焦作市地下水资源保护与利用研究

焦作市是以地下水作为供水水源的城市。近年来, 由于降雨量的减小、河流流量减小或断流、地下水开采量的增大和地下水污染等原因, 造成了地下水位逐渐下降, 地下水资源减少。本文在阐明影响地下水资源因素的基础上, 提出了地下水资源保护与利用的对策, 即: 防治水污染, 污水资源化; 排水、供水、环保结合的优化管理; 加强水资源价费改革; 节约用水。      

Groundwater pricing for farms and water user association sustainability

Tunisia has invested heavily in irrigation schemes to secure water supply. The management of irrigation systems has been denied to local water user associations (WUA). These WUAs are assimilated to a natural monopoly. They sell water to farmers at the unit operational cost (marginal production cost). Such a price does not allow for budgetary balance, which leads to a chronic deficit of these WUA. It also does not reflect the scarcity of the resource, a situation that contributed to irrigated area expansion, an increase in the agricultural water demand, and misallocation of the resource. Low cost recovery results in poor maintenance, infrastructure deterioration, and water distribution inefficiency. The purpose of this paper is two folds: (i) to propose an alternative price scheme which ensures cost recovery and water use efficiency and (ii) to examine the impact of this new price on the farms’ surplus. To achieve this goal, we assumed that irrigation’s water price increase will be necessary. A field survey of 75 farmers in the center of Tunisia was conducted to estimate the irrigation water demand function. We also used the data collected on 36 WUAs in the region to estimate the irrigation water production cost function using the OLS method for both demand and cost functions, and the peak and the non-peak irrigated demand functions (i.e., summer and winter). The methodology consisted of maximizing social surplus to derive optimal prices for both seasons. The main results show that an increase in price in the range of 11 to 15 % in the winter and 50 to 75 % in the summer results in 11 % decrease of the annual quantity consumed and in a 2 % increase in the social surplus.     

The economics of optimal urban groundwater management in southwestern USA

Groundwater serves as the primary water source for approximately 80% of public water systems in the United States, and for many more as a secondary source. Traditionally management relies on groundwater to meet rising demand by increasing supply, but climate uncertainty and population growth require more judicious management to achieve efficiency and sustainability. Over-pumping leads to groundwater overdraft and jeopardizes the ability of future users to depend on the resource. Optimal urban groundwater pumping can play a role in solving this conundrum. This paper investigates to what extent and under what circumstances controlled pumping improves social welfare. It considers management in a hydro-economic framework and finds the optimal pumping path and the optimal price path. These allow for the identification of the social benefit of controlled pumping, and the scarcity rent, which is one tool to sustainably manage groundwater resources. The model is numerically illustrated with a case study from Albuquerque, New Mexico (USA). The Albuquerque results indicate that, in the presence of strong demand growth, controlled pumping improves social welfare by 22%, extends use of the resource, and provides planners with a mechanism to advance the economic sustainability of groundwater.     

水势理论在四水转化研究中应用时代特征与趋势:纪念ZFP方法引进我国30周年

20世纪80年代零通量面方法在我国应用中解决了"四水"转化研究中参数不确定性带来的问题,发现在降水入渗补给地下水过程中土壤总水势梯度大于1.0cm H2O/cm,且逐渐降低,流入、流出被监测土层的水量相等时土壤总水势梯度趋近于1.0cm H2O/cm。20世纪90年代,利用土壤水势与含水量之间量化关系,指导了农业节水灌溉,提出在灌溉过程中土壤水势梯度等于1.0cm H2O/cm的时间持续愈长,表明过剩灌溉而浪费的水量愈多的认识。进入21世纪以来,水势理论较广泛地用来解决土壤水盐分运移数值模拟与入渗模型中水文地质参数问题和降水入渗土壤水势运移微观机理研究,并发现表聚型、中聚型和底聚型土壤盐分剖面的水动力学特征。通过土壤水动力场调控改变土壤水盐(养分或污染物)运移是未来重要研究方向。     

河西走廊内陆河流域农户地下水使用的影响因素分析

在农业与生态系统用水相矛盾的干旱内陆区,地下水过度开采导致生态环境急剧恶化。以往对地下水的管理,以政府直接控制地下水使用为主,但效果并不十分理想,或管理成本较大。因此,寻求间接调控地下水使用的措施成为更好的选择。以河西走廊的石羊河、黑河和疏勒河流域为例,以农户问卷调查数据为依据,探究影响农户使用地下水的关键因素,以寻求通过制定更有针对性的政策来影响农户节约并高效利用地下水,最终达到农户自下而上自发节水的效果。分析结果发现：农户对地下水的使用在不同阶段有不同的特征,但均强烈地依赖于地表水供给,地表水供给每增加1个轮次,单位公顷耕地地表水用量会增加237.3 m³,相应会减少795.2 m³的地下水,整体上平均减少504.1 m³的总用水量,地下水占灌溉总用水的比例也会下降3.7%。此外,地下水的使用还与家庭经营规模、经营模式、地下水供给条件及经营者偏好等因素密切相关。因此,政府应根据流域内地表水与地下水的综合条件和特点,结合农业生产特征和农户偏好,因地制宜制定政府主导的管理政策与农户自我调节能力有效结合的开发治理制度和方案,切实实现区域水资源节约与高效利用双重目标。     

Hydrogeochemical characteristics of surface water (SW) and groundwater (GW) of the Chinnaeru River basin,northern part of Nalgonda District,Andhra Pradesh,India

Groundwater and surface water samples from 47 locations (28 groundwater, 10 tanks and 9 stream channel) were collected during the pre-monsoon (May–June) and post-monsoon season (November) from Chinnaeru River basin. Chinnaeru River basin is situated 30 km east of Hyderabad City and its area covers 250 km² and falls in the Survey of India Toposheet No. 56 K/15. The extensive agricultural, industrial and urbanization activities resulted in the contamination of the aquifer. To study the contamination of groundwater, water samples were collected from an area and analyzed for major cations and anions. Various widely accepted methods such as salinity, sodium absorption ratio, Kelly’s ratio, residual sodium carbonate, soluble sodium percentage, permeability index and water quality index are used to classify groundwater and surface water (tank and stream) for drinking as well as irrigation purposes. Besides this, Piper trilinear diagram, Wilcox diagram, Doneen’s classification and Gibb’s plot were studied for geochemical controls, and hydrogeochemistry of groundwater and surface water samples were studied.     

既地下水采补平衡又冬小麦稳产的探讨

河北省太行山山前平原浅层地下水位持续下降,问题十分突出,然而,该区域又是我国优质冬小麦的重要产区。能否实现在浅层地下水采补平衡的同时做到冬小麦稳产,是该区域水资源保护和农业生产管理工作中亟待回答的重要问题。基于分布式水文模型的模拟结果表明:在该区域若要实现地下水位止降回升这一压采目标,仅利用浅层地下水进行灌溉,冬小麦的产量会减少40%以上。考虑到南水北调中线工程的引水线路自南向北贯穿河北省太行山山前平原,建议在冬小麦关键需水期的灌溉中采用“一水用浅层地下水另一水用南水北调水”的“修改的春浇两水”模式。基于模拟结果的估算表明:在这种限水灌溉模式下有望实现浅层地下水采补基本平衡且冬小麦基本稳产。值得注意的是,这种“修改的春浇两水”模式,需要南水北调中线引水工程每年提供的灌溉水量大约为8.6×108 m3,灌溉成本较纯井灌至少增加562.5～1282.5元/hm2。本研究可为我国最典型的浅层地下水超采区——河北省太行山山前平原探索保产量与节水并举的新路径提供定量化的参考。     

内蒙古河套灌区浅层地下水化学特征和灌溉适宜性分析

随着黄河流域水资源供需矛盾加剧,我国特大型灌区——内蒙古河套灌区开始采用黄河水与地下水相结合的方式进行农业灌溉。本研究采集河套灌区内499组地下水样品和1组黄河水样品,在分析地下水和黄河水样品的水化学特征基础上,运用钠吸附比(SAR)、渗透指数(PI)、钠含量(SC)和残余碳酸钠(RSC)以及《农田灌溉水质标准(GB 5084—2021)》对地下水和黄河水的灌溉适宜性进行对比分析。结果表明,地下水与黄河水均为弱碱性水,Ca²⁺和HC0₃^-为优势离子,Gibbs图显示地下水受到岩石风化淋溶和蒸发浓缩的双重影响,对灌溉适宜性影响较大的钠盐主要来自岩盐溶解。灌溉适宜性分析结果表明,从SAR、PI和RSC指标来看,地下水的灌溉适宜性较好,从SC指标来看,不适宜灌溉的地下水主要分布在灌区北部总排干和灌区南部黄河沿岸;根据农田灌溉水质标准分析,除总砷和氯化物两项指标外,其余指标适宜灌溉样品占比均高于90%,综合评价全区共231组地下水样品适宜灌溉。地下水与黄河水灌溉适宜性对比表明,黄河水的SAR和SC指标灌溉适宜性分析结果较好,地下水的PI和RSC指标灌溉适宜性分析结果较好,根据灌溉水质标准显示黄河水所有指标均适宜灌溉。本研究为日后内蒙古河套灌区合理选用灌溉水源提供数据支撑,为该区域地下水的治理与防控提供科学依据。     

水源热泵系统对地下水流系统的影响评价

地下水水源热泵系统是一种"绿色"利用资源与能源方式,它对地下水流系统的影响程度,关系到水源热泵系统建设的可行性.依据实例中的地下水抽水与回灌试验数据,利用数值模拟模型,定量研究水源热泵系统对地下水流系统的影响程度,为水源热泵系统建设中水资源保护,提供技术支撑.     

Estimation of unrecorded groundwater abstractions in Jordan through regional groundwater modelling

Jordan suffers from water scarcity and groundwater covers the majority of Jordan’s water supply. Therefore, there is an urgent need to manage this resource conscientiously. A regional numerical groundwater flow model, developed as part of a decision support system for the country of Jordan, allows for quantification of the overexploitation of groundwater resources and enables determination of the extent of unrecorded agricultural groundwater abstraction. Groundwater in Jordan is abstracted from three main aquifers partly separated by aquitards. With updated geological, structural, and hydrogeological data available in the country, a regional numerical groundwater flow model for the whole of Jordan and the southernmost part of Syria was developed using MODFLOW. It was first calibrated for a steady-state condition using data from the 1960s, when groundwater abstraction was negligible. After transient calibration using groundwater level measurements from all aquifers, model results reproduce the large groundwater-level declines experienced in the last decades, which have led to the drying out of numerous springs. They show a reversal of groundwater flow directions in some regions, due to over-abstraction, and demonstrate that documented abstractions are not sufficient to cause the observed groundwater-level decline. Only after considering irrigation water demand derived from remote sensing data, the model is able to simulate these declines. Illegal abstractions can be quantified and predictive scenarios show the potential impact of different management strategies on future groundwater resources.

     

石羊河流域水资源开发利用与补给之间的协调性评判

在甘肃省石羊河流域历史水资源开发利用情况简述基础上,结合城镇化进程,提出目前武威市的农业用水来源于祁连山山前水库拦蓄地表水,景电二期延伸工程向民勤所调黄河水及部分地方开采地下水;工业、生活用水均取自地下水,水量供给与天然补给上已处于严重失调状态。就城市地下水源地保护区划分而言,以传统的地下水开采影响半径为基本依据所进行的现代地下水源地保护区划分是不合理、不够科学的,应当在地下水补给、径流、排泄条件分析基础上,将水源地上游整个流域划定为保护区,以永久性解决城市地下水供水中存在的水源地安全问题。另外,针对石羊河流域重点治理规划中的调水方案,比较科学、合理的做法是：应从石羊河流域地下水文地质条件出发,遵循第四世地质历史时期形成的地下水补给、径流、排泄通道,在全流域实施压减灌溉面积、减少地下水开采量的同时,将景电二期延伸工程所调黄河水与祁连山山前部分水库地表水部分地或全部地从石羊河上游———武威盆地上游区域通过灌溉或其它方式下渗,补给进入地下水系统中,最终达到六河水系及下游地下水位停止下降,石羊河下游民勤盆地地下水位持续回升的综合治理规划目标,而不是将水直接调入下游民勤盆地。     

Water quality in Lemoa, Guatemala

A variety of water supply sources are used in the rural Guatemalan Highlands. Formal municipal systems are rare, but villagers frequently form local water committees that construct spring-based supply systems. Recent work has indicated that groundwater may be a viable water supply source. The water quality from these two sources was characterized as well as water from other common sources including surface water and precipitation collection systems. Typically, all of the water sources contained unacceptable levels of coliform bacteria except for groundwater from a drilled well. Water monitoring indicated that not only did the water contain coliforms at the actual sources, but the infrastructure used to transmit the water to points of use may also be a source of coliforms. A cost comparison indicates that groundwater may be a cost-competitive, higher quality alternative to traditional spring-fed water systems.     

Groundwater simulation using a numerical model under different water resources management scenarios in an arid region of China

Groundwater plays an important role in the economic development and ecological balance of the arid area of northwest China. Unfortunately, human activity, for example groundwater extraction for irrigation, have resulted in excessive falls in groundwater level, and aquifer overdraft in the oasis, disrupting the natural equilibrium of these systems. A groundwater numerical model for Minqin oasis, an arid area of northwest China, was developed using FEFLOW software to simulate regional groundwater changes under transient conditions. The vertical recharge and discharge (source/sink terms) of the groundwater models were determined from land-use data and irrigation systems for the different crops in the different sub-areas. The calibrated model was used to predict the change for the period from 2000 to 2020 under various water resources management scenarios. Simulated results showed that under current water resources management conditions groundwater levels at Minqin oasis are in a continuous drawdown trend and groundwater depth will be more than 30 m by 2020. Reducing the irrigation area is more effective than water-saving irrigation to reduce groundwater decline at Minqin oasis and the annual groundwater budget would be −0.978 × 10⁸ m³. In addition, water-diversion projects can also reduce the drawdown trend of groundwater at Minqin oasis, and the groundwater budget in the Huqu sub-area would be in zero equilibrium if the annual inflow into the oasis was enhanced to 2.51 × 10⁸ m³. Furthermore, integrative water resources management including water-diversion projects, water-saving irrigation, and reducing the irrigation area are the most effective measures for solving groundwater problems at Minqin oasis.     

The key role of supply chain actors in groundwater irrigation development in North Africa

The role played by supply chain actors in the rapid development of groundwater-based irrigated agriculture is analyzed. Agricultural groundwater use has increased tremendously in the past 50 years, leading to the decline of water tables. Groundwater use has enabled intensification of existing farming systems and ensured economic growth. This “groundwater economy” has been growing rapidly due to the initiative of farmers and the involvement of a wide range of supply chain actors, including suppliers of equipment, inputs retailers, and distributors of irrigated agricultural products. In North Africa, the actors in irrigated production chains often operate at the margin of public policies and are usually described as “informal”, “unstructured”, and as participating in “groundwater anarchy”. This paper underlines the crucial role of supply chain actors in the development of groundwater irrigation, a role largely ignored by public policies and rarely studied. The analysis is based on three case studies in Morocco, Tunisia and Algeria, and focuses on the horticultural sub-sector, in particular on onions and tomatoes, which are irrigated high value crops. The study demonstrates that although supply chain actors are catalyzers of the expansion of groundwater irrigation, they could also become actors in adaptation to the declining water tables. Through their informal activities, they help reduce market risks, facilitate credit and access to subsidies, and disseminate innovation. The interest associated with making these actors visible to agricultural institutions is discussed, along with methods of getting them involved in the management of the resource on which they depend.     

运城市地下水资源开发利用的问题及对策

通过对运城市平原区地下水超量开采引起的环境地质问题以及工业废水、生活污水对地下水的污染状况的分析,基于可持续发展思想,提出加强沿黄地下水水源地的建设开发,加大节水灌溉设施建设,调整开采层位,对地下水资源合理定价,严格控制工业废水及生活污水对地下水资源的污染等一系列对策措施.     

华北平原东部水资源可持续利用

华北平原东部水资源短缺，深层地下水严重超采，生态环境恶化。为水资源的可持续利用．要发展井灌井排渠灌沟排，以开发利用当地浅层地下水包括微成水和成水为基础．以引调可利用的地表水补源。以调控地下水埋深在临界动态为棱心，以土壤及潜水的地层空间作为调节大气降水、土壤水、地下水、地表水的地下水库．最大限度圯犯时空分布不均的天然降雨转化为可持续利用的水资源。     

常德市地下水应急水源地应急供水可行性评价及方案研究

寻找地下水应急水源地、建立应急供水机制,是城市发生日常供水障碍时保障居民用水安全、维护社会稳定的重要措施。通过分析常德市规划区水文地质条件,圈定了5个地下水应急水源地,总结了同类型城市地下水应急水源地的选址原则,并从水量、水质、开采能力3个方面对水源地进行了可行性分析。结合现有城市供水管网及地下水开采井保留情况,分别考虑了人均用水量最低标准20 L/d和一般标准50 L/d两种状态下的应急供水方案。应急供水每人20 L/d状态下,保留井的现有供水能力可以满足应急供水需求,而应急供水每人50 L/d状态下,河洑水源地和芦荻山水源地保留井的现有供水能力不足,建议增加开采井以满足应急供水需求。     

灌区农业完全成本水价研究——以张掖市甘州区灌区为例

水价是一种重要的经济手段,它是实现水资源可持续利用的重要工具. 现有的水价模型多以供水生产成本代替了供水过程中的全部成本,完全成本水价模型综合考虑了供水生产过程中的所有成本以及利润和税金,使水价能充分体现水资源的稀缺价值、供水服务成本以及水环境的恢复补偿费用. 介绍了完全成本水价模型,然后以张掖市甘州区的灌区为例,计算了其农业完全成本水价. 结果表明：大满、甘浚、上三和乌江4个灌区的完全成本水价分别为0.16元·m^-3、0.15元·m^-3、0.20元·m^-3、0.14元·m^-3. 接着比较了各灌区的现行水价与完全成本水价的差异,得出张掖市现行水价偏低,各灌区现行水价分别占完全成本水价的62.5%、66.67%、50%、71.4%,均未达到各灌区的完全成本水价,无法补偿供水单位的供水成本.     

常德市地下水应急水源地应急供水可行性评价及方案研究

寻找地下水应急水源地、建立应急供水机制,是城市发生日常供水障碍时保障居民用水安全、维护社会稳定的重要措施。通过分析常德市规划区水文地质条件,圈定了5个地下水应急水源地,总结了同类型城市地下水应急水源地的选址原则,并从水量、水质、开采能力3个方面对水源地进行了可行性分析。结合现有城市供水管网及地下水开采井保留情况,分别考虑了人均用水量最低标准20 L/d和一般标准50 L/d两种状态下的应急供水方案。应急供水每人20 L/d状态下,保留井的现有供水能力可以满足应急供水需求,而应急供水每人50 L/d状态下,河洑水源地和芦荻山水源地保留井的现有供水能力不足,建议增加开采井以满足应急供水需求。     

Surface water and groundwater dynamic interaction models as guiding tools for optimal conjunctive water use policies in the central plain of Thailand

Many irrigation projects in the central plain of Thailand are not capable of providing sufficient surface water for the cultivation of rice, which is the major cash crop for Thai farmers. To overcome this surface water deficiency, which has been exacerbated in recent years by climate change, groundwater is increasingly being used for irrigation. Thus, large sections of agriculture lands have been converted to conjunctive water use regions. While conjunctive water use may be a suitable option to overcome the temporary water shortages on a short-term basis, it may pose a particular threat to the overall water resources in the long term, if not properly managed. As a remedy, conjunctive water management policies ought to be adopted. Conjunctive water management is basically a tool to optimize productivity, equity, and environmental sustainability through simultaneous management of surface water and groundwater resources. As of now, such a comprehensive approach has not been yet employed in the upper Chao Phraya basin of Thailand, and the present study is one of the first of this kind. The study region is the Plaichumpol Irrigation Project (PIP) where conjunctive water use has become indispensable for meeting the increasing water requirements for farming. To get a first grip on the issue, water demand, supply and actual use in the study area were investigated for the purpose of providing possible guidelines for optimal water exploitation. A numerical groundwater model with a special module for simulating surface-groundwater interaction was applied in the PIP area to understand the impact of the farmer’s irrigation behavior on the dominant hydrological processes that determine the seasonal and multi-annual water availability in the irrigation area. A set-up of different agricultural water allocation schemes that depend on the local weather conditions and the regional management rules are examined by the numerical models. The results of the simulations provide adaptation guidelines for the proper management of the conjunctive water resources, namely, optimal water utilization. The numerical results for the surface groundwater in particular indicated that while the irrigation canals recharge water to the aquifer during both dry and wet season, small amounts of discharge from the aquifers to the canals occur only during the wet season. The analysis of the groundwater balance also showed that the present available groundwater potential is not fully exploited by the farmers, especially during the dry periods of surface water shortage. In contrast, the adoption of an optimal conjunctive management scheme would ensure extra water availability for additional annual rice crops in the region.