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1.
Sustainable development and groundwater resources exploitation 总被引:1,自引:0,他引:1
In evaluating groundwater development both the positive and negative effects must be considered; otherwise biased conclusions
may be reached. Only with equal concern for the needs of present and future generations, fair exchange of technology between
countries and user involvement can sustainable groundwater development be achieved. Examination of the use of the term aquifer overexploitation shows that there is no agreement on a single definition. In most cases it relates to the overuse of aquifers, but in other
cases it is a planned overuse. In Spain, overexploitation is dealt with in the water act and implemented by the regulations
that enforce that act. Experience has shown that without the cooperation of the water users themselves, good results are not
obtained. Relevant education is urgently needed for the public and those decision makers responsible for determining the correct
use of groundwater resources for the present and future generations.
Received: July 1997 · Accepted: 15 September 1997 相似文献
2.
Current trends and future challenges in groundwater vulnerability assessment using overlay and index methods 总被引:59,自引:7,他引:59
The concept of groundwater vulnerability is a useful tool for environmental planning and decision-making. Many different
methods have been developed for assessing this vulnerability. Hydrogeologists have failed to reach a consensus concerning
the definitions of and reference terms for groundwater vulnerability assessment. Therefore, a review of vulnerability assessment
and mapping methods providing a new classification system is necessary. This is focused on techniques that use the overlay
and index class methods. New research challenges in vulnerability assessment are identified, especially the need for developing
dynamic links between numerical models and overlay and index methods.
Received: 28 October 1998 · Accepted: 31 May 1999 相似文献
3.
The supraregional GIS-supported stochastical model, WEKU, for the determination of groundwater residence times in the upper
aquifers of large groundwater provinces is presented. Using a two-dimensional analytical model of groundwater flow, groundwater
residence times are determined within two extreme cases. In the first case, maximal groundwater residence times are calculated,
representing the part of groundwater, that is drained by the main surface water of a groundwater catchment area. In the second
case, minimal groundwater residence times for drainage into the nearest surface water are determined. Using explicit distribution
functions of the input parameters, mean values as well as potential ranges of variations of the groundwater residence times
are derived. The WEKU model has been used for the determination of groundwater residence times throughout Germany. The model
results – mean values and deviations of the groundwater velocity and the maximal and minimal groundwater residence times in
the upper aquifers – are presented by general maps and discussed in detail. It is shown that the groundwater residence times
in the upper aquifer vary regionally, differentiated between less than 1 year and more than 2000 years. Using this information,
the time scales can be specified, until measures to remediate polluted groundwater resources may lead to a substantial groundwater
quality improvement in the different groundwater provinces of Germany. With respect to its supraregional scale of application,
the WEKU model may serve as a useful tool for the supraregional groundwater management on a state, federal or international
level.
Received: 15 August 1995 · Accepted: 15 October 1995 相似文献
4.
Moisture samples obtained from unsaturated-zone profiles in sands from northern Nigeria were used to obtain recharge estimates
using the chloride (Cl) mass-balance method and to produce records of past recharge and climatic events. Recharge rates range
from 14–49 mm/year, on the basis of unsaturated-zone Cl values and rainfall chemistry measured over eight years at three local
stations. The unsaturated-zone results also provide a record of the changing recharge and climatic events of the past 80 years;
this record compares quite well with modelling results using precipitation data from Maiduguri, especially for the late 20th-century
period of drought. The best fit for the model is made, however, by using a lower mean rainfall Cl (0.65 mg/l) than that obtained
from the mean of the field results (1.77 mg/l Cl). This result implies that the measured rainfall Cl probably overestimates
the depositional flux of Cl, although the lower value is comparable to the minimum of the measured rainfall Cl values (0.6 mg/l
Cl). Recharge estimates made using these lower Cl values range from 16–30 mm/year. The spatial variability was then determined
using results from 360 regional shallow wells over 18,000 km2.
Using the revised rainfall estimate, the Cl balance indicates a value of 43 mm for the regional recharge, suggesting that
either additional preferential flow is taking place over and above that from the vadose one, or that the regional recharge
represents inputs from earlier wetter periods. These recharge estimates compare favourably with those from hydraulic modelling
in the same area and suggest that the recharge rates are much higher than values previously published for this area. High
nitrate (NO3) concentrations (NO3-N>Cl) preserved under aerobic conditions in the vadose zone reflect secondary enrichment from N-fixing vegetation, as occurs
elsewhere in the Sahel.
Electronic Publication 相似文献
5.
Early-indicator signals of groundwater contamination: the case of seawater encroachment 总被引:4,自引:0,他引:4
An early indication of groundwater contamination occurs when pollutant concentrations start to fluctuate and exceed background
values of ambient fresh groundwater. An analysis of a characteristic situation of this type uses data from Israel's coastal
phreatic granular aquifer. The pollutant is generally seawater, and the contamination process involves replacement of freshwater
by encroaching sea- or other saltwater, a process augmented by human activity. The contamination process involves three stages:
(1) groundwater composition remains relatively stable with small salinity content; (2) small salinity changes are perceptible
with reversible fluctuations; and (3) salinity concentration increases at a sharply higher rate. The second stage is a useful
early-indicator signal of contamination. Early-indicator signals of groundwater pollutant concentrations involve "minor" fluctuations
in water chemistry at the advent of the contamination process. The intensity and magnitude of such a salinization/pollution
process at any given location depends upon lithologic matrix, aquifer heterogeneity, and resultant flow domain characteristics,
as well as contaminant properties. If such "signs" are detected at a sufficiently early stage, appropriate management steps
may be taken to rectify further seawater and/or saltwater encroachment.
Received: 23 July 1996 · Accepted: 25 June 1997 相似文献
6.
M. F. Abu-Taleb 《Environmental Geology》1999,37(1-2):64-71
When using surface infiltration as a method of recharge, infiltration testing is considered an important additional data
input along with other hydrogeologic data into the recharge decision. As part of an investigation into the potential for groundwater
recharge, two desert basins in Jordan (Wadi Madoneh and Wadi Butum) were investigated to determine the possibility of recharge
using floodwater retention structures. For each area, short-duration (up to 7-h) infiltration tests were conducted to estimate
surface infiltration capacity of the upper soil layers in order to present to the authorities preliminary information which
could be used along with other factors to aid in the selection of the best site for a pilot recharge project. Given the highly
fractured rock formations that constitute the underlying aquifers in the two areas, it was assumed that the upper alluvium
layers are the limiting factors in transmitting water to target aquifers. The infiltration tests conducted to estimate the
recharge characteristics of the recharge sites yielded test results that indicated a representative infiltration rate of 0.44 m/day
for the Wadi Madoneh site and 0.197 m/day for the Wadi Butum site. The data input was used subsequently with other decision
factors to select the most promising site for the pilot project.
Received: 9 January 1998 · Accepted: 27 April 1998 相似文献
7.
Application of a groundwater contamination index in Finland and Slovakia 总被引:11,自引:3,他引:11
A methodology is presented for evaluating and mapping the degree of groundwater contamination by applying the contamination index C d . The applicability of the contamination index was tested in two distinctly different geological regions: the area between Uusikaupunki and Yläne in southwestern Finland and the Brezno area in central Slovakia. The index takes into account both the number of parameters that exceed the upper permissible concentrations of contaminants or potentially harmful elements and the part of the concentrations exceeding those values. The water-quality parameters reflect the effect of diverse natural (topographical, climatical, geological, biological) and anthropogenic (type of land use, local pollution) environmental factors on groundwater quality. In Finland, technical-aesthetic contamination was found over more than half the test area. These quality problems were most often related to acidity and high concentrations of organic carbon and Al and Fe in wells. Health-risk-based contamination, mainly caused by elevated concentrations of fluoride, radon, or nitrate, was found in only a few separate areas. In Slovakia, naturally contaminated and anthropogenically polluted groundwaters could be distinguished. The geogenic pollution is mainly derived from sulfide mineralizations. In both countries the strongest anthropogenic pollution was found in intensively cultivated areas. 相似文献
8.
A nitrogen isotope study of soil water and groundwater in southern Indiana, USA, in 1991–1992 demonstrated considerable variations
in nitrate degradation processes compared to an earlier investigation in 1986–1987. Although N-fertilizers were applied in
May 1991, the δ15N values in soil water decreased in February 1992, indicating its delayed release into the system after substantial rainfall.
The δ15N values of groundwater decreased from +12.3‰ in November 1991 to +11.3‰ in February 1992, and to +7.5‰ in March 1992. The
increased residence time of nitrate in the soil resulted in increased denitrification, ammonia volatilization and plant uptake,
and reduced threat to the groundwater quality. The 1986–1987 study in the area reported that excessive rainfall during the
summer rapidly transported the nitrate to deeper horizons and drastically reduced volatilization and microbial reduction of
nitrate, thus increasing the immediate threat to the groundwater quality in the area. The present study demonstrated that
nitrogen isotopic signatures can be used to determine the effects of local soil type, rainfall, and land-use practices on
the fate of nitrate in the subsurface.
Received: 18 February 1997 · Accepted: 17 June 1997 相似文献
9.
Paleocollapse structure as a passageway for groundwater flow and contaminant transport 总被引:1,自引:0,他引:1
Wan Fang Zhou 《Environmental Geology》1997,32(4):251-257
Paleocollapse structure is a rock collapse, resulting from the failure in the geological history of the bedrock overlying
karstified limestone. Depending on the present hydrogeological conditions within the area of paleocollapse and the internal
properties of these structures, they can provide a means to facilitate groundwater flow and contaminant transport. Inactive
paleocollapse structures can be reactivated by human activities such as dam construction, mining underground minerals, pumping
groundwater, and development of landfills. They can also be reactivated by natural events such as earthquakes and neotectonic
movements. In the mines of northern China, sudden inflow of karst water from Ordovician limestone into drifts and mining stopes
through paleocollapse structures has caused significant economic loss. Water pumping tests and accompanied dye traces are
effective approaches of locating water-conducting paleocollapse structures. Grouting is probably the best means of preventing
them from becoming geohazards.
Received: 26 November 1996 · Accepted: 17 June 1997 相似文献
10.
Application of statistical methods to study seasonal variation in the mine contaminants in soil and groundwater of Goa, India 总被引:1,自引:0,他引:1
Soil and groundwater samples were collected during two seasons, premonsoon (April 1990) and postmonsoon (December 1990),
and analyzed for major elements (Na, Mg, Al, Si, P, K, Ca, Ti, Mn and Fe), trace elements (Ni, Pb, Co, Cr and Zn) and water
parameters (pH, conductivity, acidity, alkalinity, hardness, Cl and SO4). All the data were subjected to linear discriminant analysis and partial correlation analysis in order to understand the
seasonal variation in the data. It was observed from the Mahalanobis generalized distance that in both soil and groundwater
samples there was a large difference in the concentration level of premonsoon and postmonsoon data. Linear discriminant functions
were calculated to distinguish between premonsoon and postmonsoon samples. From the partial correlation coefficient analysis
of soil samples, dominance of chemical weathering and precipitation of atmospheric fallout during monsoon were inferred. In
the case of the water samples, high conductivity and high hardness in the postmonsoon samples as well as atmospheric fallout
of Pb and Ni during the premonsoon period was suggested from partial correlation of water samples.
Received: 19 September 1995 · Accepted: 12 December 1995 相似文献
11.
Integrated use of hydrochemistry and resistivity methods in groundwater contamination caused by a recently closed solid waste site 总被引:6,自引:0,他引:6
In order to investigate the groundwater contamination by solid waste disposal using both hydrochemical and geophysical methods,
the Halkalı (I˙stanbul) solid waste disposal site which was closed in 1994 was investigated. The disposal site lies on a ridge
between two valleys filled with alluvium. A total of six boreholes were drilled on two lines across the Menekşe valley adjacent
to the Halkalı site. Groundwater samples collected from these boreholes were analyzed for various contaminant parameters.
The results indicate that TDS and chloride concentrations decrease horizontally away from the waste site whereas they increase
with depth. Electrical soundings carried out at 12 locations yielded high resistivity values at the upstream part of Menekşe
valley while lower values were obtained from the locations near the leachate seepage points.
Received: 11 November 1997 · Accepted: 23 February 1998 相似文献
12.
Conceptual model of the evolution of groundwater quality at the wet zone in Sri Lanka 总被引:1,自引:1,他引:1
The evolution of groundwater quality at a wet zone in Sri Lanka was made clear using field investigation, chemical and isotopic
analyses methods. In the wet zone, the concentrations of major ions and electrical conductivity (EC) in the groundwater are
low with small seasonal change. Except for sodium, silica and chloride, the EC and other major ion concentrations increase
along the groundwater flow direction. The contributions of bicarbonate and calcium ions to the increase in EC are the largest
among the major ions. The groundwater quality shows calcium-bicarbonate type, the initial stage of the Chebotarev series.
There is a seasonal change in isotopic composition. The isotopically lighter groundwater was found at the valley bottom in
the rainy season. Under the very heavy precipitation conditions, the slope of the regression line between δD and δ18O and deuterium excess for groundwater are close to 8 and 10, respectively. In other cases, the slopes of the regression lines
and deuterium excess are, less than 8 and 10, respectively.
Received: 5 August 1998 · Accepted: 19 October 1998 相似文献
13.
The occurrence, movement and control of groundwater, particularly in hard-rock areas, are governed by different factors such
as topography, lithology, structures like fractures, faults and nature of weathering. An attempt is made in the present study
to investigate the extent of the influence of structures such as fractures and thereby delineate the nature of subsurface
lithology with the help of an electrical resistivity method. For this study, the Upper Gunjanaeru River basin, Cuddapah district
Andhra Pradesh was chosen to determine groundwater potentials. In order to understand the significance of the fracture pattern,
geological, hydrogeomorphological and lineament maps were prepared based on the field data and also from the LANDSAT TM imagery.
Further, electrical resistivity surveys were conducted to determine the subsurface lithology and also to confirm the studies
of LANDSAT imagery. The isoresistivity contour map has been prepared based on the 45 VES conducted to determine the resistivity
variations in the study area. The isoresistivity contours obtained were found to conform to the structural trends obtained
by geological studies and also confirm the relationship between the structure and secondary porosity present in the rocks.
The lineaments in the area have two preferred directions. One set is a NE-SW direction (N 30°–70° E; S 30°–70° W) and another
is a NW-SE direction (N 0°–30° W; S 0°–30° E and N 60°–80° W; S 60°–80° E). The water-table contour map shows that the direction
of groundwater flow is south to north.
Received: 3 March 1997 · Accepted: 17 June 1997 相似文献
14.
J. Pacheco Luis Marín Armando Cabrera Birgit Steinich Oscar Escolero 《Environmental Geology》2001,40(6):708-715
The nitrate concentration in 12 water-supply wells were monitored for the period April 1992 to March 1993. Each water-supply
well was sampled once a month. The nitrate concentrations in the 12 wells ranged from 7 to 156 mg/l. Two water-supply wells
(Chacsinkin and Peto) showed concentrations that reached 3.5 times the maximum permissible limit for the Drinking Water Standard
(45 mg/l). A third water-supply well (Akil) exceeds the norm for 7 out of 12 months. The use of nitrogen-rich fertilizers
are responsible for high nitrate concentrations in groundwater in the southern part of Yucatan, Mexico where intensive agricultural
practices exist.
Received: 14 December 1999 · Accepted: 2 May 2000 相似文献
15.
Land subsidence due to groundwater withdrawal: potential damage of subsidence and sea level rise in southern New Jersey, USA 总被引:6,自引:0,他引:6
Land subsidence due to groundwater withdrawal combined with a global sea level rise creates a serious environmental problem
in the coastal region. Groundwater withdrawal results in fluid pressure change in the layers. The pressure change in the layers
induces both elastic and inelastic land compaction. The elastic compaction can be recovered if the water level rises again
and inelastic compaction becomes permanent. Groundwater response to barometric pressure change is used to estimate the elastic
compaction in this study. The storativity, specific storage and other layer and hydrological information are used to estimate
the inelastic compaction of the layers due to fluid withdrawal. The discussed methods are applied to estimate and predict
the subsidence potentials resulting from overdrafting of the groundwater in the southern New Jersey. The estimated subsidence
is about 2–3 cm near the location of monitoring wells in Atlantic, Camden, Cumberland and Cape May Counties over the past
20 years. If the current trend of water-level drop continues, the average subsidence in southern New Jersey in the vicinity
of some monitoring wells will be about 3 cm in the next 20 years. The rise of global sea level is about 2 mm/year on average.
Because of the very gentle slope in southern NJ, the combination of subsidence and sea level rise will translate into a potentially
substantial amount of land loss in the coastal region in each 20 year period. This combination will also accelerate the coastal
flooding frequency and the erosion rate of the New Jersey coastal plain, and pose a serious threat to the coastal economy.
Received: 15 December 1997 · Accepted: 30 June 1998 相似文献
16.
S. J. Appleyard 《Environmental Geology》1996,28(2):106-110
Drilling of 15 boreholes at a disused liquid waste disposal site near Perth, Western Australia, has indicated that a contamination
plume extends about 1000 m in a southerly direction from the site in the direction of groundwater flow. The plume is up to
600 m wide and 5–40 m thick. Chemical and microbiological analyses have indicated that contaminated groundwater contains high
concentrations of ammonia, iron, and bacteria at levels that commonly exceed national drinking water guidelines. It is likely
that a proposed water supply production well in the path of the contamination plume will have to be abandoned, and additional
wells may have to be abandoned if the plume continues to extend in the direction of groundwater flow. There is currently insufficient
information to indicate whether the plume is continuing to expand, but studies on similar plumes in the Perth metropolitan
area have indicated that contaminated groundwater can move at rates up to 100 m yr–1. Several other liquid waste disposal sites are now located in residential areas of Perth where wells are used for garden
irrigation. Further work is required to ensure that there is no potential impact of groundwater contamination on public health
in these areas.
Received: 31 July 1995 · Accepted: 18 September 1995 相似文献
17.
Quantification of groundwater recharge in the city of Nottingham, UK 总被引:13,自引:3,他引:10
Groundwater is an important and valuable resource for water supply to cities. In order to make full and wise use of the asset
value, a clear understanding of the quantities and sources of urban groundwater recharge is needed. The water supply and disposal
network is often an important source of recharge to urban groundwater through leakage from water mains and sewers. An approach
to establishing the spatial and temporal amounts of the three urban recharge sources (precipitation, mains and sewers) is
developed and illustrated using the Nottingham (UK) urban aquifer. A calibrated groundwater flow model is supplemented by
calibrated solute balances for three conservative species (Cl, SO4 and total N), thus providing four lines of evidence to use in the recharge estimation. Nottingham is located on a Triassic
sandstone aquifer with average precipitation of 700 mm/year. Using the models, current urban recharge is estimated to be 211
mm/year, of which 138 mm/year (±40%) is from mains leakage and 10 mm/year (±100%) is from sewer leakage. The wide confidence
intervals result from the scarcity of historical field data and the long turnover time in this high volume aquifer, and should
be significantly lower for many other aquifer systems.
Received: 1 December 1997 · Accepted: 14 September 1998 相似文献
18.
Groundwater nitrate pollution in an alluvium aquifer, Eskişehir urban area and its vicinity, Turkey 总被引:1,自引:0,他引:1
A large amount of the water requirement (municipal, industrial, etc.) of Eskişehir city, Turkey, is supplied from groundwater
via wells in the urban area. The groundwater in the Eskişehir Plain alluvium has been polluted by municipal and industrial
wastewater, and agricultural activities. The nitrate concentrations at nine sampling points on Porsuk River, the main water
course in the plain, ranged from 1.5 to 63.3 mg/l during the period from July 1986 to August 1988. In the same period, the
nitrate concentrations measured in water from 51 wells ranged between 2.2–257.0 mg/l. The nitrate content of the groundwater
samples was 34.2% above 45 mg/l, the upper limit for nitrate in drinking water standards. High nitrate levels were observed
in water from wells in the central and eastern parts of the urban area. The nitrate content of the well water is subject to
seasonal fluctuation. In general, low nitrate concentrations were observed in wet seasons, and high ones in dry seasons.
Received: 16 April 1996 · Accepted: 2 October 1996 相似文献
19.
The impact of human activities in the Malia coastal area (Crete) on groundwater quality 总被引:1,自引:0,他引:1
N. J. Lambrakis 《Environmental Geology》1998,36(1-2):87-92
The evaluation of the long-term effects of seawater intrusion into the aquifers due to negative water balance and nitrate
pollution of drinking-water quality due to human activities requires detailed knowledge of both the transport of the chemical
constituents and the geochemical processes within aquifers. Hydrogeological and hydrochemical studies in the unconfined aquifer
of Malia have provided the necessary data to define the areas at increased risk from these phenomena. The solution of the
second Fick's low under given boundary conditions gave an estimate of the propagation of groundwater pollution by NO3
–. Additionally, in order to simulate the ion concentration changes during a period, for example a period of positive water
balance or refreshening, groundwater transport and cation exchange reactions were modelled using the code PHREEQM.
Received: 25 July 1997 · Accepted: 4 November 1997 相似文献
20.
The natural (electrical) potential (NP) method – also known as self-potential, spontaneous potential and streaming potential
(SP) – has been used to locate areas of groundwater flow in karst terrane. NP is the naturally occurring voltage at the ground
surface resulting from ambient electrical currents within the earth. The measurement of NP can be used to characterize groundwater
flow in karst terrane because electrical potential gradients are generated by the horizontal flow of water along fractures
or conduits and the vertical infiltration of water into fractures or shafts. NP data from a site on the Mitchell Plain of
southern Indiana, USA, revealed that NP data can be decomposed into three components: topographic effect, residual NP and
noise. At this site, NP was inversely proportional to elevation, but the correlation varied with time. The topographic correction
factor varied from –2.5 to –1.2 mV/m (NP change per unit elevation increase), with an average linear correlation coefficient
(R) of 0.95. Because the site slopes toward an adjacent creek that is the local groundwater discharge zone, one possible explanation
for this effect is a streaming-potential mechanism generated by groundwater movement toward the creek. The residual NP data
revealed three negative anomalies at the survey area. Two of them coincide with sinkholes. A part of the third anomaly is
coincident with a small valley, and concentrated infiltration does occur at this elevation in other valleys at the site, as
evidenced by the existence of sinkholes. However, the dispersed, low-magnitude nature of the third anomaly does not prove
the existence of concentrated groundwater recharge activity.
Received: 18 March 1998 · Accepted: 27 April 1998 相似文献