与金矿的成岩成矿关系密切,岩体顶界面控制主要矿体的产出,其转折端或岩突处为金矿富集的有利位置。研究结果显示:上庄金矿深部仍具有较大的找矿潜力。     

Molar‐Tooth Structure from the Mesoproterozoic Wumishan Formation in Lingyuan,Yanshan Region,North China,and Geological Implications

Although its origin has not yet reached a consensus so far, MTS (Molar-Tooth Structure) has been documented for more than 100 years. Current study reports a discovery of MTS from the Mesoproterozoic Wumishan Formation, Lingyuan, Yanshan Region, North China, and the features and geological implications of MTS are further discussed. Here, straitigraphic horizons of MTS’s occurrences show that it was mainly located within the top part of the Wumishan Formation, i.e., limestone unit. Four kinds of morphology of MTS, i.e., fine fusiform, debris, ribbon, ptigmatic and nodular (irregular), were recognized and thought to be highly related to the sedimentary environments and facies. Geochemistry of MTS including oxides, trace elements and C, O and Sr isotopes indicates that the horizons of MTS-bearing is of higher Sr/Ba and Ca/Mg ratios, lower positive δ13C and highly negative δ18O values than the adjacent stratigraphic levels of rare MTS. Lithology, morphology and geochemistry of MTS in the Wumishan Formation suggest that MTS occurs mainly in shallow subtidal near the storm wave base, which is typically characterized by warm temperature, oversaturated calcium carbonate seawater and high organic productivity. Furthermore, occasional enrichment of algae bacteria here is more favorable for the calcification of calcium oozes and catalytic for MTS. C isotope composition of the Wumishan Formation and MTS of this study is well correlated with that of the Mesoproterozoic Belt Supergroup, North America and Riphean, Siberia, suggesting that MTS acts as a sedimentary record responding to global changes and is a perfect indicator in Precambrian stratigraphic correlation worldwide.     

Magma Origin and Evolution of Tengchong Cenozoic Volcanic Rocks from West Yunnan,China: Evidence from Whole Rock Geochemistry and Nd‐Sr‐Pb Isotopes

Tengchong Cenozoic volcanics that have record key information on the tectonic evolution and mantle features of the southeast margin of the Tibetan Plateau are of great importance because of its unique eruption history spanning the entire Quaternary period. Magma origin and evolution of Tengchong Cenozoic volcanic rocks were studied on the basis of Nd-Sr-Pb isotope and major and trace element data from different eruptions in the Ma’anshan area. Different samples within one eruption show relative identical lithologies, chemical and isotopic compositions. However, the geochemical features for the five eruptions are distinct from each other. These volcanic rocks show low Mg# values (<45), moderate to high fractionation of LREEs and HREEs, and enrichment of Pb and Ba and depletion of Nb. Tengchong Cenozoic volcanic rocks were derived from an enriched mantle based on Nd-Sr-Pb isotopic studies. And lines of evidence show that crustal contamination should be involved before the eruption of different periods of Tengchong Cenozoic volcanic rocks. Older subducted components may be responsible for adakite recycling at various stages of evolution, which results in the origin of the enriched mantle source magma accounting for the isotopic features of Tengchong Cenozoic volcanic rocks. Segregated primitive magma pulsating injected into magma chamber, fractional crystallized and contaminated with crust component. Finally, magmas with distinct chemical and isotopic compositions for each eruption formed. The extension of the northeast segment of the Yingjiang tectonic belt triggered the pulsating eruption of the Cenozoic volcanics in the Tengchong area.     

基于球体层状介质模型的大地电磁正演

目前大地电磁测深法的一维正演理论,是基于平面波垂直入射水平层状介质的假设模型。但由于地球是一个球体,因此有必要研究基于球状介质模型的大地电磁正演理论。这里详细推导了基于球体层状介质模型的大地电磁正演公式,计算了若干理论模型。通过同基于水平层状介质模型的大地电磁正演结果对比,验证了正演公式的正确性。同时,指出当探测周期增加到上万秒时,阻抗相位会增大;而当探测周期增加到数十万秒时,视电阻率会减小。     

华北克拉通典型拗拉槽中—新元古界沉积体系与古地理演化

中新元古界的油气资源潜力业已引起国际地质界的密切关注.近年来,新的钻探资料证实,华北克拉通中新元古代发育多个克拉通内拗拉槽,且拗拉槽内发育多套优质烃源岩及生储盖组合,显示具有巨大的油气勘探潜力.本文以华北克拉通东北缘燕辽拗拉槽和南缘熊耳拗拉槽中 新元古代地层为研究对象,以6条典型基干剖面实测、9条重点辅助剖面观察、3口...     

2010-2019年遵义4-8月短时强降水的时空特征分析

该文利用2010—2019年4—8月遵义13个国家站逐时地面降水观测资料,从年变化、月变化、日变化以及空间分布等多个角度进行统计,从不同等级雨强的时空分布进行分析,初步得出了遵义短时强降水事件的时空分布特征:①从短时强降水总频次的空间分布上看,东部发生频次较其余地区高;4月,发生频次地区差异小;5—8月,地区差异大。②从月分布来看,短时强降水高频中心有如下变化:4月集中在东北部、5月在南部和东南部、6月西移北抬到西部和中部、7月西移南压到西部和南部、8月东北移至东北部,高频中心的变化和副热带高压的南北位移有很好的对应。③从年分布来看,短时强降水事件平均每年发生49次,最多的是65次(2019年),最少的是33次(2017年)。4—6月事件频次迅速增加,6月到达峰值,6—8月事件频次开始逐渐减少,74.1%的短时强降水事件发生在夏季,尤其以6月份居多。④从日变化来看,08—13时短时强降水事件发生频次逐渐减少,13时达到一日中最低值,13—07时事件发生频次逐渐增加,有3个峰值,17—19时、20—22时和01—07时,期间有2个短暂的间歇期。4—7月白天平均发生频次较夜间少,8月反之。⑤6—8月是较高等级短时强降水事件的高发季节,尤其以6月份居多,但统计个例中≥70 mm/h的雨强却是在5月份出现。