鄂尔多斯盆地东南部上古生界层序地层格架及含气砂体沉积演化特征*

鄂尔多斯盆地长期存在“南油北气”的固有认识,晚古生代早期砂体不发育与分布规律不清的认识,长期制约了盆地东南部天然气勘探开发的步伐。因此,加强盆地东南部上古生界煤系含气地层地质方面的研究、尤其是层序地层与储集砂体成因研究,对进一步增储上产具有重要理论与实践意义。作者采用Vail经典层序地层理论与方法,对鄂尔多斯盆地东南部上古生界进行层序地层研究: 首先对层序界面进行识别,以岩性、旋回和沉积特征变化作为识别依据,并提出二级层序界面上下岩性组合变化巨大、二级界面之上叠置的低位砂厚度巨大的观点,共将本溪组—石盒子组划分为3个二级层序,11个三级层序;其次根据层序内部砂体堆积、迁移样式对体系域进行了划分。通过大量钻井的层序单元追踪对比与岩心精细描述,重点分析层序格架内主要含气层段本溪组、山西组及盒8段储集砂体的空间叠置关系,结合不同时期基准面旋回变化及其形成机制对其进行探讨,认为优势含气层段储集层中本2段具有障壁迁移、毯式连通,山2段具有低位控砂、面线连通,山1段具有侧向迁移、接触式连通,盒8段具有迁摆叠置、多向连通的特点。     

Isotope evidence for quantifying river evaporation and recharge processes in the lower reaches of the Yellow River

Evaporation and recharge are important hydrological processes in the water cycle. However, accurately quantifying these two processes of river remains to be difficult due to their spatial heterogeneity and the limitations of traditional methods. In this study, a more reliable method of stable isotopes of δ ¹⁸O and δ ²H based on the Rayleigh distillation equation and mass conservation was used to estimate the evaporation and recharge of the rivers in the lower reaches of the Yellow River, North China Plain. Comprehensive sampling campaigns including 30 surface water samples from 10 rivers, 33 groundwater samples from domestic and observation wells, and two Yellow River water samples were conducted. The results showed that the evaporation proportion of the rivers based on δ ¹⁸O and δ ²H both averaged 14.4%. The evaporation proportions in each river did not completely follow a linear increasing trend along the flow path. This phenomenon could be mainly explained by the different proportions of recharge from groundwater and Yellow River water. With closer to the Yellow river, evaporation of the rivers decreased while the recharge by the Yellow River increased. Regression equations based on δ ¹⁸O, δ ²H, and their average revealed that the evaporation proportion respectively increased by 1.02, 0.79, and 0.90% with the increase in the distance to the Yellow River per 10 km. On the contrary, the recharge proportion decreased by 7.68, 5.51, and 6.59%, respectively. In addition, using δ ¹⁸O rather than δ ²H was more reliable in studying the spatial influence of the Yellow River on evaporation and recharge. Sensitivity analysis showed that the evaporation model was most sensitive to isotopic composition, rather than to air temperature or relative humidity. The results of this study provide insights into the determination of river hydrological processes and the management of water resources.     

甘肃龙首山芨岭辉绿岩地球化学特征及其地质意义

辉绿岩脉在南方花岗岩型铀矿成矿作用中起到较为重要的作用,芨岭钠交代型铀矿床周边也有产出.通过岩石学、岩相学、地球化学和同位素年代学研究,确定芨岭铀矿床外围的辉绿岩是由碱性玄武岩浆上侵形成的,具有富铝（15.97%~19.21%）、高碱（4.36%~6.89%）、中钛（1.18%~2.02%）的特征,弱铕负异常（δEu=0.65~0.86）,轻稀土元素分异较强而重稀土元素较弱.相对富集LILE （Rb、Ba）和不相容元素（Th、U）,亏损HFSE （Nb、Ta、Hf、Ti）.辉绿岩的LA-ICP-MS锆石U-Pb年龄为485 Ma,形成于奥陶纪早期.MgO含量（3.79%~8.22%）和Mg#值（42.4~66.5）均有较大的变化.岩浆经历了橄榄石、辉石和少量斜长石分离结晶后上侵定位.辉绿岩脉的产出标志着祁连山-龙首山早古生代造山带后碰撞伸展背景的开始,上涌地幔对酸性岩浆的形成、演化直至碱性岩和钠交代型铀矿化出现带来了大量的热能.     

Submersion simulation in a typical debris flow watershed of Jianzhuangchuan catchment,Loess Plateau

Debris flow is one of the most serious and frequent geological disasters that occur in the Loess Plateau. The outbreak of a debris flow is sudden, ferocious, swift, and destructive. The characteristics and mechanism of debris flow were explored in this study via survey, numerical simulation, and simulation analysis in a Loess Plateau area (Huangling County, Shaanxi Province, China). Numerical models and formulas corresponding to the occurrence and movement mechanism were established based on the HEC-RAS, HEC-GeoRAS, and SWAT results. The range of debris flow deposition was determined through capturing the debris flow free surface. A hydrological model and critical rainfall threshold were determined in order to provide technical support for debris flow forecasting in the Loess Plateau. The results suggest that 10-year floods do not submerge any portion of the basin. One village area was affected by the 100-year flood (total area of 0.648 km²) while four villages areas were submerged by the 1000-year flood (total area of 1.39 km²). The method presented here may provide a reliable scientific basis for mitigating loss due to debris flow hazards.     

Hydrological situation of a typical watershed in the Loess Tableland Area of China over the past 30 years

Due to deficient water resources in the Loess Plateau, watershed management plays a very important role, not only for ecological and environmental protection but also for the social development of the region. To better understand the hydrological and water resource variations in the typical watershed of the Loess Plateau and the Qinghe River Basin, the influences of land cover and climate change were analysed, and a SWAT model was built to simulate the response of the hydrological situation to land cover changes that have occurred over the past 30 years. The results demonstrated that the main land cover change occurring in the Qinghe River Basin was the conversion of land cover from grassland to woodland and farmland from the late 1980s to 2010. Woodland and farmland took 87.36 and 10.55%, respectively, from the overall area transferred over 20 years and more than 18% of the total watershed area. Hydrological simulation results indicated that land cover played a predominant role in the hydrological variation of the Qinghe River Basin, although the effects of climate change should not be discounted. The significant changes in land cover could be superimposed by policy orientation and economic requirements. Although it is hard to evaluate the land cover changes and the corresponding hydrological responses in a simple language, related analyses have demonstrated an increasing trend of runoff in the dry season, while there is a somewhat decreasing trend during the flood season in the river basin. There results could be significant and provide a positive influence on both future flood control and the conservation of water and soil.     

吉林省辉南县地质灾害调查与区划空间数据库的建设

辉南县地质灾害调查与区划空间数据库建设是以Mapgis6.0软件作为工作平台,利用"县(市)地质灾害调查与区划信息系统"软件将辉南县地质灾害调查成果数据进行采集、存储、管理、分析,为辉南县地质灾害防治规划工作提供依据。     

江西萍乡杨家湾2号洞哺乳动物化石及其时代探讨

2015年11月和2016年10月先后对杨家湾2号洞化石点进行发掘。目前已出土哺乳动物化石1000多件,主要为单个牙齿化石,骨骼较少且较为破碎。初步鉴定出31个哺乳动物属种,其中偶蹄类数量最为丰富,野猪所占比例最大;灵长类和食肉类较为丰富;啮齿类、长鼻类及奇蹄类较少;尚未发现食虫类和翼手类。大部分属种为现生类群,少量灭绝属种如巴氏大熊猫、东方剑齿象及华南巨貘等。从动物群组成来看,该动物群与杨家湾1号洞、湖南道县福岩洞等动物群较为相似,属于我国南方典型的晚更新世大熊猫-剑齿象动物群,但是其所包含的动物属种相对后两个化石点都较少,尤其是小哺乳动物属种单调。杨家湾2号洞的堆积物颗粒比1号洞的较粗,且含较多角砾,缺少红色粘土;据初步判断,该洞的堆积物是由洞口进入。动物群组合指示该地区晚更新世气候较为温暖湿润。

     

广西田阳县那赖旧石器遗址发现的石制品和玻璃陨石

对广西田阳县那赖旧石器遗址进行实地调查,在百色盆地右江第Ⅳ级阶地的网纹红土中发现了一件玻璃陨石和大量的旧石器（包括12件手斧）。玻璃陨石的特征表明其为原地埋藏,未经后期流水作用搬运。玻璃陨石和石器之间的关系进一步证实,百色盆地第Ⅳ级阶地中保存的玻璃陨石可以代表手斧的埋藏年代。那赖遗址的石制品组合与百色盆地其他遗址的类似。通过与世界上其他阿舍利手斧在形态上和技艺上对比表明,该遗址手斧代表了早中更新世之交东亚的阿舍利技术特点。

     

柴达木盆地晚中新世河湖相沉积物粒度组成及其古环境意义

本文应用沉积物粒度端元分析模型对柴达木盆地怀头他拉剖面开放湖相沉积物进行分离,得到4个具有现实环境意义的端元组分,分别代表 4种动力过程。端元1为河流沉积,端元2、3都为湖相沉积,端元4为三角洲沉积。这些成分含量在晚中新世的变化趋势不明显但变化幅度相对较大,表明柴达木盆地这套地层记录了沉积环境或气候的快速变化。尽管怀头他拉粒度变化趋势总体不明显,然而平均粒径在约8.3~7.0Ma期间有所降低,指示当时亚洲季风可能发生了增强,导致柴达木古湖面积扩大,到达研究站点沉积物的粒度变细。东亚和南亚地区古气候数据合成支持这一推论,由此我们推断亚洲大陆在约8.3~7.0Ma期间气候相对较湿润,是青藏高原隆升的一个直接反应;而7Ma以后气候变干可能反映了大气CO₂含量下降的驱动。轨道尺度研究表明柴达木盆地气候在约8.3~7.0Ma期间发生了较大幅度的变化,支持青藏高原隆升是气候变化放大器的观点。

     

典型喀斯特流域降水与径流特征分析及径流年际变化的影响因素贡献分解

地下水文过程是地球关键带科学研究的重要问题,在具有地表地下二元水文结构的喀斯特地区,其水文过程与其他类型区差异显著,研究黔中典型喀斯特小流域后寨河流域降水与径流特征及径流年际变化的影响因素,有助于在区域视角上了解气候变化与人类活动影响下的喀斯特流域水文特征。本文基于贵州省普定县后寨河流域出口观测站1987~2006年实测降水、地表径流、地下径流序列水文数据,分析比较了后寨河流域降水、径流的年内与年际变化特征,并采用集中度与不均匀系数两个指标分析比较了流域降水与径流的年内分配特征。采用累积距平法、年际累积量法分析了流域降水量与径流量的年际变化趋势,确定出1990年与2002年两个拐点年份,其中1990年为突变年。运用累积量斜率变化率比较法定量计算出气候变化与人类活动对径流年际变化的贡献率：以人类活动影响较小的初始阶段T₁（1987~1990年）为基准期,在不考虑潜在蒸散量的影响时,计算得到人类活动影响加剧的措施期T₂（1991~2002年）时段降水量减少对于地表、地下径流量减少的贡献率分别为39.32%、46.52%,人类活动对于地表、地下径流量减少的贡献率分别为60.68%、53.48%;如果考虑潜在蒸散量的影响,潜在蒸散量减少对于地表、地下径流量减少的贡献率分别为-14.89%、-17.61%,而人类活动对于地表、地下径流量减少的贡献率分别增至为75.57%、71.09%。可见,人类活动是后寨河流域径流量年际变化的主要驱动因素。