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1.
Xunhong Chen Jinxi Song Cheng Cheng Deming Wang Susan O. Lackey 《Hydrogeology Journal》2009,17(3):519-525
A two-step approach was used to measure the flux across the water-sediment interface in river channels. A hollow tube was pressed into the streambed and an in situ sediment column of the streambed was created inside the tube. The hydraulic gradient between the two ends of the sediment column was measured. The vertical hydraulic conductivity of the sediment column was determined using a falling-head permeameter test in the river. Given the availability of the hydraulic gradient and vertical hydraulic conductivity of the streambed, Darcy’s law was used to calculate the specific discharge. This approach was applied to the Elkhorn River and one tributary in northeastern Nebraska, USA. The results suggest that the magnitude of the vertical flux varied greatly within a short distance. Furthermore, the flux can change direction from downward to upward between two locations only several meters apart. This spatial pattern of variation probably represents the inflow and outflow within the hyporheic zone, not the regional ambient flow systems. In this study, a thermal infrared camera was also used to detect the discharge locations of groundwater in the streambed. After the hydraulic gradient and the vertical hydraulic conductivity were estimated from the groundwater spring, the discharge rate was calculated. 相似文献
2.
为了揭示河床沉积物非均质性对潜流交换的影响,构建了沙波地形作用下的地表水-地下水耦合模型,通过生成不同的渗透系数随机场,讨论了不同地表水动力过程和河床沉积物非均质性对潜流交换通量、交换空间及平均停留时间的影响规律。结果表明,所构建的地表水-地下水耦合模型能够准确刻画水沙界面附近流场,模型具有良好的适用性;均质或非均质河床沉积物情景下,水沙界面上的平均交换通量、停留时间与雷诺数之间均呈现幂函数关系,潜流交换深度则在地表水进入完全紊流之后趋于稳定。结果还表明,较强的河床沉积物非均质性能够有效增强水沙界面上潜流交换通量和空间交换频率,但会制约潜流交换空间并缩短水流在潜流带中的停留时间。 相似文献
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河流潜流带是地表-地下水连通和交换的主要区域, 地表-地下水过程不仅促进了生源物质的迁移转化过程, 还能涵养水源、稳定区域生境, 为水生生物提供良好的栖息环境。因此掌握水生生物活动与地表-地下水交换关系是深刻认知和科学保护水生生态系统的关键。本文综述了前人有关水生生物活动反馈于地表-地下水交换过程的研究, 例如, 底栖微生物形成的生物膜可以吸收或滞留生源物质, 改变迁移的时间和路径; 水生动物的行为可能通过改变河床渗透系数和孔隙率等物理参数影响各类物质的地表-地下水交换通量; 水生植物对水流的阻滞和扰动也会作用于地表-地下水交换过程。基于目前研究, 本文提出了该领域的3个未来研究方向: 潜流交换和水生生物互馈理论, 水生生态功能与地表-地下水相互作用关系, 河流潜流带生物-地球-化学耦合过程。 相似文献
5.
Christian Anibas Abebe Debele Tolche Gert Ghysels Jiri Nossent Uwe Schneidewind Marijke Huysmans Okke Batelaan 《Hydrogeology Journal》2018,26(3):819-835
Among the advances made in analytical and numerical analysis methods to quantify groundwater/surface-water interaction, one methodology that stands out is the use of heat as an environmental tracer. A large data set of river and riverbed temperature profiles from the Aa River in Belgium has been used to examine the spatial-temporal variations of groundwater/surface-water interaction. Exchange fluxes were calculated with the numerical heat-transport code STRIVE. The code was applied in transient mode to overcome previous limitations of steady-state analysis, and allowed for the calculation of model quality. In autumn and winter the mean exchange fluxes reached ?90 mm d?1, while in spring and early summer fluxes were ?42 mm d?1. Predominantly gaining conditions occurred along the river reach; however, in a few areas the direction of flow changed in time. The river banks showed elevated fluxes up to a factor of 3 compared to the center of the river. Higher fluxes were detected in the upstream section of the reach. Due to the influence of exchange fluxes along the river banks, larger temporal variations were found in the downstream section. The exchange fluxes at the river banks seemed more driven by variable local exchange flows, while the center of the river was dominated by deep and steady regional groundwater flows. These spatial and temporal differences in groundwater/surface-water exchange show the importance of long-term investigations on the driving forces of hyporheic processes across different scales. 相似文献
6.
Statistical and geostatistical features of streambed hydraulic conductivities in the Platte River, Nebraska 总被引:1,自引:0,他引:1
Xunhong Chen 《Environmental Geology》2005,48(6):693-701
This paper presents streambed hydraulic conductivities of the Platte River from south-central to eastern Nebraska. The hydraulic
conductivities were determined from river channels using permeameter tests. The vertical hydraulic conductivities (K
v
) from seven test sites along this river in south-central Nebraska belong to one statistical population. Its mean value is
40.2 m/d. However, the vertical hydraulic conductivities along four transects of the Ashland test site in eastern Nebraska
have lower mean values, are statistically different from the K
v
values in south-central Nebraska, and belong to two different populations with mean values of 20.7 and 9.1 m/d, respectively.
Finer sediments carried from the Loup River and Elkhorn River watersheds to the eastern reach of the Platte River lowers the
vertical hydraulic conductivity of the streambed. Correlation coefficients between water depth and K
v
values along a test transect indicates a positive correlation – a larger K
v
usually occurs in the part of channel with deeper water. Experimental variograms derived from the vertical hydraulic conductivities
for several transects across the channels of the Platte River show periodicity of spatial correlation, which likely result
from periodic variation of water depth across the channels. The sandy to gravelly streambed contains very local silt and clay
layers; spatially continuous low-permeability streambed was not observed in the river channels. The horizontal hydraulic conductivities
were larger than the vertical hydraulic conductivities for the same test locations. 相似文献
7.
潜流带是河流生态系统中活跃的生态群落交错区,是地表水和地下水相互作用的重要界面。研究潜流带内存在的潜流交换机制对评估水资源的开发利用以及维持和修复河流生态系统健康有着重要意义。系统介绍了温度示踪方法的一维垂向稳态和瞬态热运移解析模型,梳理归纳了基于温度示踪的时序数据采集方法、信号分析方法和数值方法的相关研究进展,最后对比论述了温度示踪方法的优势和存在的主要问题,同时指出了地下水的多维流动、温度测量的不确定性以及非理想条件对解析模型的影响仍是未来温度示踪方法需要进一步研究的重点。 相似文献
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潜流带是河流地表水和地下水交混区域,是河流中重要的物质能量交换和水生生物栖息的场所,而胶体颗粒在潜流带中沉积,会改变潜流带中的水动力结构和生态环境。本文利用室内循环水槽实验和多物理场耦合的数值模拟方法,旨在研究胶体颗粒在河流上覆水与潜流带中的迁移过程和胶体颗粒在潜流带中沉积分布特征及其对不同因素的响应规律。结果表明:河流上覆水中胶体会逐渐被河床截留且截留胶体集中于河床浅层;沙波水平方向截留量呈现出迎水面较高、背水面较低的趋势;胶体在潜流带沉积的主要机制是潜流交换、颗粒沉降与河床截留作用。本文能为胶体颗粒在潜流带中的生态环境作用研究提供科学依据,并为河流生态环境修复、河流健康管理提供理论支持。 相似文献
10.
为揭示河床形态特征引起的潜流交换规律,构建循环式水槽装置,通过NaCl示踪对比分析了4种河床地形驱动下的潜流交换规律,并基于扩散理论探讨了潜流交换与地表水水动力及床沙渗透特性之间的关系.结果表明,潜流交换可以发生在平坦河床地形,且交换速率随地形起伏度和雷诺数的增大而增大;在相似的地形条件下,地表流速是影响潜流交换速率的主导因素,地表水深对潜流交换速率影响较弱;此外,分析表明,有效扩散系数与河床特征粒径之间具有2次方幂率函数关系,且与河床渗透系数成正比;交换深度d正比于雷诺数Re的1/2次方. 相似文献
11.
Liping Wang Weiwei Jiang Jinxi Song Xinyi Dou Hongtao Guo Shaofeng Xu Guotao Zhang Ming Wen Yongqing Long Qi Li 《Hydrogeology Journal》2017,25(5):1283-1299
Investigating the interaction of groundwater and surface water is key to understanding the hyporheic processes. The vertical water fluxes through a streambed were determined using Darcian flux calculations and vertical sediment temperature profiles to assess the pattern and magnitude of groundwater/surface-water interaction in Beiluo River, China. Field measurements were taken in January 2015 at three different stream morphologies including a meander bend, an anabranching channel and a straight stream channel. Despite the differences of flux direction and magnitude, flux directions based on vertical temperature profiles are in good agreement with results from Darcian flux calculations at the anabranching channel, and the Kruskal-Wallis tests show no significant differences between the estimated upward fluxes based on the two methods at each site. Also, the upward fluxes based on the two methods show similar spatial distributions on the streambed, indicating (1) that higher water fluxes at the meander bend occur from the center of the channel towards the erosional bank, (2) that water fluxes at the anabranching channel are higher near the erosional bank and in the center of the channel, and (3) that in the straight channel, higher water fluxes appear from the center of the channel towards the depositional bank. It is noted that higher fluxes generally occur at certain locations with higher streambed vertical hydraulic conductivity (K v) or where a higher vertical hydraulic gradient is observed. Moreover, differences of grain size, induced by stream morphology and contrasting erosional and depositional conditions, have significant effects on streambed K v and water fluxes. 相似文献
12.
The thermal profile of a streambed is affected by a number of factors including: temperatures of stream water and groundwater, hydraulic conductivity, thermal conductivity, heat capacity of the streambed, and the geometry of hyporheic flow paths. Changes in these parameters over time cause changes in thermal profiles. In this study, temperature data were collected at depths of 30, 60, 90 and 150 cm at six streambed wells 5 m apart along the thalweg of Little Kickapoo Creek, in rural central Illinois, USA. This is a third-order low-gradient baseflow-fed stream. A positive temperature gradient with inflection at 90-cm depth was observed during the summer period. A negative temperature gradient with inflection at 30 cm was observed during the winter period, which suggests greater influence of stream-water temperatures in the substrate during the summer. Thermal models of the streambed were built using VS2DHI to simulate the thermal profiles observed in the field. Comparison of the parameters along with analysis of temperature envelopes and Peclet numbers suggested greater upwelling and stability in temperatures during the winter than during the summer. Upwelling was more pronounced in the downstream reach of the pool in the riffle and pool sequence. 相似文献
13.
为揭示河岸形态引起的侧向潜流交换规律,利用地表水与地下水双循环水槽系统,通过10组正弦型微弯河岸与4组直线型河岸的潜流交换对比试验,研究不同河岸振幅a、地表水流速u、河流水深h条件下的潜流交换特性。试验结果表明,与垂向潜流交换机理类似,侧向潜流交换也存在对流(泵吸交换)、扩散和微循环3种交换形式。河流雷诺数Re的增大,将加强紊动扩散与微循环作用。河岸弯曲形态的出现,将引起泵吸效应,大大加剧了河岸的潜流交换,且随着河岸振幅与河流流速的增大,河岸形态引起的泵吸交换将逐渐成为潜流交换前期的主要形式。 相似文献
14.
Scaling up point-in-space heat tracing of seepage flux using bed temperatures as a quantitative proxy 总被引:1,自引:1,他引:0
It is challenging to quantify reach-scale surface-water–groundwater interactions, while maintaining the fine-scale spatial resolution required in hyporheic studies. One-dimensional heat-transport modeling was used to simulate streambed fluxes at discrete points using time-series temperature records. A predictive relationship was then developed between point-in-time streambed temperature and modeled flux rates. Flux was mapped at high spatial resolution by applying the predictive relationship to mapped streambed temperatures, which allowed for high-resolution quantification of flux by proxy. Inferred patterns of flux are consistent with morphology and yielded a net flux to a 30-m stream reach of 1.0?L s–1. Discharge of saline groundwater (5.7?g L–1 Cl–) allowed for comparison between the temperature proxy method and geochemical variability. Maximum upwelling locations (>35 cm day–1) were spatially coincident with areas of high conductance at the bed interface (5–25?mS cm–1). Differences between gross flux estimates from heat and geochemical methods are attributed to differences in the spatial extent over which estimates were derived and limited sensitivity of the temperature-as-proxy method. When bed temperatures are near their inherent limits (groundwater and stream-water temperatures) the flux magnitude can be underestimated. Caution must be used when determining gross, reach-scale fluxes from temperature-as-proxy methods when flux rates are outside the sensitivity limits. 相似文献
15.
Assessing hyporheic exchange and associated travel times by hydraulic, chemical, and isotopic monitoring at the Steinlach Test Site, Germany 总被引:1,自引:1,他引:0
Karsten Osenbrück Thomas Wöhling Dennis Lemke Nina Rohrbach Marc Schwientek Carsten Leven Cristina Castillo Alvarez Heinrich Taubald Olaf A. Cirpka 《Environmental Earth Sciences》2013,69(2):359-372
First results of a multi-disciplinary hyporheic monitoring study are presented from the newly established Steinlach Test Site in Southern Germany. The site is located in a bend of the River Steinlach (mean discharge of 1.8 m³/s) underlain by an alluvial sandy gravel aquifer connected to the stream. The overall objective is a better understanding of hyporheic exchange processes at the site and their interrelations with microbial community dynamics and biochemical reactions at the stream–groundwater interface. The present paper focuses on the distribution of lateral hyporheic exchange fluxes and their associated travel times at the Steinlach Test Site. Water level dynamics in various piezometers correspond to the different domains of hydraulic conductivity in the shallow aquifer and confirms hyporheic exchange of infiltrated stream water across the test site. Hydrochemical compositions as well as increased damping of continuous time series of electrical conductivity (EC) and temperature at the respective piezometers confirmed the inferred distribution of hyporheic flowpaths. Mean travel times ranging from 0.5 days close to the stream to more than 8 days in the upstream part of the test site could be estimated from deconvolution of EC and δ18O–H2O data. The travel times agree well with the presumed flowpaths. Mg/Ca ratios as well as model fits to the EC and δ18O data indicate the presence of an additional water component in the western part of the test site which most likely consists of hillslope water or groundwater. Based on the mean travel times, the total lateral hyporheic exchange flux at the site was estimated to be of the order of 1–2 L/s. 相似文献
16.
Alyse C. Briody M. Bayani Cardenas Pin Shuai Peter S. K. Knappett Philip C. Bennett 《Hydrogeology Journal》2016,24(4):923-935
Periodic releases from an upstream dam cause rapid stage fluctuations in the Lower Colorado River near Austin, Texas, USA. These daily pulses modulate fluid exchange and residence times in the hyporheic zone where biogeochemical reactions are typically pronounced. The effects of a small flood pulse under low-flow conditions on surface-water/groundwater exchange and biogeochemical processes were studied by monitoring and sampling from two dense transects of wells perpendicular to the river. The first transect recorded water levels and the second transect was used for water sample collection at three depths. Samples were collected from 12 wells every 2 h over a 24-h period which had a 16-cm flood pulse. Analyses included nutrients, carbon, major ions, and stable isotopes of water. The relatively small flood pulse did not cause significant mixing in the parafluvial zone. Under these conditions, the river and groundwater were decoupled, showed potentially minimal mixing at the interface, and did not exhibit any discernible denitrification of river-borne nitrate. The chemical patterns observed in the parafluvial zone can be explained by evaporation of groundwater with little mixing with river water. Thus, large pulses may be necessary in order for substantial hyporheic mixing and exchange to occur. The large regulated river under a low-flow and small flood pulse regime functioned mainly as a gaining river with little hydrologic connectivity beyond a narrow hyporheic zone. 相似文献
17.
Temperature, discharge, and stable isotope ratios of five karst springs in a mountainous area of Zigui County, Hubei Province, Central China, were analyzed. The purpose was to illustrate the heat exchanges linked to circulation depth in the exposed karst water systems through the development of a method for estimating heat input and heat flux during a rainstorm. Meteorological water in the study area conformed to a local meteoric water line (δD?=?8.37 δ18O?+?12.99) with a mean δ18O elevation gradient of ?4.0‰ km?1, which was used to estimate mean circulation depths of 209–686 m. The mean spring temperatures defined a vertical gradient of ?5.4 °C km?1, which resembled that of the stable atmosphere of the Earth, indicating that the thermal response patterns are mainly controlled by surface air temperature. Thermal convection after rainfall events dominated heat exchange between baseflow and recharge water, leading to a warmer and colder recharge during summer and winter, respectively, whereas thermal conduction dominated the heat exchange only between groundwater, surrounding geology, and the interface air under a condition of no rainfall, resulting in only small temperature variations of the baseflow. Successful application of the method for estimating heat exchange showed that the characteristics of shallow circulation, strong karstification, and well-developed epikarst readily allowed disruption of the thermal balance of the Yuquandong system, resulting in a poor heat regulation capacity, a larger variation of heat input, a lower mean heat flux, and lower baseflow temperatures compared to those of the Dayuquan system.
相似文献18.
河道潜流带是河水与地下水交互作用的关键过渡区,具有高度的动态性和敏感性,频繁的水力交换易引发其内部的生物地球化学反应,并对河流生态安全产生重要影响。为提高河道潜流交换水动力监测结果的真实性和有效性,介绍渗流、水压、溶质、温度等监测方法及其适用性,归纳河床和河岸的监测点布设参数和不同监测手段的数据采集频率,系统总结河段、河床及河岸的潜流交换理论与计算方法,探讨导致潜流监测结果不确定的因素。针对现有监测方法的不足和未来研究的发展方向,提出今后需加强多方法联合监测和多技术集成的应用,开展河岸侧向潜流监测及不确定性分析等工作,为潜流带水文-生物地球化学过程耦合机制研究提供可靠数据。 相似文献
19.
The spatial variability of streambed vertical hydraulic conductivity in an intermittent river, northwestern China 总被引:2,自引:0,他引:2
Leilei Min Jingjie Yu Changming Liu Juntao Zhu Ping Wang 《Environmental Earth Sciences》2013,69(3):873-883
Streambed vertical hydraulic conductivity (K) plays an important role in river water and groundwater interaction. The K at the ten transects (Ts1–Ts10) at the Donghe River (an intermittent river) in the Ejina Basin, northwestern China, was measured to investigate its spatial variation. Based on the sediment characteristics and vertical hydraulic conductivity of the riverbed, the entire riverbed of the Donghe River could be divided arbitrarily into two parts: an upper part (starting at Ts1 and ending at Ts9, without an obvious and continuous clogging layer) and a lower part (the remaining riverbed, with an obvious and continuous clogging layer). In the upper part, although the K varied with depth within the 0–30 cm layer, the variability with depth could be ignored in practice. The arithmetic mean K of the upper part ranged from 12 to 27.6 m/day, three orders of magnitude larger than that of the lower part (0.06 m/day). The change of K along the river cross section was significant, and larger values of K often occurred in the parts of the channels with greater water depth. However, there were no consistent patterns of the variability of K at transects across the river, which was influenced by the variation in streambed characteristics. The results could be useful for the estimation of groundwater recharge from river and groundwater resources evaluation in the Ejina Basin. 相似文献
20.
Jinxi Song Weiwei Jiang Shaofeng Xu Guotao Zhang Liping Wang Min Wen Bo Zhang Yuanyuan Wang Yongqing Long 《Hydrogeology Journal》2016,24(8):2049-2062
Recognizing the heterogeneity of hydraulic conductivity and hyporheic flow is critical for understanding contaminant transfer and biogeochemical and hydrological processes involving streams and aquifers. In this study, the heterogeneity of hydraulic conductivity and Darcian flux in a submerged streambed and its adjacent exposed stream banks were investigated in the Beiluo River, northwest China. In the submerged streambed, Darcian flux was estimated by measurement of vertical hydraulic conductivity (K v) and vertical head gradient (VHG) using in-situ permeameter tests. On exposed stream banks, both horizontal hydraulic conductivity (K h) and K v were measured by on-site permeameter tests. In the submerged streambed, K v values gradually decreased with depth and the higher values were concentrated in the center and close to the erosional bank. Compared to the exposed stream banks, the K v values were higher in the streambed. From stream stage to the topmost layer of tested sediment, through increasing elevation, the K h values increased on the erosional bank, while they decreased on the depositional bank. The values of VHG along the thalweg illustrate that downwelling flux occurred in the deepest area while upwelling flux appeared in the other areas, which might result from the change of streambed elevation. The higher value of the Darcian flux in the submerged streambed existed near the erosional bank. 相似文献