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1.
准确计算地下水的垂向入渗补给量是合理评价和利用地下水资源的基础.EARTH模型是一种集中参数的水文模型,可刻画水流在包气带中的运移过程,弥补黑箱模型的不足.以中国科学院栾城农业生态试验站的地下水位观测资料以及气象资料为基础,综合运用降水、蒸发、土壤水、地下水动态观测资料,利用EARTH模型计算了河北平原地下水垂向入渗补给量.计算结果表明,2003年1月1日至2005年8月31日期间,栾城农业生态试验站在降水量1404.1 mm、灌溉量1050.0 mm的条件下地下水入渗补给量为487.2 mm,平均年入渗补给量为182.6 mm, 占降水和灌溉总量(2454.1 mm)的19.9%.在模拟结果的基础上,对不同年份的降水量(含灌溉)和入渗补给量分布的对比分析表明,河北栾城地下水补给滞后现象明显,在研究时间段内峰值滞后18~35 d.  相似文献   

2.
Although shallow groundwater (<50 mbgl) sustains the vast majority of improved drinking-water supplies in rural Africa, there is little information on how resilient this resource may be to future changes in climate. This study presents results of a groundwater survey using stable isotopes, CFCs, SF6, and 3H across different climatic zones (annual rainfall 400–2,000 mm/year) in West Africa. The purpose was to quantify the residence times of shallow groundwaters in sedimentary and basement aquifers, and investigate the relationship between groundwater resources and climate. Stable-isotope results indicate that most shallow groundwaters are recharged rapidly following rainfall, showing little evidence of evaporation prior to recharge. Chloride mass-balance results indicate that within the arid areas (<400 mm annual rainfall) there is recharge of up to 20 mm/year. Age tracers show that most groundwaters have mean residence times (MRTs) of 32–65 years, with comparable MRTs in the different climate zones. Similar MRTs measured in both the sedimentary and basement aquifers suggest similar hydraulic diffusivity and significant groundwater storage within the shallow basement. This suggests there is considerable resilience to short-term inter-annual variation in rainfall and recharge, and rural groundwater resources are likely to sustain diffuse, low volume abstraction.  相似文献   

3.
巴丹吉林高大沙山表层孔隙水现象的疑义   总被引:12,自引:0,他引:12       下载免费PDF全文
1997-2003年对巴丹吉林沙漠中不同位置共7个高大沙山和1个流动沙丘表层2m内的孔隙水情况用常规方法作了观测,每年均在相近日期进行。孔隙水量随深度而增大,历年观测期间2m附近的体积含水量约3%,达到相应实测最大持水量的约65%或更高,25cm至1m孔隙水δ18O的正值表明它经过了反复补给-蒸发过程。观测了雨后入渗深度及其在沙丘120m坡面上的分布,另由历年短期能量平衡测验获得沙山陆面蒸发和凝结概念。认为当地年降水量和凝结量不足以对沙山2m表层内的孔隙水现象作出解释,疑另有与大尺度地下水系统相关的补给源。  相似文献   

4.
The groundwater table in the piedmont plain was only about 1–2 m in depth in the 1950s and 1960s, but it lowered dramatically afterwards to about 25–27 m in depth (currently 21–23 m above sea level) due to overpumping of groundwater and drought in the region. This change has adversely affected the sustainable development and food supply of this important agricultural area. The groundwater table at Luancheng Experimental Station of the Chinese Academy of Sciences, located in the piedmont, dropped from 39.36 m in 1975 to 21.47 m above sea level in 1999, at an average rate of 0.72 m/year. Water balance components, such as daily rainfall, pan-evaporation, and evapotranspiration (by lysimeter after 1995) have been recorded since the 1970s, and they were used as variants to simulate monthly water table change based on a physically based statistical model. Groundwater samples were collected during the period 1998–2001, and tritium was measured in the laboratory to trace the groundwater flow from the Taihang Mountains to the piedmont. A reasonable exploitation rate of 150 mm/year was obtained from the model by assuming the annual water table is constant. The recharge and groundwater flow from the Taihang Mountains plays an important role in the water balance of the piedmont area, and it was estimated to be about 112.5 mm/year by using the variation of tritium with the depth, which followed a good exponential function. The simple water balance calculation indicated that the water table could recede at a rate of 0.8 m/year, which is close to the actual situation.  相似文献   

5.
Rainfall is one of the pivotal climatic variables, which influence spatio-temporal patterns of water availability. In this study, we have attempted to understand the interannual long-term trend analysis of the daily rainfall events of ≥?2.5 mm and rainfall events of extreme threshold, over the Western Ghats and coastal region of Karnataka. High spatial resolution (0.25°?×?0.25°) daily gridded rainfall data set of Indian Meteorological Department was used for this study. Thirty-eight grid points in the study area was selected to analyze the daily precipitation for 113 years (1901–2013). Grid points were divided into two zones: low land (exposed to the sea and low elevated area/coastal region) and high land (interior from the sea and high elevated area/Western Ghats). The indices were selected from the list of climate change indices recommended by ETCCDI and are based on annual rainfall total (RR), yearly 1-day maximum rainfall, consecutive wet days (≥?2.5 mm), Simple Daily Intensity Index (SDII), annual frequency of very heavy rainfall (≥?100 mm), frequency of very heavy rainfall (≥?65–100 mm), moderate rainfall (≥?2.5–65 mm), frequency of medium rainfall (≥?40–65 mm), and frequency of low rainfall (≥?20–40 mm). Mann-Kendall test was applied to the nine rainfall indices, and Theil-Sen estimator perceived the nature and the magnitude of slope in rainfall indices. The results show contrasting trends in the extreme rainfall indices in low land and high land regions. The changes in daily rainfall events in the low land region primarily indicate statistically significant positive trends in the annual total rainfall, yearly 1-day maximum rainfall, SDII, frequency of very heavy rainfall, and heavy rainfall as well as medium rainfall events. Furthermore, the overall annual rainfall strongly correlated with all the rainfall indices in both regions, especially with indices that represent heavy rainfall events which is responsible for the total increase of rainfall.  相似文献   

6.
Sustainable groundwater management requires knowledge of recharge. Recharge is also an important parameter in groundwater flow and transport models. Spatial variation in recharge due to distributed land-us.e, soil texture, topography, groundwater level, and hydrometeorological conditions should be accounted for in recharge estimation. However, conventional point-estimates of recharge are not easily extrapolated or regionalized. In this study, a spatially distributed water balance model WetSpass was used to simulate long-term average recharge using land-use, soil texture, topography, and hydrometeorological parameters in Dire Dawa, a semiarid region of Ethiopia. WetSpass is a physically based methodology for estimation of the long-term average spatial distribution of surface runoff, actual evapotranspiration, and groundwater recharge. The long-term temporal and spatial average annual rainfall of 626 mm was distributed as: surface runoff of 126 mm (20%), evapotranspiration of 468 mm (75%), and recharge of 28 mm (5%). This recharge corresponds to 817 l/s for the 920.12 km2 study area, which is less than the often-assumed 1,000 l/s recharge for the Dire Dawa groundwater catchment.  相似文献   

7.
Towards hydrological triggering mechanisms of large deep-seated landslides   总被引:3,自引:3,他引:0  
It is a widely accepted idea that hydrologically triggered deep-seated landslides are initiated by an increase in pore-water pressure on potential slip surface induced by rising groundwater level after prolonged period of intense rainfall although the process is not fully understood. In order to contribute to better understanding, the rainfall–groundwater relationships, hydrogeological monitoring and repeated geoelectrical imaging were carried out from March 2007 to April 2011 in large deep-seated landslide near ?ubietová (Western Carpathians) catastrophically reactivated at the end of February 1977. Based on our observations, groundwater level (GWL) response to precipitation differs considerably with respect to both overall hydrological conditions and GWL mean depth. While the rate of GWL increase up to 25 cm/day were measured after some rainfall events during wet periods, noticeably lower recharge rate (up to 1–2 cm/day) and delayed GWL response to rainfall (usually from 2 weeks to 2–4 months) were observed at the beginning of the wet season after considerable depression of GWLs due to previous effective rainfall deficit. Likewise, slow GWL fluctuations without short-term oscillations are typical for deeper GWLs. Thus, long-term (several seasons to several years) hydrological conditions affect markedly groundwater response to rainfall events in the studied landslide and can be crucial for its behaviour. Comparison of hydrological conditions characterising the analysed period with those that accompanied the landslide reactivation in 1977 allow us to assume that slightly above-average rainy season following the prolonged wet period can be far more responsible for movement acceleration (and possibly failure initiation) in deep landslides than the isolated season of extreme precipitation following a longer dry period. This is true especially for landslides in regions with significant seasonal temperature changes where potential effective precipitation (PEP), calculated as excess of precipitation (P) over potential evapotranspiration (PET), may be efficiently used for estimation of slope saturation condition.  相似文献   

8.
随着西北旱区生态恢复工程的实施,该区生态环境持续改善,植被盖度不断增加。但植被冠层截留与蒸腾耗水加剧了包气带水分的亏空程度,减小了降雨对地下水的补给。采用原位试验方法,分析了植被覆盖区和裸土区不同深度土壤水势的变化规律。结果表明,受蒸发和蒸腾的共同作用,植被覆盖区平均土壤水势(-74k Pa)远低于裸土区(-16k Pa),且变化剧烈,土壤水以向上运动为主。而裸土区土壤水势高,变化小,40cm以下土壤水向下运移,因此可以持续补给地下水。采用Hydrus-1D软件进行了长序列土壤水数值模拟,定量分析了植被盖度增加与地下水补给的关系。数值模拟结果表明,在裸土条件下,降雨对地下水的补给量介于82~333mm/a之间,平均值为197mm/a,平均降水入渗补给系数为0.53。而在植被覆盖的情况下,地下水的补给量几乎为0。最后,从植被蒸腾耗水和冠层降水截留2个方面讨论了旱区植被盖度增加对降雨入渗补给地下水的影响,提出了旱区水与生态和谐发展的建议。  相似文献   

9.
With regard to extreme events, it is well documented that an intensity of about 1 mm/min already represents an extreme intensity. Under alpine conditions, a precipitation event with an intensity of 3 mm/min has occurred. Therefore, the rain gauges in this region have to be able to measure in this and even in higher intensity ranges. This study deals with basic automated tipping-bucket rain (TBR) gauge and Bulk precipitation samplers, which are able to hold more than 95 % of the cumulative rainfall, that are verified within the space of the week without losses during the extreme events and with minimal evaporation loss. Bulk samplers collected more rainfall than TBR gauges in 110 of 221 extreme events analysed over the past 10 years. In 17 extreme events, an underestimation greater than 10 % was evaluated. The objective was to single out the counting errors associated with TBR gauge, during extreme events, so as to help the understanding of the measured differences between instruments in the field. We want to determine whether the automated precipitation gauge can provide a reliable and precise measurement of precipitation with particular interest regarding heavy and extreme events.  相似文献   

10.
降水入渗补给地下水滞后时间分析探讨   总被引:5,自引:0,他引:5  
王政友 《水文》2011,31(2):42-45
利用地中蒸渗计多年资料,对不同岩性、不同埋深的蒸渗计降水入渗补给地下水滞后时间进行了分析。认为不同埋深、不同岩性的降水入渗补给地下水滞后时间随着降水特性、前期含水量的不同,表现为不同的时间段,降水入渗补给地下水滞后时间与地下水埋深符合乘幂关系,并推出了相应的数学模型。  相似文献   

11.
通过对京津以南河北平原年降水量、地下水补给量和农业开采量三者动态规律及其互动关系研究表明, 年降水量减增, 同期地下水补给量与开采量呈互逆变化规律, 即降水量减小, 补给量变少, 开采量增大; 年降水量增大, 补给量较多, 开采量减小.在连续枯(丰) 水年份, 当年降水量减少(增加) 10mm时, 则地下水系统水量减少7.08 (增加7.06) mm, 水位下降(上升) 5.2~8.7cm; 在10~320mm变幅内, 当年降水量减少(增加) 10%时, 则地下水系统水量减少7.98 (增加7.67) %.气候旱化过程中降水变化对引起补给量减少和开采量增加的幅度, 大于气候增雨过程中降水变化对补给量增大和开采量减少的影响程度.因此, 需要重视连续枯水年份降水变化对地下水系统影响的应对举措, 这对于提高我国北方区域地下水资源供给安全保障具有重大意义.   相似文献   

12.
The effects of climate change on the groundwater systems in the Grote-Nete catchment, Belgium, covering an area of 525 km2, is modeled using wet (greenhouse), cold or NATCC (North Atlantic Thermohaline Circulation Change) and dry climate scenarios. Low, central and high estimates of temperature changes are adopted for wet scenarios. Seasonal and annual water balance components including groundwater recharge are simulated using the WetSpass model, while mean annual groundwater elevations and discharge are simulated with a steady-state MODFLOW groundwater model. WetSpass results for the wet scenarios show that wet winters and drier summers are expected relative to the present situation. MODFLOW results for wet high scenario show groundwater levels increase by as much as 79 cm, which could affect the distribution and species richness of meadows. Results obtained for cold scenarios depict drier winters and wetter summers relative to the present. The dry scenarios predict dry conditions for the whole year. There is no recharge during the summer, which is mainly attributed to high evapotranspiration rates by forests and low precipitation. Average annual groundwater levels drop by 0.5 m, with maximum of 3.1 m on the eastern part of the Campine Plateau. This could endanger aquatic ecosystem, shrubs, and crop production.  相似文献   

13.
黄土中水分迁移规律现场试验研究   总被引:7,自引:0,他引:7  
黄土地区降雨诱发滑坡是不争的事实,但黄土地区地下水位很深,降雨入渗地面后如何运移,与地下水有无直接联系,目前还不是很清楚。为此设计了人工滴水试验模拟天然降雨条件,通过在一深度为10 m的探井井壁上埋设土壤水分计,观测人工滴水入渗过程中不同深度土体含水率随时间的变化情况,以确定其入渗影响深度。监测结果显示:降雨量为3.82 mm/d (小雨)时,0.5 m内土体含水率变化明显,0.5 m以下土层含水率几乎没有变化;降雨量为10.31 mm/d(中雨)时,1 m内土体含水率有所增加;降雨量达25.21 mm/d(大雨)时,1 m内土体含水率增长明显,1.0~1.6 m范围内有微弱增长;随着深度增加,土体含水率变化逐渐滞后,增幅逐渐减小。这说明在干旱的黄土地区,若无明显入水通道,短期内降雨的入渗深度有限,很难到达地下水位;但深部古土壤层的观测结果表明,即使在其上部黄土中含水率变化极其微弱的情况下,古土壤中的含水率上升明显,表明黄土中非饱和渗流或水汽迁移是存在的。通过试验还表明,陇东黄土高原地区土壤中水分循环主要发生在浅层0.7 m以内的蒸发带。降雨入渗到蒸发带以内,若无后续降雨补给,则向上蒸发排泄;若入渗至蒸发带以下,则不受蒸发影响,得以继续向下迁移;当遇到不透水面时,会在层面附近富集,有限元模拟也较好地反映了这一规律。  相似文献   

14.
为弄清阿拉善沙漠湿沙层的水分来源,在该地区进行了人工模拟降水入渗的示踪试验。模拟单次降水量为59 mm,观察剖面最大入渗深度仅为46 cm,这一结果表明该地区的降水几乎不能通过沙层入渗到地下水中。对4个沙丘湿沙层剖面中不同深度的含水率、Cl-、δD与δ18O进行了分析,数据显示在蒸发能力极强的阿拉善地区,地下水是以薄膜水的形式,通过蒸发、凝结向地表运动,最终蒸发排泄。泉水、井水、湖水与土壤水中的同位素特征表明具有相同的补给源,均来自于地下水。推断横穿阿拉善地块的杂多-雅布赖断裂带与狼山-日喀则断裂带中可能存在地下水深循环通道,青藏高原河流、湖泊的渗漏水可能是阿拉善地下水的主要补给源。  相似文献   

15.
In the cool temperate region of South Korea, oxygen and hydrogen isotopes of groundwater, lake water, and precipitation were studied to determine the season of groundwater recharge. All the groundwater samples, irrespective of season, on δ18O–δ2H scale plotted along the summer precipitation, suggesting summer precipitation largely modulates recharge. The deuterium excess values of groundwater (d-excess) show clear seasonal difference, higher in winter (> 18‰) and lower in summer (< 10‰). And its resemblance to the summer precipitation d-excess value further suggests dominant role of summer precipitation in groundwater recharge. Based on the mass balance equation, with end-member d-excess values of seasonal precipitation and groundwater as input variables, groundwater is composed of 66% summer and 34% winter precipitation. Despite the study area being heavily forested, summer rainfall contribution higher than winter suggests that evapotranspiration effect is minimal in the region; may be due to thin sand–gravel-based porous soil overlying highly weathered granitic rock system.  相似文献   

16.
西北内陆盆地降水稀少,一年中有较长时间的冻结期,了解其降水入渗补给规律的季节性变化对于准确评估其地下水资源量和解释气候变化对其地下水补给的影响非常重要。采用新疆昌吉地下水均衡试验站27套地中蒸渗仪1992—2015年试验资料,应用拉依达法则筛选出长系列观测资料中的异常值,结合昌吉试验场相关气象要素观测资料划分西北内陆盆地冻结期、冻融期和非冻结期的时间区间,分析不同时期影响降水入渗补给地下水的主要因素;计算不同时期多年平均降水入渗补给量占多年平均年降水入渗补给量的百分比,确定不同季节对年降水入渗补给的重要性;依据多年平均降水入渗补给量随潜水埋深的变化规律,确定冻融期、非冻结期不同土质降水入渗的最佳潜水埋深。结果表明:在试验条件下,砂卵砾石和细砂非冻结期最佳潜水埋深为0.5 m,轻黏土非冻结期最佳潜水埋深0.1 m;细砂冻融期最佳潜水埋深为1.0 m,砂卵砾石冻融期最佳潜水埋深为0.5 m,轻黏土冻融期最佳潜水埋深为0.1 m;冻结期地下水位埋深对土壤入渗能力的影响十分明显,潜水埋深和降水入渗补给量之间没有显著的线性关系;冻融期是西北内陆盆地浅埋型地下水降水入渗补给的重要时期,冻结期是西北内陆盆地深埋型地下水降水入渗补给的重要时期。  相似文献   

17.
Groundwater recharge is an important component to hydrologic studies but is known to vary considerably across the landscape. The purpose of this study was to examine 4 years of water-level behavior in a transect of four water-table wells installed at Walnut Creek, Iowa, USA to evaluate how groundwater recharge varied along a topographic gradient. The amount of daily water-table rise (WTR) in the wells was summed at monthly and annual scales and estimates of specific yield (Sy) were used to convert the WTR to recharge. At the floodplain site, Sy was estimated from the ratio of WTR to total rainfall and in the uplands was based on the ratio of baseflow to WTR. In the floodplain, where the water table is shallow, recharge occurred throughout the year whenever precipitation occurred. In upland areas where the water table was deeper, WTR occurred in a stepped fashion and varied by season. Results indicated that the greatest amount of water-table rise over the 4-year period was observed in the floodplain (379 mm), followed by the upland (211 mm) and sideslopes (122 mm). Incorporating spatial variability in recharge in a watershed will improve groundwater resource evaluation and flow and transport modeling.  相似文献   

18.
通过1989~1995年新疆乌拉泊水均衡试验场潜水埋深4m处包气带凝结水对地下水补给的观测:卵砾石2.58mm/a、细砾3.15mm/a、中砂9.90mm/a、细砂35..87mm/a、粉土10.04mm/a。最有利于包气带凝结水形成的时间是每年的4~9月;包气带凝结水量的大小与土体颗粒相对比表面积和渗透系数相关,推测粉砂的凝结水量约为20mm/a,粘性土小于10mm/a;凝结水对地下水补给的最大量约为50mm/a。综合气候和水文地质条件分析,认为本试验研究成果在我国西北干旱区具有代表性,估算西北地区凝结水对地下水的总补给量大于3×1010m3/a,可能大于平原降水入渗量,在某些区域可能是最主要的地下水补给源。  相似文献   

19.
This study aims to characterise the hydrogeology and hydrochemistry of the Parmelia aquifer and to understand controls on recent water-level changes as these are needed to underpin a quantitative analysis of recharge. The Parmelia aquifer, a layered sequence of sand, silt and discontinuous lenses of clay, receives diffuse rainfall recharge on its outcrop and groundwater recharge occurs across the Dandaragan Plateau at different rates. Water levels have risen steadily over the last three decades between 10 and 55 cm/y in response to the replacement of native vegetation with pasture and annual crops. The mean aquifer properties from sediment analyses indicate a very wide range of porosity (8.9 – 49.5 %) with an arithmetic mean of 26% and consequently a very broad range of specific yield (0.0004 – 0.4) with an arithmetic mean of 0.14. Groundwater in the Parmelia aquifer has an underlying meteoric origin with compositional changes due to reactions with silicate minerals and leaching of chloride that has concentrated in the soil by evapotranspiration. The hydrochemistry sampled at different depths and locations in the aquifer indicates that the groundwater is not well mixed, and variations arise due to relatively recent recharge that has undergone evaporation in some areas.  相似文献   

20.
Groundwater recharge sets a constraint on aquifer water balance in the context of water management. Historical data on groundwater and other relevant hydrological processes can be used to understand the effects of climatic variability on recharge, but such data sets are rare. The climate of the Canadian prairies is characterized by large inter-annual and inter-decadal variability in precipitation, which provides opportunities to examine the response of groundwater recharge to changes in meteorological conditions. A decadal study was conducted in a small (250 km2) prairie watershed in Alberta, Canada. Relative magnitude of annual recharge, indicated by water-level rise, was significantly correlated with a combination of growing-season precipitation and snowmelt runoff, which drives depression-focussed infiltration of meltwater. Annual precipitation was greater than vapour flux at an experimental site in some years and smaller in other years. On average precipitation minus vapour flux was 10 mm y?1, which was comparable to the magnitude of watershed-scale groundwater recharge estimated from creek baseflow. Average baseflow showed a distinct shift from a low value (4 mm y?1) in 1982–1995 to a high value (15 mm y?1) in 2003–2013, indicating the sensitivity of groundwater recharge to a decadal-scale variability of meteorological conditions.  相似文献   

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