Hydrogeochemical Characterization of Aquifer Systems and Surface Water/Groundwater Relations in the Lower Senegal River Valley

This study assesses the chemical quality of water resources in the Lower Senegal River valley, based on 35 samples collected in November 2022. Major ion concentrations in surface water and groundwater were analyzed using classical geochemical interpretation diagrams (Piper, GIBBS, etc.) and multivariate geostatistical analyses, including hierarchical cluster analysis (HCA) and principal component analysis (PCA). The results revealed three types of facies: Ca-Mg-HCO3-type facies, characteristic of poorly mineralized waters such as surface waters and groundwater from dune formations and the alluvial plain close to the hydraulic axis;Na-Cl type facies associated with well waters located in the alluvial plain that tap Inchirian or Nouakchottian shallow reservoirs and Maastrichtian deep borehole waters;and mixed Ca-Cl and Na-HCO3 type facies observed in certain floodplain and dune reservoirs. The results showed a strong correlation between sodium, chlorides, bromides, and electrical conductivity, indicating a significant contribution of these ions to groundwater mineralization. The various sources of water mineralization include mixing processes between surface water or rainwater, or calcite or dolomite dissolution processes (for weakly mineralized waters), basic exchanges or inverse basic exchanges between the aquifer and the water table (for moderately mineralized waters), and evaporation processes, halite dissolution, and paleosalinity during periods of marine transgression and regression (for highly mineralized waters). The study also highlighted the high vulnerability of the alluvial aquifer to pollution from intensive irrigated agriculture, as significant quantities of sulfates and nitrates were measured in some samples. These results also highlight the importance of water quality management in the Lower Senegal Valley, particularly as concerns the protection of the alluvial aquifer against pollution from irrigated agriculture.

冲积河流平滩流量的确定方法研究

为了使小浪底水库尽可能泄放大流量冲刷黄河下游河道主槽,进一步改善悬河的形势,同时又不至于引起漫滩,造成滩区损失,很有必要尽可能准确地确定黄河下游河道的平滩流量。分析曼宁公式等方法无法用于计算冲积河流平滩流量的原因,采用充分利用河道沿程水文站、水位站、险工水尺及河道统测大断面测时水位资料推求大断面洪水位和流量涨率的方法,推算每年汛前河道大断面的平滩流量,具有实用、可靠和简单的优点。2020年汛期的实地测量结果显示,平滩流量预估误差为1%~6%,预估的结果和实际情况十分接近。尽可能结合水文站的流量过程,采用水位资料推算大断面的平滩流量,并且尽可能采用较大流量的资料,可以减少误差。

不同沉积体系储集层构型研究与展望

储集层构型自提出以来,研究范围从河流沉积体系逐步延伸到各种沉积体系。目前为止,针对曲流河沉积体系,形成了废弃河道定位、构型界面定期、相互关系定型的定量研究思路;针对辫状河沉积体系,逐步完善辫状河河道和心滩组合关系以及心滩内部构型模式;针对冲积扇沉积体系,寻求地下储集层的构型分级和识别模式;针对三角洲前缘沉积体系,精细水下分流河道内部加积体,河口坝内部增生体等构型要素划分。最后总结了不同沉积体系储集层构型研究中存在的问题和展望,认为建立其更加符合地下地质认识的构型模式,认识储集层构型动态响应特征以及与井网匹配关系将是储集层构型研究的趋势。

冲积河流“涨冲落淤”现象的研究

通过对黄河干支流不同比降(0.57~6.3)的河段、不同含沙量(21.7kg/m3~923kg/m3)和不同流量(1 560m3/s^22 300m3/s)的洪水期间河槽的冲淤过程的分析,在流速大到河床处于动平整状态时,洪水过程中,主河槽一般表现为涨水期冲刷和落水期淤积,即"涨冲落淤"现象;对造成涨冲落淤的机理作了探讨;在宽浅河段,受河势影响会出现反常;正确认识涨冲落淤现象具有重要理论价值,在防洪和调水调沙治河措施中具有实际意义。

干旱气候环境下小型冲积扇—辫状河沉积特征——以坎苏瓦特剖面紫泥泉子组为例

为了认识准噶尔盆地南缘古近系沉积体系,以盆地南缘坎苏瓦特剖面古近系紫泥泉子组露头为研究对象,通过地球化学元素分析、沉积构造特征观察及地层实测,分析古气候条件、建立岩性序列、总结岩石相类型及其组合特征、明确沉积体系,建立沉积模式。结果表明:坎苏瓦特剖面紫泥泉子组发育一类干旱气候环境下的冲积扇—辫状河沉积体系,受气候影响显著,与潮湿环境下形成的冲积扇—辫状河沉积体系相比,砂地比明显偏低;冲积扇扇体具有规模局限、叠置频繁、隔夹层广泛发育的特点;辫状河具有改道频繁、持续时间短、延伸距离有限的特点。该研究结果对认识准噶尔盆地南缘古近系沉积体系具有参考意义。

长江冲积土壤硫肥力研究

对长江冲积土壤硫进行了分析，结果表明：１．从无为县开始沿江而上至宿松县，长江冲积土壤有效Ｓ有减少的趋势。２．从平均值来看，水稻土有效Ｓ大于灰潮土；潜育型水稻土大于潴育型水稻土。３．灰潮土有效Ｓ含量不高，但潜在供Ｓ能力较强。Ｃ－Ｏ－Ｓ是主要潜在硫库，其次是惰性Ｓ和难溶Ｓ。

河床演变阶段模型及其在三门峡水库和渭河下游的应用

基于河床冲淤和横断面面积变化,提出描述河道冲淤及垂向和横向调整的河床演变阶段模型,将该模型应用于1960-2017年三门峡库区和渭河下游河道的演变过程,结果表明,该模型可反映河道冲淤的时空变化特征,在溯源冲刷阶段,库区及渭河下游下段由下游向上游依次呈现“河床冲刷下切”、“河道冲刷展宽”、“河道淤积展宽”三个演变阶段,这一空间分布与河道沿程冲刷的演变阶段分布相反,反映了沿程与溯源冲刷特征的差异及河道横向可动性的影响。

建立在水动力关系基础上桃河阳泉段河道渗漏补给量的计算

阳泉市桃河上游河谷冲洪积层孔隙地下水,以其涌水量大、开采成本低成为当地的重要供水水源。其资源量除受河流径流量的大小影响外,更与河水与地下水的动力关系密切相关,本文根据两者间的水动力关系分为顶托渗漏和自由渗漏两个过程,并根据实测渗漏量计算出含水层参数,进而结合当地的水井工程布置情况,对河流渗漏量进行了计算。

Sediment storage and morphology of the Yalu Tsangpo valley due to uneven uplift of the Himalaya

The fluvial process of the Yalu Tsangpo River occurs concurrently with the uplift of the Qinghai-Tibet Plateau.Therefore,the river exhibits unique features in morphology and sediment deposition.Field investigations were performed from 2009–2011and the depth of the interface between the sediment deposits and bed rock was detected with an electromagnetic imaging system(EH4)at 29 cross sections.Sediment deposits were sampled along the Yalu Tsangpo valley from Xietongmen to the Yalu Tsangpo Canyon.The results show that a huge amount of sediment has been deposited in four wide valley sections because the uplift rate in these sections was lower than that in the downstream gorge sections over the past million years.About 518 billion m3of gravel and sand have been stored in the high mountain river valleys,which has changed the V-shaped mountain river valley into a U-shaped wide river valley in the four sections.In the sections with high uplift rates the river bed is incised and has formed gorges and the Yalu Tsangpo Canyon.

吉林省珲春市黄松甸子砾岩型金矿床地质特征

黄松甸子砾岩型金矿床位于中新生代滨太平洋活动带，长白－春化裂谷的北端春化盆地内。矿体赋存于第三纪冲洪积层底部粗碎屑沉积中，为一河流冲积扇沉积矿床。成矿物质来原为中性－中酸性岩类及赋存于其中的热液脉金矿化体。重砂矿物除自然金外还见有３０余种其它矿物，并伴生可供综合利用的有益矿物钛铁矿和锆石。

储层构型研究现状及发展趋势

构型研究是目前储层研究的重点和难点领域之一。依据国内外储层构型研究的成果,对河流、三角洲、冲积扇等3类沉积体系构型研究的主要成果进行总结;对目前构型研究的常用方法及其局限性进行分析,指出目前构型研究中存在的问题及其发展趋势。

甘肃省文县让水河一带砂金矿矿体地质特征

矿区属让水河的下游,砂金矿床为现代河谷冲积型砂金矿床。总长5 500 m,由两个矿体组成。分别为Ⅰ号、Ⅱ号矿体。矿体主要赋存在让水河河床。河漫滩及Ⅰ级阶地中。矿体为长条带状呈东西向展布。砂金主要赋存在松散砂砾层中,砂砾层砾石含量63%~80%,砂12%~22%,泥5%~25%。其中巨砾100~250 mm占8.55%,250~300 mm占3.62%,300~350 mm占2.47%,350~400 mm占2.74%,400~500 mm占2.88%,>500 mm占8.47%,合计为28.7%。

DISTRIBUTION OF TRACE ELEMENTS IN DRILL-CORE SEDIMENT FROM PORT XIAWAN

Zhuzhou is a heavy industrial clty along thew vancy (?) age from many industrial enterprises in the city has been drained into the river by way of Port Xiawan. To meet the requisite of the plan on the prevention and control of pollution, the contents of trace elements in the drill-core sediment at about a depth of three meters from Xiawan were measured in INAA.

西秦岭北缘漳河阶地发育特征与成因分析

漳河漳县段沿西秦岭北缘断层发育,其南岸保存了良好的四级阶地,Ⅰ级阶地为堆积阶地,局部为基座阶地,Ⅱ、Ⅲ级阶地为基座阶地,Ⅳ级阶地为侵蚀阶地。漳河阶地上覆堆积物特点反映了其形成主要受构造抬升控制,气候变化影响较小。漳河阶地的抬升速率指示了西秦岭北缘地区在晚更新世中晚期经历了短暂的缓和隆升后,全新世以来具有加速隆升的趋势。阶地发育频率可能受到了气候变化的影响使其与隆升速率不具有正相关性。