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1.
Antonio Cardona Carlos Gutierrez-Ojeda Manuel Martínez-Morales Gerardo Ortiz-Flores Luis González-Hita 《Environmental Earth Sciences》2018,77(23):785
The Cuatrociénegas area is useful for the investigation of the effect of groundwater extraction in the Chihuahuan freshwater xeric ecoregion. It has been investigated at this time using a selection of geochemical indicators (major, minor and trace elements) and δ34S data, to characterize the origin of groundwater, the main geochemical processes and the mineral/groundwater interactions controlling the baseline geochemistry. The area is composed of limestones of Mesozoic age, with a composite thickness of about 500 m, overlaid by basin fill (poorly consolidated young sediments). Substantial water extraction and modification of natural discharges from the area along the last century have produced a detrimental impact on ecosystem structure and function. Water–rock interactions, mixing and evaporative processes dominate the baseline groundwater quality. Natural recharge is HCO3–Ca type in equilibrium with calcite, low salinity (TDS?<?500 mg/L), Cl? lower than 11 mg/L and average Li+ concentration of 0.005 mg/L. Along the groundwater flow systems, δ34S evidence and mass transfer calculations indicate that Cretaceous gypsum dissolution and dedolomitization reactions adjust water composition to the SO4–Ca type. The increase of water–rock interaction is reflected by Cl? values increase (average 68 mg/L), TDS up to about 1500 mg/L and an average Li+ concentration of 0.063 mg/L. Calculations with chemical geothermometers indicate that temperature at depth could be at maximum of 15–20 °C higher than field-measured temperature for pozas. After groundwater is discharged to the surface, chemical evolution continues; water evaporation, CO2 degassing and precipitation of minerals such as gypsum, calcite and kaolinite represent the final processes and reactions controlling water chemical composition. 相似文献
2.
The coastal alluvial plain of Sarno River (Campania Region, southern Italy) is a very rich environment that has experienced a long history of changes due to both natural phenomena such as eustatic sea-level variations and deposition of volcanoclastic sediments, and human civilizations who populated this area since historical times. As a result, it is characterized by complex stratigraphic sequences and groundwater flow systems. The architecture of the multi-layered aquifer system in a sample area, located in a densely urbanized sector at the mouth of Sarno River, was reconstructed. Starting from the analysis of stratigraphic log data and laboratory geotechnical measurements, the lithostratigraphical-unit sequence was retrieved and a realistic three-dimensional (3D) model of the hydrogeological heterogeneity was obtained. The results of a detailed 2D electrical resistivity tomography survey were used to support the analysis of the spatial heterogeneity of the aquifer system in a sector characterized by lack of log data. The integration of hydrogeological and geophysical data allowed for the reconstruction of a 3D hydrogeophysical model of the multi-layered system, which electrically characterizes and geometrically identifies two aquifers. Finally, piezometric-level measurements validated the hydrogeological–geophysical model and showed the effectiveness of the methodology. 相似文献
3.
Dominik Höyng Fernando Mazo D’Affonseca Peter Bayer Edson Gomes de Oliveira José Alexandre J. Perinotto Fábio Reis Holger Weiß Peter Grathwohl 《Environmental Earth Sciences》2014,71(7):3081-3094
The Guarani aquifer system (GAS) represents one of the biggest aquifers in the world and is the most relevant groundwater resource in South America. For the first time, by combining field and laboratory measurements, a high-resolution aquifer analog model of fluvial–aeolian sediments of the GAS in São Paulo State (Brazil) is constructed. Three parallel sections of frontal outcrops, 28 m × 5.8 m, and two parallel sections of lateral outcrops, 7 m × 5.8 m, are recorded during open-pit mining of sandy sediments and describe in detail the three-dimensional distribution of the local lithofacies and hydrofacies. Variations of hydraulic conductivity, K, and porosity, n, are resolved on the centimeter scale, and the most permeable units of the fluvial–aeolian facies association are identified. The constructed aquifer analog model shows moderate hydraulic heterogeneity and a mean K value of 1.36 × 10?4 m/s, which is greater than the reported range of K values for the entire GAS in São Paulo State. The results suggest that the examined sedimentary unit constitutes a relevant portion of the GAS in São Paulo State in the context of groundwater extraction and pollution. Moreover, the constructed aquifer analog is considered an ideal basis for future numerical model experiments, aiming at in-depth understanding of the groundwater flow and contaminant transport patterns at this GAS portion or at comparable fluvial–aeolian facies associations. 相似文献
4.
《Applied Geochemistry》1999,14(7):819-834
The site of the underground facility, the Äspö Hard Rock Laboratory, was excavated at a depth of 450 m below the island of Äspö and has been extensively investigated by geological, hydrogeological and hydrochemical methods as part of the geoscientific research for disposal of nuclear waste in Sweden. The geological history of the area dates back to 1.85 Ga and is dominated by granitoids belonging to the Trans-Scandinavian Igneous Belt but also includes basic sheets and xenoliths and dikes of fine-grained granite. Seven tectonic episodes, giving rise to fracture mineralization, are recognised. The major discontinuities and fracture zones were characterised from surface investigations before the tunnel construction work started. These structural features were also identified in the tunnel and are, as predicted, the major water conducting features. Sets of open fractures in the NNW–NW and N–S directions and the brittle fine-grained granite are other important water conductors. Groundwater flow modelling shows that the location of Äspö island has a major impact on the current distribution of groundwater salinity due to varying hydraulic/boundary/conditions in the late and post glacial period. 相似文献
5.
J. J. Carrera-Hernández D. Carreón-Freyre M. Cerca-Martínez G. Levresse 《Hydrogeology Journal》2016,24(2):373-393
The city of Querétaro, located near the political boundary of the Mexican states of Querétaro and Guanajuato, relies on groundwater as it sole water supply. Groundwater extraction in the city increased from 21?×?106 m3/yr in 1970 to 104?×?106 m3/yr in 2010, with an associated drawdown of 100 m in some parts of the aquifer. A three-dimensional numerical groundwater-flow model has been developed that represents the historical evolution of the aquifer’s potentiometric levels and is used to simulate the effect of two scenarios: (1) a 40 % reduction in the extraction rate from public water supply wells in early 2011 (thus reducing the extraction to 62?×?106 m3/yr), and (2) a further reduction in 2021 to 1?×?106 m3/yr. The modeling results project a temporary recovery of the potentiometric levels after the 40 % reduction of early 2011, but a return to 2010 levels by 2020. If scenario 2 is implemented in 2021, the aquifer will take nearly 30 years to recover to the simulated levels of 1995. The model also shows that the wells located in the city of Querétaro started to extract water from part of the aquifer beneath the State of Guanajuato in the late 1970s, thus showing that the administrative boundaries used in Mexico to study and develop water resources are inappropriate, and consideration should be given to physical boundaries instead. A regional approach to studying aquifers is needed in order to adequately understand groundwater flow dynamics. 相似文献
6.
Fatma Trabelsi Jamila Tarhouni Abdallah Ben Mammou Gaetano Ranieri 《Environmental Earth Sciences》2013,70(5):2087-2105
The subsurface data are a basic requirement for the set up of hydrogeological framework. Geographic information systems (GIS) tools have proved their usefulness in hydrogeology over the years which allow for management, synthesis, and analysis of a great variety of subsurface data. However, standard multi-layered systems are quite limited for modeling, visualizing, and editing subsurface data and geologic objects and their attributes. This paper presents a methodology to support the implementation of hydrogeological framework of the multi-layered aquifer system in Nabeul–Hammamet (NH) coastal region (NE, Tunisia). The methodology consists of (1) the development of a complete and generally accepted hydrogeological classification system for NH aquifer system (2) the development of relational databases and subsequent GIS-based on geological, geophysical and hydrogeological data, and (3) the development of meaningful three-dimensional geological and aquifer models, using GIS subsurface software, RockWorks 2002. The generated 3-D geological models define the lithostratigraphy and the geometry of each depositional formation of the region and delineate major aquifers and aquitards. Where results of the lithologic model revealed that there is a wide range of hydraulic conductivities in the modeled area, which vary spatially and control the groundwater flow regime. As well, 17 texturally distinct stratigraphic units were identified and visualized in the stratigraphic model, while the developed aquifer model indicates that the NH aquifer system is composed of multi-reservoir aquifers subdivided in aquifers units and separated by sandy clay aquitards. Finally, this study provides information on the storing, management and modeling of subsurface spatial database. GIS has become a useful tool for hydrogeological conceptualization and groundwater management purposes and will provide necessary input databases within different groundwater numerical models. 相似文献
7.
At four sites in Turkey and Armenia the physico-chemical properties of thermal and mineral waters were monitored continuously
during the Izmit and Düzce earthquakes that occurred along the North Anatolian fault in August and November 1999. The epicentral
distances between the moment magnitude (Mw) 7.6 Izmit earthquake and the monitoring locations were 313, 488, 1,161, and 1,395 km. At the most distant site, the specific
electrical conductivity of mineral water from a flowing artesian well dropped co-seismically and postseismically by 7%. No
changes were observed at the other sites, although the estimated earthquake strains and peak ground accelerations are much
higher. A similar pattern was observed after the Düzce earthquake, which happened three months after the Izmit event. The
response of a hydrogeological system seems to depend on the site characteristics rather than on the nature of the earthquake.
A hydrogeological model for the sensitive observation site farthest from the Izmit earthquake explains the observations in
terms of a changed mixing ratio between two fluid components. Passing seismic waves may trigger a local pore-pressure increase
according to the mechanism of advective overpressure. The preconditions for this mechanism, free gas bubbles in the aquifer
in combination with a trap for rising bubbles, is probably not fulfilled by the other groundwater systems.
Electronic Publication 相似文献
8.
9.
E. Bocanegra O. M. Quiroz Londoño D. E. Martínez A. Romanelli 《Environmental Earth Sciences》2013,68(8):2347-2357
This paper gives an account of the assessment and quantification of the water balance and the hydrogeological processes related to lake–groundwater interaction in the Pampa Plain by using hydrogeochemical, isotopic and flow numerical modeling techniques. La Salada is a permanent shallow lake, with an area of 5.8 km2, located on the SE of Buenos Aires Province. A total of 29 lake water samples and 15 groundwater samples were collected for both hydrochemical analysis and environmental stable isotope determination. Water table depths were measured in wells closed to the lake. Groundwater samples appear grouped on the Local Meteoric Water Line, suggesting a well-mixed system and that rainfall is the main recharge source to the aquifer. Water evaporation process within La Salada is also corroborated by its isotopic composition. The model that best adjusts to La Salada Lake hydrochemical processes includes evaporation from groundwater, calcite precipitation with CO2 release and cationic exchange. The annual water balance terms for the lake basin indicates for each hydrological component the following values: 1.16 E08 m3 rainfall, 8.15 E07 m3 evapotranspiration, 1.90 E06 m3 runoff, 1.55 E07 m3 groundwater recharge, 6.01 E06 m3 groundwater discharge to the lake, 9.54 E06 m3 groundwater discharge to the river, 5.00 E05 m3 urban extraction and 4.90 E06 m3 lake evaporation. Integrated analysis of hydrochemical and isotopic information helped to calibrate the groundwater flow model, to validate the conceptual model and to quantitatively assess the basin water balance. 相似文献
10.
A data-driven approach for analyzing dynamics of tide–aquifer interaction in coastal aquifer systems
Analysis of tidal effects on aquifer systems plays an important role in coastal aquifer management owing to various hydrological,
engineering and environmental problems in coastal areas. Using the real-world data of unconfined and confined aquifers, a
data-driven approach is presented in this study for the analysis of tide–aquifer interaction in coastal aquifers. Six analytical
tide–aquifer interaction models were selected which take into account the effects of vertical beach, sloping beach, tidal
loading, aquifer leakage, outlet capping, and combined leakage and outlet capping on tide-induced groundwater fluctuations.
The tide–aquifer interaction datasets were obtained from the Konan groundwater basin (unconfined aquifer) of Japan and the
Dridrate groundwater basin (confined aquifer) of Morocco. The analysis of the results obtained by the sloping beach model
revealed that for a given beach slope, the amplitude of groundwater level increases with an increase in aquifer diffusivity
and a decrease in aquifer thickness. However, no significant effect of beach slope was observed in this study at unconfined
sites for all the datasets. The influence of tidal loading was found to be considerably less for all the three confined sites.
Further, the analysis of the results of the leakage model indicated that with an increase in leakage into the aquifer, the
amplitude of groundwater level as well as the phase shift (time lag) decreases. Of all the confined and unconfined datasets,
only two confined sites were found to be affected by outlet capping. Overall, it is concluded that the coastal beach bordering
the Konan basin is not significantly sloping, the contribution of tidal loading to tide-induced groundwater fluctuations in
the Dridrate aquifer is not appreciable, and that the aquifer leakage and outlet capping do not exist at the unconfined sites
under investigation. 相似文献
11.
José Alfredo Ramos-Leal Janete Morán-Ramírez José Teodoro Silva-García Rosa María Fuentes-Rivas Gustavo Cruz-Cárdenas Salvador Ochoa-Estrada Francisco Estrada-Godoy 《Arabian Journal of Geosciences》2018,11(15):422
The present study characterized the hydrogeochemical processes of the aquifer of Ciénega de Chapala in Michoacán, Mexico. The dominant water families contained bicarbonate magnesium and sodium. In the region, water infiltrates into a fractured volcanic environment exposed in the surrounding mountains and is transmitted to the volcano-sedimentary units of the ciénega, where silicate alteration and ion exchange processes occur in the clays of the subsoil. The Gibb diagrams confirm that the main evolutionary processes in the aquifer are rock-water interactions in the local flow and evaporation in the intermediate and regional flows. The molar ratios of HCO3/Na and Ca/Na are congruent with the type of volcano-sedimentary environment present in the area. Ternary mixing processes associated with three end members were also identified and were related to the flow systems in the area. The local flow contributes 77% of water to the system, and the intermediate and regional flows contribute 16% and 7%, respectively. 相似文献
12.
The alluvial aquifer of the Alto Guadalquivir River is one of the most important shallow aquifers in Jaén, Spain. It is located
in the central-eastern part of the province, and its groundwater resources are used mainly for crop irrigation in an agriculture-dominated
area. Hydrochemical and water-quality data obtained through a 2-year sampling (2004–2006) and analysis program indicate that
nitrate pollution is a serious problem affecting groundwater due to the use of nitrogen (N)-fertilizers in agriculture. During
the study, 231 water samples were collected from wells and springs to determine water chemistry and the extent of nitrate
pollution. The concentration of nitrate in groundwater ranged from 1.25 to 320.88 mg/l. Considerable seasonal fluctuations
in groundwater quality were observed as a consequence of agricultural practices and other factors such as annual rainfall
distribution and the Guadalquivir River flow regime. The chemical composition of the water is not only influenced by agricultural
practices, but also by interaction with the alluvial sediments. The dissolution of evaporites accounts for part of the Na+, K+, Cl−, SO4
2−, Mg2+, and Ca2+, but other processes, such as calcite precipitation and dedolomitization, also contribute to groundwater chemistry. 相似文献
13.
The giant Mercosul aquifer system consists of Triassic-Jurassic eolian-fluvio-lacustrine sandstones confined by Cretaceous
basalt flows, and it covers about 1,195,500 km2 (461,583 miles2) in South America. The aquifer system encompasses all of the Paraná Basin and part of the Chaco-Paraná Basin and is one of
the world's largest. The eolian Botucatu Sandstone and its equivalents form an important part of this system. Maps of structure,
thickness of overlying rocks, and water temperature, and a potentiometric map, all based on 322 wells, define hydrogeologic
characteristics and provide the basis for establishing guidelines for the long-term equilibrium use of this important multinational
aquifer system. The Mercosul aquifer system is divided into two domains – the larger and better understood Paraná Basin and
the smaller and less well understood Chaco-Paraná Basin. Most of the northern part of the Paraná Basin has axially-directed
groundwater flow, whereas the southern part of the aquifer discharges mostly to the southwest into the Corrientes Province
of Argentina, with negligible discharge into the Atlantic Ocean. The Mercosul aquifer system is conservatively estimated to
have been flushed at least 180 times since deposition. Various factors are responsible for this flushing, including appreciable
rainfall since the end of the Cretaceous Period, probable uplift of the basins' borders in Late Cretaceous time, simple basin
geometry, long-term riverine and groundwater flow to the southwest (ancestral and present Paraná River Systems), and stable
cratonic setting.
Key hydraulic properties of the Mercosul aquifer system are compared to those of the eolian Jurassic Navajo-Nugget System
of the western United States. The results demonstrate the importance of tectonics and climate on the evolution of sub-continental
aquifer systems.
Received, September 1997 / Revised, December 1998 / Accepted, January 1999 相似文献
14.
Surdyk Nicolas Thiéry Dominique Nicolas Jérome Gutierrez Alexis Vigier Yannick Mougin Bruno 《Hydrogeology Journal》2022,30(6):1737-1749
The MétéEAU Nappes water-resource-management tool is presented. It is usable on the aquifer or part-of-aquifer scale for real-time observation of the state of the groundwater resource, and it is already operating in France. This online decision support tool is also able to predict the state of the resource in the short- and mid-terms. The paper explains the use of the tool in a case study in the Authion Valley, in the north-west of France, chosen for its context of tension surrounding the groundwater resource resulting from high volumes of abstraction for irrigation. The results of the simulation highlight the advantages of MétéEAU Nappes as a tool for prediction and simulation of the state of the groundwater resource. The results also show the advantages of this type of tool for water resource management, such as supplying local actors with reliable and real-time observations of the aquifer and providing forecasts to anticipate possible water shortage.
相似文献15.
The objective of this study was to examine the possible natural sources of fluorides and boron in Silurian–Ordovician (S–O)
aquifer system, as the anomaly of these elements has been distinguished in groundwater of western Estonia. Water–rock interactions,
such as dissolution and leaching of the host rock, are considered to be the main source of high fluoride and boron concentrations
in groundwater. Altogether 91 rock samples were analysed to determine if high F− and B levels in groundwater could be attributed to certain aquifer forming rock types. Fluorine and boron contents in limestones
and dolomites vary from 100 to 500 mg/kg and 5 to 20 mg/kg, reaching up to 1,000 and 150 mg/kg in marlstones, respectively.
K-bentonites, altered volcanic ash beds, are rich in fluorine (400–4,500 mg/kg) and boron (50–1,000 mg/kg). Thus, clay-rich
sediments, providing ion-exchange and adsorption sites for F− and B, are the probable sources of both elements in S–O aquifer system in western Estonia. 相似文献
16.
Waleed K. Zubari 《Hydrogeology Journal》1999,7(2):197-208
Over-abstraction of the Dammam aquifer, the principal aquifer in Bahrain, by the agricultural and domestic sectors, has led
to its salinization by adjacent brackish and saline water bodies. A hydrochemical study identified the locations of the sources
of aquifer salinization and delineated their areas of influence. The investigation indicates that the aquifer water quality
is significantly modified as groundwater flows from the northwestern parts of Bahrain, where the aquifer receives its water
by lateral underflow from eastern Saudi Arabia, to the southern and southeastern parts. Four types of salinization of the
aquifer are identified: brackish-water up-flow from the underlying brackish-water zones in north-central, western, and eastern
regions; seawater intrusion in the eastern region; intrusion of sabkha water in the southwestern region; and irrigation return
flow in a local area in the western region. Four alternatives for the management of groundwater quality that are available
to the water authorities in Bahrain are discussed and their priority areas are proposed, based on the type and extent of each
salinization source, in addition to groundwater use in that area. The effectiveness of the proposed management options in
controlling the degradation of water quality in the Dammam aquifer should be evaluated using simulation modeling.
Received: June 1998 Revised: November 1998 Accepted: December 1998 相似文献
17.
Five different methods for assessing intrinsic aquifer vulnerability were tested in a case study and their results compared. The test area was a slightly karstified district in the Condroz region of Belgium. The basin covers about 65 km2 and the karst aquifer provides a water-supply of about 28,000 m3d-1. The methods tested were: EPIK (Doerfliger et al. 1999), DRASTIC (Aller et al. 1987), 'German method' (von Hoyer and Söfner 1998), GOD (Foster 1987) and ISIS (Civita and De Regibus 1995). The results are compared and critically examined. From the analysis, it seems that reducing the number of parameters is unsatisfactory, due to the variety of geological conditions. The various methods produce very different results at any given site. As only physically-based methods can be checked for their reliability, it is clear that future vulnerability mapping techniques must incorporate such methods. 相似文献
18.
Idu–Karmo of the federal capital territory, Abuja, is located within the weathered basement aquifers of Northern Nigeria. Fifteen groundwater samples obtained were analysed for their major ionic components. The physical properties show that the water is slightly acidic to neutral (6.0–7.0) and has moderate to very high values of electrical conductivity (155–2230 µS/cm).The dominant hydrochemical facies of groundwater is the Ca–Cl2 groundwater type. Irrigation parameters measured include: SAR which ranges from 0.12 to 1.06; TH which ranges from 0.8 to 196; KR ranges from 0.03 to 0.42; PI which ranges from 46 to 199; and RSC ranges from ??131.90 to 3.43. These parameters (SAR, total hardness, Kelly’s ratio, permeability index and residual sodium carbonate) show that the water is suitable for agricultural purpose except for the magnesium ratio which has a high unsuitability for irrigation, probably due to the presence of ferro-magnesian minerals contained in the calc-alkaline basement rocks of the Idu–Karmo area. The results of the geochemical survey reveal major ionic components are in the order Cl??>?HCO3??>?NO3??>?SO42? and Mg2+?>?Ca2+?>?Na+?>?K+. Comparison with WHO and APHA standards shows that all the ionic concentrations satisfy all permissible limits for drinking purpose except for elevated concentrations of nitrate which probably may have arisen from poor handling of domestic wastes, leakages from nearby septic tanks/soak-away and the excessive use of fertilisers. Qualitatively, treatment is required especially on the nitrate-contaminated areas to make the water fit for drinking and irrigation. 相似文献
19.
Pedro Martínez-Santos Pedro E. Martínez-Alfaro Eugenio Sanz Angel Galindo 《Hydrogeology Journal》2010,18(6):1525-1537
Evaluating aquifer–river interactions is naturally complex, particularly within urban settings. This is largely due to the difficulties involved in quantifying most elements of the water balance. The ability of numerical models to deal with several dynamic variables simultaneously makes them valuable tools to address this kind of problem. An applied, modeling-based approach to investigate the spatial and temporal variations of aquifer–river connectivity within a shallow urban aquifer is presented. Model development is based on comprehensive field campaigns in Langreo, Spain. Two calibration runs (for summer and winter conditions) were carried out in order to evaluate the spatial distribution of recharge rates. The model suggests that baseflows are largely negligible in comparison with total streamflows. This is mostly attributed to the abrupt nature of the catchment, which prevents the existence of sufficiently large alluvial systems to a great extent. Modelling results also show that aquifer–river connectivity at the study site is constrained by urban pumping as well as by seasonal fluctuations. 相似文献
20.