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1.
同位素在小流域基流计算中的应用研究 总被引:3,自引:0,他引:3
小流域基流计算结果可反映流域地下水与地表水之间的相互影响.对2007年中山大学珠海滨海水循环综合实验基地上游流域做退水分析,并采用不同方法分割上游河道流量过程线,得到的基流BFI值,即基流量除以河川径流量,变化范围在0.43~0.86,旱季BFI最大值为0.96,雨季最小值为0.41.收集研究区域河道水、地下水以及雨水水样分析D、18O同位素值,根据同位素平衡原理采用二水源过程线分割法计算2~5月流域基流比重,得到上游BFI值0.737、下游BFI值0.68,计算结果与改进的数字滤波法3的计算结果相一致. 相似文献
2.
主要目的是通过对同位素在流域水文模拟应用中的一些假定、限制条件以及方法进行澄清和系统化,从而促进同位素在流域水文模拟中一些新的研究方向和研究热点.主要从三个方面,即同位素流量过程线分割、流域平均滞时与不同水源混合、与水文模型耦合,讨论同位素示踪剂在流域水文模拟中的研究进展情况.同时指出了同位素在流域水文模拟中应用存在的一些主要问题,包括:①降雨同位素含量的时空变化;②不同径流成分的采样;③径流输出同位素含量的空间变化;④流域平均滞时分布函数的确定;⑤水文同位素耦合模型. 相似文献
3.
针对现行流量过程线分割方法中存在着缺乏物理基础和客观的、科学的操作方法,以及其他的一些问题,提出了流量过程线的分割应遵循的三条基本原则,在此基础上提出流量过程线分割的新方法。该法通过流域的降雨资料和出口断面的流量资料,经推导得到Horton下渗能力曲线的三参数,并推导出地下净雨量在非饱和带运行时间公式和地下水汇流公式,从而对流域出口断面流量过程线进行分割。 相似文献
4.
自1987年起,在实验流域和代表流域对现行流量过程线划分两种径流成分的环境同位素法的基本假定进行了实验检验.结果表明,由于沉域水文系统同位素条件的复杂性,8项基本假定大多是不正确观念,应用该模型所得结果误差较大.研究认为对天然流域流量过程线使用环境同位素方法划分两种或两种以上径流组分时,必须具有4项必要条件,才能取得合理结果. 相似文献
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6.
黑河下游典型生态系统水分补给源及优势植物水分来源研究 总被引:5,自引:1,他引:4
通过对黑河源区降水、 黑河下游河岸林生态系统、 人工梭梭林生态系统梭梭及戈壁红砂生态系统土壤水和浅层地下水稳定氢氧同位素组成(δD、 δ18O)的测定, 对黑河下游典型生态系统土壤水和浅层地下水的补给源进行了研究. 同时通过对比分析河岸林生态系统胡杨和柽柳、 人工梭梭林生态系统梭梭及戈壁红砂生态系统红砂等优势植物根系水及其对应的土壤水及浅层地下水的δ18O, 对黑河下游典型荒漠植物水分来源进行了研究, 并对不同潜在水源对植物水分来源的贡献率进行了计算. 结果表明: 河岸林生态系统和人工梭梭林生态系统的土壤水和浅层地下水来自黑河源区的降水, 源区降水通过黑河河道输水补给河岸林进而形成土壤水和浅层地下水, 但人工梭梭林的土壤水蒸发作用强烈. 戈壁红砂生态系统由于远离黑河, 土壤水不受黑河源区中上游输水的补给. 就植物水分来源而言, 在河岸林生态系统中, 乔木胡杨主要利用40~60 cm的土壤水和地下水, 灌木柽柳主要利用40~80 cm的土壤水; 人工梭梭主要利用200 cm至饱和层土壤水和地下水; 戈壁红砂主要利用175~200 cm的土壤水. 因此, 在黑河下游极端干旱区, 土壤水和地下水是维持荒漠植物生存、 生长及发育的主要来源. 相似文献
7.
通过对黄土丘陵区燕沟流域2005~2007年雨季的多次降水、0~400 cm土层土壤水、沟道地表水、地下水(泉水、井水)水样中D和18O采样分析,研究了该区降水、土壤水、地表水、地下水的转化关系.结果认为:燕沟流域的降水线与中国、世界的降水线有明显区别,斜率和截距偏小;降水、地表水、土壤水、地下水逐渐富集δD和δ18O,且δ18O富集速度高于δD,由D和18O的蒸发分馏差异所致,可利用各类水体的δD和δ18O变化情况甄别水体之间的水量转化;土壤水δD和δ18O剖面在200 cm深度处出现低值区,应是降水补给到达该深度且土壤蒸发影响逐渐衰减共同作用的结果,其在200 cm以下逐渐升高则因为降水补给影响逐渐降低、土壤水本底同位素影响增强所致.由于380~400 cm深层土壤水的δD和δ18O对降水事件的响应存在,因此认为降水-地下水的转化存在,降水补给泉水的滞后期小于35 d.而对井水的补给滞后时间以及土壤水对地下水的补给量还需进一步研究. 相似文献
8.
水文模拟不确定性长期以来是制约寒区水文发展的瓶颈问题。水稳定同位素示踪为认识冰川流域径流过程提供了重要“指纹”信息,但仍缺乏有效模型将该信息与冰川水文模型耦合,而且同位素信息对冰川流域水文模型不确定性的约束效果也有待检验。将水稳定同位素信息(δ18O)与冰川流域水文模型FLEXG相耦合,实现对冰川流域水稳定同位素和径流过程的耦合建模(FLEXG-iso),并在乌鲁木齐河源1号冰川流域进行模拟检验和径流分割。结果表明:模型不仅对2013—2016年径流过程有良好的模拟效果,还可以重现水稳定同位素、冰川物质平衡等重要过程。利用水稳定同位素这一辅助数据,提高了模型参数的识别能力,减少了模拟过程中各水源的相互妥协效应和不确定性范围。2013—2016年1号冰川断面径流32%~34%来自融雪,48%~51%来自融冰,0%~7%来自地下水,12%~15%来自降雨径流。水稳定同位素对雪和冰川相关中间过程有明显的约束能力,原有模型对融冰贡献的模拟偏高约7%。FLEXG-iso模型的建立有助于推动寒区水文学理论和方法的发展,以及寒区水资源、生态环境保护等相关决策制定。 相似文献
9.
同位素技术在流域水文研究中的重要进展 总被引:4,自引:3,他引:1
近50 a来,同位素技术在流域水文研究中取得了两个方向上的重要进展:从时间上讲,主要是对水体贮存、运移时间变化的评估,这里重点介绍了对地下水滞留时间估算上的重要进展;从空间上讲,主要是对流域水文过程的评估,从对河流-地下水系统内水体的相互转化、径流分割和生物化学过程3个方面的进展进行评述.同位素技术和方法在流域水文研究中将向着理解大流域水文过程的方向发展,同位素信息用来校正和检验降水-径流模型及在可持续水资源管理的定量化研究等方面的潜在价值有待实现. 相似文献
10.
湖北宜昌香溪河流域环境同位素特征及其水循环意义 总被引:2,自引:0,他引:2
为研究鄂西南岩溶山区的水循环过程,以湖北宜昌香溪河流域为研究对象,通过现场调查并结合环境同位素,对香溪河流域地表水和地下水进行了取样,通过测定其氢氧同位素组成,分析了同位素变化特征以及流域地下水和地表水的转换关系及其水循环特征。流域水中δD、δ18 O值组成分析表明:流域内各种水体主要分布在当地大气降水线的附近,构成斜率明显小于雨水线的蒸发线,3个子流域δD、δ18 O值的富集程度为:南阳河流域<古夫河流域<高岚河流域。南阳河流域上游受神农架山区地方性大气降水控制。响水洞和响龙洞(暗河出口)水中氘过量参数(d)值分别反映出不同的地下径流途径与滞留时间、水岩反应强度。子流域同位素沿程变化的特征反映出:在上游段,水来源不同以及地表水和地下水转换频繁是δD、δ18 O值变化的主要影响因素;在中下游段,流域内地下水流入河流,河水流量逐渐增大,不同的水源混合均匀,经过一定的蒸发作用,δD、δ18 O值的变幅趋于稳定。 相似文献
11.
《Comptes Rendus Geoscience》2019,351(6):441-450
In humid subtropical regions, baseflow is mainly governed by aquifer discharges and this dynamic is fed by groundwater recharge. To better comprehend the watershed groundwater recharge using a large-scale approach, two watersheds located over the Serra Geral Aquifer System (Southern South America) were studied. Three different groundwater recharge methods were utilized to study the baseflow: a simplified water budget, a hydrograph separation using the Eckhardt filter with different ways of obtaining the BFImax parameter, and the MGB–IPH hydrological model, which is unprecedented in being used for this purpose. These methods showed a general mutual convergence, where recharge magnitude remained similar in most methods. The MGB–IPH model proved to be a useful tool for understanding the occurrence of groundwater recharge. Uncertainties associated with the representativity of interflow demonstrated by hydrograph separation and shown in the model may indicate that the groundwater recharge estimate could be lower than those obtained considering hydrograph numerical filters. 相似文献
12.
Hyerin Kim Sung-Hyun Cho Dongguen Lee Youn-Young Jung Young-Hee Kim Dong-Chan Koh Jeonghoon Lee 《Environmental Earth Sciences》2017,76(2):82
For water resources management, many studies for investigating flow paths from rainfall to subsurface have been conducted for last half century. A hydrograph separation based on end member mixing was carried out to evaluate the importance of the hydrological pathways providing the main sources of a small granitic watershed, Dorim-cheon, Seoul. An analysis of chloride, oxygen-18 and deuterium isotopes from precipitation and stream water during three storms was conducted with high-resolution data using 129 samples. Stream water, collected in advance of rain event, was assumed as a pre-event water (baseflow) component according to its dry condition and isotopic values compared with the values of different time periods. The contribution from vadose water was ignored due to the thin soil layer covering the study area. Using a two-component mixing model, hydrograph separation of the stream water in Dorim-cheon was conducted based on weighted mean values of rain water and pre-event water component with the high-resolution datasets. As a result of the analysis with water isotopes, contribution of groundwater was dominant during the entire study period (73–74%) except of instant dominance of rainfall at the earliest period. Using chloride as a tracer for hydrograph separation, a significant difference for the amount of pre-event water contribution was identified. This might be caused by the large variation of chloride concentration during the rain event and the end member determination. 相似文献
13.
马粪沟流域不同景观带水文过程 总被引:2,自引:0,他引:2
目前高寒水源区完整水文过程规律研究还非常薄弱。应用同位素技术与水化学分析模拟方法来甄别高寒区马粪沟流域不同景观带冰川、积雪、冻土、地表水、地下水和降雨等水体对出山径流的贡献组合与路径,旨在揭示各景观带的水文过程。据端元混合模型计算,在湿季出山径流52%来自地下水补给,其地下水主要是由冻土融水、冰雪融水和降雨下渗转化形成;冰雪带融水占11%;高山寒漠带和灌丛带地表径流占20%;高山草原带约占9%;降雨直接补给占8%。整个流域降雨很少直接产生地表径流,而是在各个景观带转化成壤中流或地下径流,然后汇入河道。 相似文献
14.
Groundwater recharge was investigated in the most extensive sand and gravel aquifer (area of approximately 200 km2) in the Republic of Ireland as part of a wider study seeking to derive recharge estimates using aquifer vulnerability mapping. The proportion of effective rainfall (total rainfall minus actual evapotranspiration) that leads to recharge is known as the recharge coefficient. The recharge investigation involved a variety of approaches, including soil moisture budgeting, well hydrograph analysis, numerical modelling and a catchment water balance. The adoption of multiple techniques provided insights on recharge and also on aquifer properties. Comparison of two soil moisture budgeting approaches (FAO Penman-Monteith with Penman-Grindley) showed how variations in the effective rainfall values from these methods influence groundwater levels simulated in a numerical groundwater model. The catchment water balance estimated the recharge coefficient to be between 81 and 85%, which is considered a reasonable range for this aquifer, where overland flow is rarely observed. The well hydrograph analysis, using a previous estimate of specific yield (0.13), gave recharge coefficients in the range of 40–80%, considered low for this aquifer: a revised specific yield of 0.19 resulted in a more reasonable range of recharge coefficients of between 70 and 100%. 相似文献
15.
Hydrochemical and hydrological processes in the different landscape zones of alpine cold region in China 总被引:1,自引:1,他引:0
Yong-gang Yang Hong-lang Xiao Song-bing Zou Liang-ju Zhao Mao-xian Zhou Lan-gong Hou Fang Wang 《Environmental Earth Sciences》2012,65(3):609-620
Investigation of water sources and flow pathways is crucial to understand and evaluate the characteristics of surface water
and groundwater systems. This article aims to identify the hydrochemical and hydrological processes in different landscape
zones based on hydrochemical analyses of various samples, including samples from glacier, snow, frozen soil meltwater, surface
water, groundwater, and precipitation, in the alpine cold region of China. Hydrochemical tracers indicated that chemical compositions
are characterized by the Ca-HCO3 type in the glacier-snow zone; the Mg-Ca-SO4 type in the alpine cold desert zone; the Ca-HCO3-SO4 type in the marsh meadow zone; the Ca-Mg-HCO3 type in the alpine shrub zone; and the Ca-Na-SO4 type in the mountain grassland zone. An end-member mixing model was used for hydrograph separation. The results showed that
the Mafengou River in the wet season was recharged by groundwater in the alpine cold desert and alpine shrub zones (67%),
surface runoff in the glacier-snow zone (11%), surface runoff in the alpine cold desert zone (8%), thawed water from frozen
soil in the marsh meadow and mountain grassland zones (9%), and direct precipitation on the river channel (5%). This study
suggests that precipitation from the whole catchment yielded little direct surface runoff; precipitation was mostly transformed
into groundwater or interflow and was then concentrated into the river channel. This study provides a scientific basis for
evaluation and management of water resources in the basin. 相似文献
16.
Groundwater and surface-water interactions and impacts of human activities in the Hailiutu catchment,northwest China 总被引:1,自引:0,他引:1
Zhi Yang Yangxiao Zhou Jochen Wenninger Stefan Uhlenbrook Xusheng Wang Li Wan 《Hydrogeology Journal》2017,25(5):1341-1355
The interactions between groundwater and surface water have been significantly affected by human activities in the semi-arid Hailiutu catchment, northwest China. Several methods were used to investigate the spatial and temporal interactions between groundwater and surface water. Isotopic and chemical analyses of water samples determined that groundwater discharges to the Hailiutu River, and mass balance equations were employed to estimate groundwater seepage rates along the river using chemical profiles. The hydrograph separation method was used to estimate temporal variations of groundwater discharges to the river. A numerical groundwater model was constructed to simulate groundwater discharges along the river and to analyze effects of water use in the catchment. The simulated seepage rates along the river compare reasonably well with the seepage estimates derived from a chemical profile in 2012. The impacts of human activities (river-water diversion and groundwater abstraction) on the river discharge were analyzed by calculating the differences between the simulated natural groundwater discharge and the measured river discharge. Water use associated with the Hailiutu River increased from 1986 to 1991, reached its highest level from 1992 to 2000, and decreased from 2001 onwards. The reduction of river discharge might have negative impacts on the riparian ecosystem and the water availability for downstream users. The interactions between groundwater and surface water as well as the consequences of human activities should be taken into account when implementing sustainable water resources management in the Hailiutu catchment. 相似文献
17.
高寒流域同位素径流分割研究进展 总被引:1,自引:0,他引:1
径流分割是应用水文学中的一个基本问题,同位素径流分割则是采用同位素进行分割的方法,其应用范围已从产流理论研究拓展至地下水地表水相互作用、生态水文过程等多个领域.评述了高寒流域同位素径流分割方法原理及其应用研究进展,突出其对全球变化的指示意义.详细介绍了雪融水稳定同位素变化特征机理,以及加权平均值(VWA)、即时值(CMW)及径流校正(RunCE)等误差处理方法及其优缺点.最后,阐述了高寒流域同位素径流分割的应用前景,指出同位素径流分割可以与GIS软件等结合拓宽其研究的空间尺度、与水化学及人工试验等方法相结合拓展其研究手段,可以结合高寒流域独特地形研究山区产流机制. 相似文献
18.
降水入渗补给地下水是地下水的主要来源。降水入渗补给量的计算方法有多种,依据地下水的运动规律,从陆地水文学原理出发,由天然状态下的逐月河川径流过程,采用一种新的基流分割方法分割基流,由逐月基流过程反推逐月降水入渗补给量,即确定逐月地下水降水入渗补给量。 相似文献
19.
The prospect of changing climate has led to uncertainty about the resilience of forested mountain watersheds in the tropics. In watersheds where frequent, high rainfall provides ample runoff, we often lack understanding of how the system will respond under conditions of decreased rainfall or drought. Factors that govern water supply, such as recharge rates and groundwater storage capacity, may be poorly quantified. This paper describes 8-year data sets of water stable isotope composition (δ2H and δ18O) of precipitation (4 sites) and a stream (1 site), and four contemporaneous stream sample sets of solute chemistry and isotopes, used to investigate watershed response to precipitation inputs in the 1780-ha Río Mameyes basin in the Luquillo Mountains of northeastern Puerto Rico. Extreme δ2H and δ18O values from low-pressure storm systems and the deuterium excess (d-excess) were useful tracers of watershed response in this tropical system. A hydrograph separation experiment performed in June 2011 yielded different but complementary information from stable isotope and solute chemistry data. The hydrograph separation results indicated that 36% of the storm rain that reached the soil surface left the watershed in a very short time as runoff. Weathering-derived solutes indicated near-stream groundwater was displaced into the stream at the beginning of the event, followed by significant dilution. The more biologically active solutes exhibited a net flushing behavior. The d-excess analysis suggested that streamflow typically has a recent rainfall component (∼25%) with transit time less than the sampling resolution of 7 days, and a more well-mixed groundwater component (∼75%). The contemporaneous stream sample sets showed an overall increase in dissolved solute concentrations with decreasing elevation that may be related to groundwater inputs, different geology, and slope position. A considerable amount of water from rain events runs off as quickflow and bypasses subsurface watershed flowpaths, and better understanding of shallow hillslope and deeper groundwater processes in the watershed will require sub-weekly data and detailed transit time modeling. A combined isotopic and solute chemistry approach can guide further studies to a more comprehensive model of the hydrology, and inform decisions for managing water supply with future changes in climate and land use. 相似文献