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1.
华北平原地下水动态及其对不同开采量响应的计算——以河北省栾城县为例 总被引:22,自引:1,他引:22
自从20世纪60年代大规模开采地下水以来,栾城县的地下水位以每年大约0.65 m的速度下降.降雨量的减少、农业产量的大幅度提高、种植结构的变化以及上游水利工程的修建,都与地下水位的下降有着密切联系.利用Visual Modflow软件,在分析该县水文地质条件与水资源利用的前提下,运用三维地下水流模型,通过有限差分方法对栾城县的地下水系统进行了模拟,结果表明:5个观测孔的地下水位计算值与实测值拟合程度很好,模拟出的地下水流场与实际情况基本一致.利用掌握的水文地质资料,进行参数分区,通过实测资料的校正、调参,模拟出各分区参数值.利用校正后的数学模型,对栾城县地下水对不同开采量的响应进行了计算,结果如下:在现状农业开采量1.01×108m3基础上分别减少14%(0.14×108m3)、29%(0.29×108m3)和增加29%(0.29×108m3)的情况下,到12月份5个观测孔的平均地下水位分别比现状地下水位上升了0.33 m,0.64 m和下降了0.45 m. 相似文献
2.
The groundwater table has been declining at a rate of 0.65 m/yr in Luancheng County since large scale groundwater extraction carried out in the 1960s. The drop of precipitation, substantial increase in agricultural output, variations of crop planting structure and construction of water conservancy projects in the headwater area all tie up with the decline of the groundwater table. On the basis of analyzing the hydrogeological conditions and the water resources utilization of Luancheng County, a three-dimensional groundwater flow model was developed to simulate the county’s groundwater flow through finite-difference method using Visual Modflow software. We divide the research field into four parts after analyzing the hydrogeological condition. Based on parameter calibration and adjustment using measured data, the hydraulic conductivity and specific yield were simulated. Using the calibrated model, we analyze the agricultural water saving potentiality and its influence on the groundwater. The results are as follows: (1) if we decrease the amount of water extracted by 0.14×108 m3, the average groundwater table of the five observation wells in December will rise by 0.33 m; (2) if we decrease the water by 0.29× 108 m3, the average groundwater table of the five observation wells in December will rise by 0.64 m; and (3) if we increase the water by 0.29×108 m3, the average groundwater table of the five observation wells in December will decline by 0.45 m. So we can draw a conclusion that controlling the agricultural water use is an important way to prevent the decline of groundwater table. 相似文献
3.
Groundwater resource is vital to the sustainable development of socio-economics in arid and semi-arid regions of Northwest China. An estimation of the groundwater resources variation in Zhangye Basin was made during 1985–2013 based on long-term groundwater observation data and geostatistical method. The results show that from 1985 to 2013, groundwater storage exhibited tremendous dissimilarity on temporal and spatial scale for the whole Zhangye Basin, especially before and after implementation of the water diversion policy. Trend of groundwater storage varied from quick to slow decline or increase. The accumulative groundwater storage decreased nearly 47.52×10~8 m~3, and annual average depletion rate reached 1.64×10~8 m~3/a. Among which, the accumulative groundwater storage of the river and well water mixed irrigation district decreased by 37.48×10~8 m~3, accounting for about 78.87% of the total groundwater depletion of the Zhangye Basin. Accumulative depletion of groundwater storage varied in respective irrigation districts. Though groundwater resources depletion rate slowed down from 2005, the overall storage in the whole basin and respective districts during 1985–2013 was still in a severe deficit such that, the groundwater resource was in a rather negative balance, which could threaten the local aquifer. This is the joint effect of climate change and human activities, however human activities, such as water diversion policy and groundwater exploitation, became increasingly intense. Our research results could provide a reasonable estimation for the groundwater balance in Zhangye Basin, providing a scientific basis for water resources unified planning and, this method can provide a relatively reliable way of estimation for large scale groundwater resources. 相似文献
4.
地下水模型MODFLOW和GIS在华北平原 地下水资源评价中的应用 总被引:2,自引:0,他引:2
从MODFLOW源程序的角度出发,根据地下水模型计算需要的输入输出数据格式和我国GIS类数据以MAPGIS为主的特点,建立了二者之间的集成关系,并将其应用于华北平原地下水资源评价中。根据华北平原特定的水文地质条件,建立了适合本区的三维非稳定流地下水模型,结合2003年12月的实际流场以及随时间变化的动态观测资料对模型的渗透系数、给水度和释水系数等参数进行了校正。同时进行了水均衡分析,结果表明华北平原地下水在2002年1月至2003年12月总补给量为493.74×108m3,总排泄量为565.30×108m3,均衡差为-71.56×108m3,为负均衡。集成了该地下水模型的信息系统,可以通过更新源汇项数据库资料而对地下水资源进行实时评价,为华北平原水资源可持续利用和管理提供依据。 相似文献
5.
本文针对海河南系平原不同时期地下水水位变化引起的能耗增加问题,基于开采井与其影响半径区域内的地下水开采耗能等效的假设,首次推导了浅层地下水耗能计算公式。利用三个不同时期浅层地下水流场的演化特点,结合GIS技术方法,对典型年份 (1964、1984和2001年 )春季农业生产季节地下水开采耗能及其变化进行比较分析。研制了海河南系平原农业春产期浅层地下水耗能空间分布图,分析获得20世纪60年代以来该地区地下水位下降导致开采耗能大幅度增加的态势和空间分布格局,结果表明:从海积平原地区到太行山前平原地区,开采浅层地下水耗能以及耗能差值都呈递增趋势。研究结果对北方地区水价政策等的制订有重要的参考价值,为研究区南水北调后地下水水位回升的社会经济效益评价提供参考。 相似文献
6.
Data from 40 monitoring wells across 9 sections of the lower Tarim River from 2000 to 2006 were analyzed to investigate the relationship between the transmission loss per unit river length and the change in groundwater depth. The relationship between the rise of the groundwater table (y) and the distance from the main river reach (x) was then assessed through regression analysis. We concluded that the maximum affected area was 1933 m away from the main river reach in the Alagan section, and the minimum affected area was 576 m away in the Kaogan section. In addition, after 8 water deliveries, the volume for recharging the groundwater was 78 248.7 × 104 m3. Using the Yingsu section as an example, we found that the volume for recharging the groundwater decreased with additional periods of delivery except after the second and sixth water delivery The results revealed that the beneficial effect of an ecological water conveyance project on the ecosystem in the lower Tarim River is a long-term process. These findings may be useful for guiding studies on instream flow requirements and provide a scientific basis for implementing similar ecological projects in other areas. 相似文献
7.
To study the groundwater dynamic in the typical region of Sanjiang Plain, long-term groundwater level observation data in the Honghe State Farm were collected and analyzed in this paper. The seasonal and long-term groundwater dynamic was explored. From 1996 to 2008, groundwater level kept declining due to intensive exploitation of groundwater resources for rice irrigation. A decline of nearly 5 m was found for almost all the monitoring wells. A time-series method was established to model the groundwater dynamic. Modeled results by time-series model showed that the groundwater level in this region would keep declining according to the current exploitation intensity. A total dropdown of 1.07 m would occur from 2009 to 2012. Time-series model can be used to model and forecast the groundwater dynamic with high accuracy. Measures including control on groundwater exploitation amount and application of water saving irrigation technique should be taken to prevent the continuing declining of groundwater in the Sanjiang Plain. 相似文献
8.
华北平原地下水动态变化 总被引:2,自引:0,他引:2
The groundwater level of 39 observation wells including 35 unconfined wells and 4 confined wells from 2004 to 2006 in North
China Plain (NCP) was monitored using automatic groundwater monitoring data loggers KADEC-MIZU II of Japan. The automatic
groundwater sensors were installed for the corporation project between China and Japan. Combined with the monitoring results
from 2004 to 2006 with the major factors affecting the dynamic patterns of groundwater, such as topography and landform, depth
of groundwater level, exploitation or discharge extent, rivers and lakes, the dynamic regions of NCP groundwater were gotten.
According to the dynamic features of groundwater in NCP, six dynamic patterns of groundwater level were identified, including
discharge pattern in the piedmont plain, lateral recharge-runoff-discharge pattern in the piedmont plain, recharge-discharge
pattern in the central channel zone, precipitation infiltration-evaporation pattern in the shallow groundwater region of the
central plain, lateral recharge-evaporation pattern in the recharge-affected area along the Yellow River and infiltration-discharge-evaporation
pattern in the littoral plain. Based on this, the groundwater fluctuation features of various dynamic patterns were interpreted
and the influencing factors of different dynamic patterns were compared.
Foundation: National Natural Sciences Foundation of China, No.40671034; No.40830636
Author: Wang Shiqin (1981–), Ph.D., specialized in hydrology and water resources, water cycle of watershed. 相似文献
9.
对雷州半岛土壤渗透性进行了分析,并结合地形地貌、降雨入渗补给情况,识别地下水潜在补给区。雷州半岛土壤渗透性空间差异较大,饱和渗透系数变化范围为 0.04~8.83 m/d。总体而言,半岛南部、遂溪西北部渗透性较好,中部较差。土壤渗透系数受到土地利用类型、土壤粒径、土壤有机质等的影响。随着土壤中值粒径和有机质含量的增加,土壤渗透系数增加。不同土地利用类型,其土壤平均渗透性优劣表现为:荒地>桉树林>甘蔗>菜地>菠萝>其他林地>香蕉>苗圃>坡稻>水稻田。降雨入渗补给系数南北高、中间低,随着土壤渗透系数增加而提高。半岛南部石茆岭和石板岭一带,地势高,坡度较缓,同时土壤渗透性和降雨入渗补给系数相对较高,为雷州半岛地下水潜在补给区。 相似文献
10.
地下水深埋区咸水灌溉对土壤盐渍化影响的初步研究——以民勤绿洲为例 总被引:4,自引:0,他引:4
针对民勤绿洲近几十年来大量开采地下水造成地下水位急剧下降,同时大规模开采地下劣质咸水用于农业灌溉的现状,采用咸水沟灌大田试验,就绿洲地下水深埋区(>5 m)咸水灌溉对土壤盐渍化的影响进行了研究。结果表明,在地下水深埋区,灌溉水带入的盐分是土壤表层盐分积累的主要来源;播种前大定额淡水灌溉,土壤明显脱盐,但随着生长季内咸水灌溉及灌溉定额的减少,土壤开始返盐,到生长季末,根区土壤显著积盐,2 g·L-1和5 g·L-1咸水灌溉下土壤的积盐率分别为22.67%和35.30%;高垄覆膜种植方式下,膜上沟灌对沟下土壤盐分淋洗明显,但是在行间非覆膜区盐分强烈聚集;咸水灌溉导致根区土壤pH值升高,碱化度增大,绿洲土壤存在着明显的碱化趋势。 相似文献
11.
黑河流域土地利用变化对地下水资源的影响 总被引:1,自引:0,他引:1
Land use and land cover changes have a great impact on the regional hydrological process. Based on three periods of remote sensing data from the 1960s and the long-term observed data of groundwater from the 1980s, the impacts of land use changes on the groundwater system in the middle reach of Heihe River Basin in recent three decades are analyzed by the perspective of groundwater recharge and discharge system. The results indicate that with the different intensities of land use changes, the impacts on the groundwater recharge were 2.602 × 10^8 m^3/a in the former 15 years (1969-1985) and 0.218 × 10^8 m^3/a in the latter 15 years (1986-2000), and the impacts on the groundwater discharge were 2.035 × 10^8 m^3/a and 4.91 × 10^8 m^3/a respectively. When the groundwater exploitation was in a reasonable range less than 3.0 × 10^8 m^3/a, the land use changes could control the changes of regional groundwater resources. Influenced by the land use changes and the large-scale exploitation in the recent decade, the groundwater resources present apparently regional differences in Zhangye region. Realizing the impact of land use changes on groundwater system and the characteristics of spatial-temporal variations of regional groundwater resources would be very important for reasonably utilizing and managing water and soil resources. 相似文献
12.
塔里木河下游胡杨气体交换特性及其环境解释 总被引:18,自引:9,他引:9
结合塔里木河下游不同地下水埋深下胡杨的气体交换参数及其环境因子的实测结果,探讨地下水位及环境因子对胡杨光合速率(Pn)、蒸腾速率(Tr)、气孔导度(gs)、水分利用效率(WUE)等气体交换参数的影响规律。研究表明:随着地下水位下降,胡杨净光合速率和蒸腾速率日变化最大值提前,地下水埋深越深,净光合速率“双峰”曲线趋势越明显,地下水位4.37 m以上时,蒸腾速率呈“双峰”曲线,当地下水位下降到5.91 m时,蒸腾速率呈“单峰”曲线;低地下水埋深下,光合作用受抑制的主要原因是气孔限制;随着地下水位下降,光合抑制的主要原因则是非气孔限制;适度水分胁迫有利于提高胡杨水分利用效率\.同时,结果显示: 4 m为胡杨的合理生态水位,地下水位为4~5 m时,胡杨受到轻度水分胁迫,低于6 m,胡杨受水分胁迫加剧。 相似文献
13.
黑河流域土地利用变化对地下水资源的影响 总被引:26,自引:0,他引:26
土地利用与覆被变化对区域水文过程具有深刻影响。利用1960s以来的三期遥感数据和1980年以来的地下水长期观测数据, 从地下水补给和排泄系统两方面, 分析了近30年来甘肃省黑河流域中游地区土地利用与覆被变化对地下水系统的影响, 结果表明:以1985年为界, 随土地利用与覆被变化强度不同, 前后15年土地利用变化对地下水系统补给的影响分别达到2.602亿m3/a和0.218亿m3/a, 对排泄系统的影响分别为2.035亿m3/a和4.91亿m3/a, 在保持区域人工开采量不超过3.0亿m3/a的合理幅度下, 土地利用变化对区域地下水资源变化起着决定作用;在区域土地利用与覆被变化和近10年来人类较大规模开采影响下, 甘肃省张掖盆地地下水资源变化出现了显著的区域差异性。认识土地利用变化对流域地下水系统的作用与区域地下水资源的时空变化特征, 对流域水土资源合理利用规划与管理有重要意义。 相似文献
14.
巴丹吉林沙漠地下水流场的宏观特征 总被引:1,自引:0,他引:1
黑河流域下游盆地与周边地区的水力联系是当地生态建设的关键问题。巴丹吉林沙漠与黑河流域下游盆地存在长达180 km的交界线,由于水文地质调查程度低,其地下水的流场不清楚,黑河流域下游天然水均衡账本中存在不确定因素。针对这个问题,在已有水文地质调查基础上,开展了巴丹吉林沙漠区域尺度的水位调查和钻孔勘探,获得461个已知水位点和63个水位约束点,绘制出巴丹吉林沙漠浅层地下水一级近似等水位线图。结果表明:研究区地下水位具有东南高、西北低的特点,水力梯度0.6‰~4.0‰,沙漠东南部地区的湖泊对地下水流场具有扰动作用,但没有改变宏观的地下水流向;第四系松散砂层是巴丹吉林沙漠浅层地下水的主要含水层,根据现有钻孔和物探资料,第四系沉积物在沙漠腹地较厚、边缘较薄,覆盖厚度普遍超过100 m,联通了沙漠和黑河流域下游地区的地下水;巴丹吉林沙漠的地下水补给黑河下游的古日乃湖、额济纳旗平原和拐子湖地区,地下水侧向出境流量为(0.61~1.97)×108 m3·a-1,其中进入古日乃湖平原的流量达到(0.33~1.06)×108 m3·a-1。计算结果仍然受到一些不确定因素的影响。 相似文献
15.
据博斯腾湖流域1958-2010年期间主要河流开都河、黄水沟、清水河、孔雀河的逐年流量资料,结合焉耆盆地降水、蒸发要素的同期观测资料,对大湖区的逐年水量收支进行计算,并依据水量平衡原理对博湖大湖区残差水量进行了逐年分析。结果表明:(1)1958-2010年期间年均入湖水量14.34×108 m3/a,其中入湖河水约占95%;年均输出水量13.96×108 m3/a,其中大湖区输入孔雀河水量约占43%,湖面蒸发耗水量占57%;湖区年均蓄水量71.57±3.92×108 m3108 m3/a,湖水年均水位为1 047.01±0.94 m;(2)极端水文年度水量平衡分析指出:1986年为最枯年份,入湖河水是多年平均值的62%,而出湖河水量是多年平均值的153%,导致年内湖区水位下降0.94 m;2002年最丰年份入湖河水是多年平均值的2.6倍,致使年内水位上升0.80 m;(3)残差水量逐年“正负”变化指出,湖水与地下水之间存在互补关系,过去53 a间湖水补给地下水的年均水量为0.87×108 m3/a。 相似文献
16.
塔里木河下游间歇性输水对土壤水化学的影响 总被引:3,自引:1,他引:2
根据塔里木河下游2000-2006 年11 次间歇性输水影响下沿输水河道两侧地下水埋深、地下水化学组分变化的资料, 结合有关输水的基本资料和土壤盐分含量变化的适时监测数据, 分析了地下水化学特征的变化及影响其变化的各相关因子,结果表明:地下水化学特征的变化呈现明显的阶段性规律, 地下水化学组分的变化与距离输水河道的远近、地下水埋深、河道径流量以及土壤盐分含量之间具有较高的相关性; 地下水埋深在5 m 及5 m 以下时, 地下水化学组分含量较低, 水质较好。而埋深在5 m 时的水位条件能够满足该区域建群种植物的生存, 为输水条件下的理想水位;地下水化学特征变化的阶段性特点和土壤剖面盐分含量的分布规律及其相互关系说明,在当前输水模式下配合面上输水将能更好地促进生态恢复。 相似文献
17.
Hydrogeochemistry of Groundwater and Its Suitability for Drinking and Agricultural Use in Nahavand,Western Iran 总被引:1,自引:0,他引:1
Mohsen Jalali 《Natural Resources Research》2011,20(1):65-73
Groundwater is the major source of drinking water in Nahavand city. However, the groundwater quality at the agricultural areas
has been deteriorating in recent years. Ground water quality monitoring is a tool which provides important information for
water management and sustainable development of the water resources in Nahavand. Hydrochemical investigations were carried
out in an agricultural area in Nahavand, western Iran, to assess chemical composition of groundwater. In this study, 64 representative
groundwater samples were collected from different irrigation wells and analyzed for pH, electrical conductivity, major ions,
and nitrate. The results of the chemical analysis of the groundwater showed that concentrations of ions vary widely and the
most prevalent water type is Ca–Mg–HCO3, followed by other water types: Ca–HCO3, Ca–Na–HCO3, and Na–Cl, which is in relation with their interactions with the geological formations of the basin, dissolution of feldspars
and chloride and bicarbonate minerals, and anthropogenic activities. Thirty-seven percent of the water samples showed nitrate
(NO3
−) concentrations above the human affected value (13 mg L−1). The phosphorous (P) concentration in groundwater was between 0.11 and 0.90 mg L−1, with an average value of 0.30 mg L−1, with all of the samples over 0.05 mg L−1. The most dominant class C2-S1 (76.5%) was found in the studied area, indicating that sodicity is very low and salinity is
medium, and that these waters are suitable for irrigation in almost all soils. Agronomic practices, such as cultivation, cropping,
and irrigation water management may decrease the average NO3
− concentration in water draining from the soil zone. 相似文献
18.
Maki Tsujimur Koichi Ike Tadashi Tanak Lunten Janchivdorj BadamgaravErdenchimeg Damdinbazar Unurjargal Ramasamy Jayakumar 《寒旱区科学》2013,5(1):0126-0132
Drinking water supplies in Ulaanbaatar, the capital of Mongolia, are completely dependent on groundwater sourced from pumping
wells located in an alluvial plain of the Tuul River which flows through Ulaanbaatar. The interaction between groundwater in the
alluvial plain and river surface water was investigated using a hydrological and multi-tracers approach. The observed groundwater
contour map clearly shows that the Tuul River recharges the floodplain groundwater and groundwater flows from east to west.
The similarity of chemical and stable isotopic compositions suggests that groundwater is mainly recharged by Tuul River water in
the vicinity of the river. In addition, considering groundwater contours and chemical composition, groundwater in the northern and
southern mountain sides contribute to floodplain groundwater. Stable isotopic information suggests that winter season precipitation
also contributes to the groundwater, because groundwater in a specific region has a considerably lower isotopic ratio. Using
the End Member Mixing Analysis applying oxygen-18, SiO2 and HCO3
- as tracers, the contribution ratios of the Tuul River,
groundwater in the northern and southern mountain regions, and winter season precipitation to floodplain groundwater are estimated
to be 58% to 85%, 1% to 54%, 0% to 16%, and 0% to 12%, respectively. 相似文献
19.
In the context of climate change and over-exploitation of water resources, water shortage and water pollution in arid regions have become major constraints to local sustainable development. In this study, we established a Soil and Water Assessment Tool (SWAT) model for simulating non-point source (NPS) pollution in the irrigation area of the lower reaches of the Kaidu River Basin, based on spatial and attribute data (2010–2014). Four climate change scenarios (2040–2044) and two agricultural management scenarios were input into the SWAT model to quantify the effects of climate change and agricultural management on solvents and solutes of pollutants in the study area. The simulation results show that compared to the reference period (2010–2014), with a decline in streamflow from the Kaidu River, the average annual irrigation water consumption is expected to decrease by 3.84x108 m3 or 8.87% during the period of 2040–2044. Meanwhile, the average annual total nitrogen (TN) and total phosphorus (TP) in agricultural drainage canals will also increase by 10.50% and 30.06%, respectively. Through the implementation of agricultural management measures, the TN and TP in farmland drainage can be reduced by 14.49% and 16.03%, respectively, reaching 661.56 t and 12.99 t, accordingly, and the increasing water efficiency can save irrigation water consumption by 4.41 x108 m3 or 4.77%. The results indicate that although the water environment in the irrigation area in the lower reaches of the Kaidu River Basin is deteriorating, the situation can be improved by implementing appropriate agricultural production methods. The quantitative analysis results of NPS pollutants in the irrigation area under different scenarios provide a scientific basis for water environmental management in the Kaidu River Basin.
相似文献20.
1 Introduction Ecological environment such as water, soil, etc. are very fragile in the karst area because of the special geological background. With the fast increase of the population and rapid social and economic development in karst area, contradictio… 相似文献