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1.
A. Zaporozec Dr. 《GeoJournal》1981,5(5):457-471
Everybody wants clean water for drinking, bathing and other domestic uses, but not everybody appreciates the fact that our
own actions are often the worst enemy in achieving that goal. Ground water is one of the most misused and misunderstood resources.
Because ground water and its movement, and consequently also its pollution, is hidden from view beneath the land surface,
the seriousness of ground-water pollution problems has not been recognized until recently.
The sources of ground-water pollution are many and varied because in addition to natural processes practically every type
of facility or structure installed by man and each and every one of his activities may eventually contribute to ground-water
quality problems. The quality of ground water is most commonly affected by waste disposal. Other major sources result from
agricultural activities and ground-water development. In addition to these three major categories, there are other potential
sources of pollution, such as mining, spills, leakage from underground pipes and tanks, and road salting.
All of these activities can generate pollutants which eventually may enter the ground-water systems and slowly begin to move
through the subsurface environment. Once under the ground, the pollutants are hidden from view and the existence of ground-water
pollution becomes evident only if they reemerge on the surface or in water wells. When this occurs, it is almost too late
to do anything about it. The effects of pollution may remain in the aquifers for years, decades, or centuries, because the
residence time (turnover) of ground water is very slow. Ground-water pollution may even result in aquifers or parts of quifers
being damaged beyond repair. 相似文献
2.
Development of a coupled surface-groundwater-pipe network model for the sustainable management of karstic groundwater 总被引:1,自引:0,他引:1
This paper considers the hydrogeological simulation of groundwater movement in karstic regions using a hydrological modelling system (SHETRAN) which has been adapted for modelling flow in karstic aquifers. Flow and transport through karstic aquifers remains poorly understood, yet quantitative hydrogeological models are essential for developing and implementing groundwater protection policies. The new model has been developed and used within the STALAGMITE (Sustainable Management of Groundwater in Karstic Environments) project, funded by the European Commission. The SHETRAN model is physically based insofar as most of the parameters have some physical meaning. The SHETRAN model represents all of the key processes in the hydrological cycle, including subsurface flow in the saturated and unsaturated zones, surface flow over the ground surface and in channels, rainfall interception by vegetation canopies, evapotranspiration, snow-pack development and snowmelt. The modifications made to SHETRAN to simulate karstic aquifers are (1) the coupling of a pipe network model to a variably saturated, three-dimensional groundwater component (the VSS-NET component), to simulate flow under pressure in saturated conduits; (2) the coupling of surface water features (e.g. sinking streams or "ponors", and spring discharges) to the conduit system; (3) the addition of a preferential "bypass" flow mechanism to represent vertical infiltration through a high-conductivity epikarst zone. Lastly, a forward particle tracking routine has been developed to trace the path of hypothetical particles with matrix and pipe flow to springs or other discharge points. This component allows the definition of groundwater protection zones around a source for areas of the catchment (watershed) which are vulnerable to pollution from non-point sources (agriculture and forestry). 相似文献
3.
R. Mull Dr.-Ing. 《GeoJournal》1981,5(5):473-481
In many areas, the water demand of households, industries and farms is satisfied by ground water. Because of many human activities
ground-water quality decreases, it is necessary to protect it. The quantity of pollutants entering the aquifers can be minimized
by technical and legal measures. But it seems to be almost impossible to solve the problem regionally or nationwide. The delineation
of protection zones around existing or planned wells is a more effective way.
The intake area of wells or well fields have to be protected by legal measures against all activities which may affect ground-water
quality. Regarding the migration of viruses and bacteria, it is well known that these biological pollutants have a distinct
limited lifetime in aquifers, which is for West Germany estimated at 50 days. Because during this limited time they can move
with the ground water, transfer diseases, and cause epidemics, certain zones around wells must be kept free from activities
which may introduce bacteria into the subsurface systems. These zones are generally smaller than the catchments. For the determination
of the zones, careful studies and calculations of the distance-velocity of ground water are necessary. Primary methods are
the use of tracers and simple calculations. Examples are given for calculating the distance to the 50-day line, based on West
German experience. 相似文献
4.
The recent assessment of the Mitchell Creek Landslide (MCL) in northern British Columbia is a good case history of engineering geomorphological analysis of a large landslide. It was completed using historic aerial photographs, with approximately 20-year time intervals dating back to the mid-twentieth century and field investigations completed between 2008 and 2014. The large bedrock slide initiated between 1956 and 1972 and continues to experience ongoing annual movements. Significant glacial downwasting and retreat has been observed in the photographic record, and it is hypothesized that alpine glaciation has contributed to development of the MCL. This paper documents four aspects of the engineering geomorphological assessment completed at the MCL: (i) topographic evolution, (ii) slope morphology, (iii) deformation features, and (iv) displacement behavior. Four distinct geomorphic zones have been defined at the MCL based on these analyses, controlled by different failure mechanisms. The extents of these zones have changed little over the documented history of the landslide, and rates of movement estimated from aerial photography have been consistent over the last 60 years. Retreat of the Mitchell Valley Glacier appears to have played an important role in landslide initiation, as the ice mass receded the kinematic freedom of the slope increased. This study of the initiation and development of the MCL demonstrates the capabilities of a multi-faceted approach to engineering geomorphology. The combination of historical aerial photographs with digital photogrammetric modeling and point cloud analysis techniques, and geomorphological mapping, allows for development of a robust understanding of landslide behavior. 相似文献
5.
Dr. A. Zaporozec 《GeoJournal》1983,7(5):427-433
Ground-Water could be considered as an immense reservoir, from which only a certain amount of water can be withdrawn without affecting the quantity and quality of water. This amount is determined by the characteristics of the environment in which ground-water occurs and by the interactions of ground-water with precipitation, surface water, and people. It should be recognized that quantity and quality of ground-water are intimately related and should be considered accordingly. Quantity refers to usable water and water is usable for any specific purpose only so long as its quality has not deteriorated beyond acceptable limits. Thus an overall quantitative and qualitative management of ground water is inevitable, and its should also involve the uses of ground-water reservoirs for purposes other than water supply. The main objective of ground-water management is to ensure that ground-water resources will be available in appropriate time and in appropriate quantity and quality to meet the most important demands of our society. Traditional, and obvious uses of ground-water are the extraction of water for water supplies (domestic, municipal, agricultural, and industrial) and the natural discharge feeding lakes and maintaining base flow of streams. Not so obvious are the uses of ground-water reservoirs, the very framework within which ground-water occurs and moves, and in which other fluids or materials can be stored. In the last two decades, ground-water reservoirs have been intensively considered for many other purposes than water supplies. Diversified and very often conflicting uses need to be evaluated and dealt with in the most efficient way in order to determine the importance of each possible use, and to assign priorities of these uses. With rising competition for the use of ground-water reservoirs, we will also need to increase the potential for effective planning of ground-water development and protection. Man's development and use of ground-water necessarily modifies the natural conditions and the total natural system must be successfully blended with the unnatural stresses placed upon it. This can be accomplished by introducing new methods (such as ground-water zoning) in and by developing alternative strategies for ground-water management and protection. 相似文献
6.
In intra-plate regions with low-seismic activity, seismic cycles last between 103 and 105 years and, consequently, quiescent faults may be capable of producing catastrophic earthquakes. Paleoseismic studies, which
are necessary to define capable faults in these regions and to establish their seismic parameters, are scarce and not always
possible. In order to overcome the scarcity of paleoseismic data, this paper proposes an approach to evaluate the capability
and seismic parameters of faults. This approach takes into account instrumental, historical, paleoseismological and geological
data. Assuming that in a given structural region with definite climatic and geological characteristics similar geomorphic
features reflect a similar structural-seismic evolution, the capability of faults is established by comparing the fault related
geomorphic features of the few proven seismogenic faults with those of the rest of the faults. The seismic parameters were
estimated using some mathematical relationships from geological and geomorphological data, where the slip rate of the faults
was determined from geological and geomorphological criteria. The case of eastern Iberia is presented to illustrate this approach.
This area is characterized by low seismicity, few historical destructive earthquakes, and only one fault with good paleoseismological
data. Of the 249 potential faults (longer than 10 km and adequately oriented with respect to the current stress field), 23
were regarded as capable faults. Some of these were located in seismic quiescent areas, and their main seismic parameters
were estimated. 相似文献
7.
Hydrogeomorphological and groundwater prospects of the Pageru river basin by using remote sensing data 总被引:2,自引:0,他引:2
Hydrogeomorphology and lineament studies have been completed by using satellite data for the Pageru river basin, Cuddapah district, Andhra Pradesh, India through visual interpretation of IRS-1B-LISS II FCC (57J/6, J/7, J/10 and J/11) on a 1:50,000 scale. The area has been visually interpreted to delineate various hydrogeomorphic units and lineaments for the development of groundwater. From these studies, various geomorphic units were classified as favourable, moderately favourable and poor zones of groundwater. The integration of geomorphology and lineament studies reveal that shallow groundwater occurrence is controlled by geomorphological characteristics whereas faults/fractures control the yield of groundwater at intermediate depths. 相似文献
8.
Armugha Khan Liaqat A. K. Rao Ali P. Yunus Himanshu Govil 《Arabian Journal of Geosciences》2018,11(17):525
River planform features and sinuosity are widely acknowledged as important geomorphological indices that control the channel hydraulics and stream power which determines the flow velocity and sediment supply to downstream reaches. Despite their significance, there has been little study about these indices in mighty Yamuna River for understanding the topographic control and hydraulic regime. This paper investigates the channel planform features and sinuosity by employing topographic map, digital elevation model (DEM), and satellite imageries to elucidate the morphological, sedimentological, and hydrological characteristics of the channel. Based on sinuosity index (varies between 1.02 and 1.41), the river segments are categorized into straight (segments 1, 3, 4, 5, 6), sinuous (segments 2, 7, 8, 9, and 11), and meandering (segment 10). The parameters analyzed to find out the influencing factors on sinuosity indicate geomorphological and anthropologic control in their development. Tectonic control of sinuosity in the studied stretch is ruled out as it is flowing through an alluvial plain with low rate of discharge. 相似文献
9.
Identifying potential sites for artificial groundwater recharge in sub-watershed of River Kanhan,India 总被引:5,自引:3,他引:2
Groundwater is an important decentralized source of drinking water. Being underground, it is relatively less susceptible to
contamination. In addition to domestic needs, it is extensively used for irrigation and industrial purposes. It is therefore
necessary to implement groundwater recharge systems by capturing the rainwater runoff. In the present study, GIS-based hydrological
assessment of watershed has been used to identify the potential sites for locating the groundwater recharge structures. Based
on land use, soil and topography, rainfall runoff modelling was carried out in GIS for a sub-watershed of River Kanhan, in
Nagpur District, Maharashtra State, India. Five potential sites with maximum flow accumulation were delineated using the rational
method for peak runoff estimation. As the groundwater recharge potential also depends on the geological and geomorphological
characteristics of land, analytic hierarchy process (AHP) with expert’s judgement was used for ranking the sites. The criteria
considered in AHP were geological features, i.e. lineament density, depth to bedrock and soil cover; geomorphological features,
i.e. drainage density, slope, landforms and land use/land cover; and water table level fluctuation. The site P5 with maximum
flow accumulation and sandstone rock formation was ranked first. The site P1, where catchment has well-developed drainage
and geological formation shows rock with secondary porosity, was ranked second. 相似文献
10.
Hydrological and hydrogeological characterization of groundwater and river water in the North Hanoi industrial area,Vietnam 总被引:1,自引:0,他引:1
Nguyen Van Giang Le Ngoc Thanh Vu Quang Hiep Noboru Hida 《Environmental Earth Sciences》2014,71(11):4915-4924
Degradation of groundwater quality by human activities is a widespread environmental problem in Vietnam. Groundwater there is a major source of water for domestic and industrial purposes. This paper reviews, compiles, and comprehensively analyzes spatiotemporal variations of hydrological and hydrogeological characteristics of shallow and deep groundwater aquifers in northern Hanoi industrial zones and in nearby Red River water. Groundwater level, electrical conductivity, and water temperature were measured in six monitoring wells, complemented by anion, cation, and stable isotope analyses of ground and surface water. The results show that the groundwater in both shallow and deep aquifers was fresh, but mainly calcium-bicarbonate type contaminants and human activities affect groundwater and surface water composition. With the goal of devising sustainable water use regulations, more research must be directed toward long-term monitoring of groundwater and surface water quality, as well as toward detailed investigation of the hydraulic characteristics of local aquifers in the study area. 相似文献
11.
古洪水事件重建是地貌学与环境变化领域的前沿性课题之一。高山峡谷基岩河段是古洪水重建的理想场所,通过系统梳理国内外文献,评述古洪水事件重建研究进展,认为识别古水位标志(palaeo-stage indicators)、系统建立流域尺度洪水综合地貌证据是古洪水重建的前提和基础。而不同类型的古洪水地貌证据中,古洪水滞流沉积物(slackwater deposits,SWD)是最完整的具有确切水位标志指示意义的高水位悬移质沉积物,而其他边滩坝体(bars)是指示洪水路径和水动力条件的低水位标志沉积物。基于这些洪水地貌证据与水位标志物指示,采用多种水力学模型重建古洪水规模。同时采用多种测年方法相互验证建立可靠完整的古洪水事件年代序列。从点到面建立古洪水事件数据库,提出不同成因类型古洪水事件的时空模式,系统揭示特大洪水发生规律及其演化趋势。其中,青藏高原周缘灾难性古洪水事件在形成年代、地貌证据和水文模拟等方面具有鲜明的时空特征与地貌效应,这些对认识全球末次冰期巨型洪水事件具有重要意义。在特定的时空尺度范围内评估极端洪水事件的地表过程与地貌效应,甚至大陆尺度灾难性古洪水研究已经拓展到行星尺度洪水地貌。此外,高山峡谷现代大洪水地貌原型观测对理解古洪水水文过程机制等具有重要的参考价值。 相似文献
12.
Y Zarhloule A Lahrache L Ben Abidate D Khattach S Bouri A Boukdir H Ben Dhia 《Journal of African Earth Sciences》2001,32(4):131
Shallow geothermal prospecting ( < 700 m) has been performed in four zones in Morocco for which few deep data are available: northwestern basin, northeastern basin, Tadla Basin and Agadir Basin. These areas are different geologically and hydrogeologically. The temperature data from 250 wells at depths between 15 and 500 m have been analysed in order to estimate the natural geothermal gradient in these areas, to determine the principal thermal anomalies, to identify the main thermal indices and to characterise the recharge, discharge and potential mixing limits of the aquifers.The hydrostratigraphical study of each basin revealed several potential reservoir layers in which the Turonian carbonate aquifer (Tadal and Agadir Basins) and Liassic acquifer (Moroccan northwestern and northeastern basins) are the most important hot water reservoirs in Morocco. The recharge zones of each aquifer are characterised by high topography, high water potential, shallow cold water, low geothermal gradient and negative anomalies. The discharge zones are characterized by low topography, low piezometric level, high geothermal gradient, high temperature with hot springs and positive anomalies. The main thermal indices and the principal thermal anomalies that coincide with the artesian zones of the Turonian and Liassic aquifers have been identified. 相似文献
13.
A case study was conducted to find the groundwater potential zones in an area between the Serang and Bogowonto rivers, Kulon Progo Regency, Java, Indonesia. The objectives of this study were to delineate the groundwater potential zone based on a number of groundwater parameters that can be surveyed in the field and to incorporate the geomorphological conditions into these data. The geomorphology interpretation was conducted using the landform approach. This approach begins by preparing supporting data such as an Indonesian Topographic Map containing contour and land use data; a regional geology map containing lithology type and geology structures; and soil, climate, and hydrological data. The determination of the geomorphology unit was conducted manually by the visual interpretation of Digital Landsat ETM+ with some image interpretation keys. Four groundwater parameters were surveyed in the field: (a) depth to the water table, (b) water table fluctuation, (c) fluid electrical conductivity to represent groundwater quality, and (d) aquifer thickness. The groundwater potential zones were obtained by overlaying all the groundwater field parameters in terms of weighted overlay methods using the spatial analysis tool in ArcGIS 9.2. During the weighted overlay analysis, rankings were produced for each individual parameter of each groundwater field parameter, and weights were assigned based on the amount of influence they had (i.e., depth to the water table—30 %, water table fluctuation—20 %, aquifer thickness—30 %, and fluid conductivity—20 %). We then found the good, moderate, and poor zones in terms of groundwater potential, which had areas of 5.83, 4.53, and 2.36 km2, respectively. Areas with good groundwater potential are located largely within sand dunes, beach ridges, beaches, and fluviomarine plain landforms, which are characterized by a shallow water table, low fluctuation, thick aquifer, and low EC value. Moderate groundwater zones are generally characterized by poor water quality (high EC value), which is found to some degree in the alluvial plain. The regions with poor groundwater potential are spread mainly across the landforms composed of igneous rock (thin aquifers), such as denudational hills, which act as run-off zones due to their steep slope. 相似文献
14.
C. P. Young 《Environmental Geology》1983,5(1):11-18
The potential of certain agricultural activities for groundwater pollution has long been recognized. Intensification of agriculture,
increases in land area devoted to arable crops, intensification of animal husbandry, and a move away from arable rotations
toward monoculture have affected groundwater nitrate content and necessitate continued close monitoring of groundwater. Investigative
techniques vary, and have included systematic collection of water quality data from the saturated zone of aquifers, determining
solute concentrations in pore waters present in unsaturated zones overlying unconfined aquifers, and deep profiling of consolidated
aquifers. Pore water has been analyzed for both chemical components and thermonuclear tritium.
Studies continue throughout the world. The results of several of these from various countries are included in the Symposium. 相似文献
15.
M. A. Al-Sarawi 《GeoJournal》1995,35(4):493-503
This paper represents the first attempt to divide the surface geomorphology of Kuwait into four major geomorphic zones; a) the coastal zone; b) the wadis and ridges zone; c) the lowland zone; and d) the dune fields zone. Tectonics as well as climate changes play a major role in the distribution and evolution of land form features. Palaeosols and fresh water aquifers reflect wetter climate. 相似文献
16.
Yohta Kumaki 《GeoJournal》1996,38(3):373-377
Most natural disasters in mountainous area are caused by mass-movement, which is a process of geomorphic changes. Therefore geomorphological survey is very useful for hazard assessment of mountainous area. The Geographical Survey Institute of Japan has been conducting such geomorphological hazard assessment survey paying attention to dissection process, and has been preparing geomorphological maps to help estimate the disaster potential. In case of the national highway disaster measure survey, 1:5,000 detailed geomorphological maps are made with special emphasis on the mass-movement landforms such as the dissection fronts, i.e., continuous kick lines where landslidings are concentrated, landslide forms, the stream bed deposits, piedmont landforms indicating past debris flows, etc. 相似文献
17.
Zhenhan Wu Patrick J. Barosh Daogong Hu Zhonghai Wu Ye Peisheng Liu Qisheng Zhou Chunjing 《Engineering Geology》2005,79(3-4):267-287
Most pingos in the permafrost region of the high northern Tibetan Plateau form along active fault zones and many change position annually along the zones and thus appear to migrate. The fault zones conduct geothermal heat, which thins permafrost, and control cool to hot springs in the region. They maintain ground-water circulation through broken rock in an open system to supply water for pingo growth during the winter in overlying fluvial and lacustrian deposits. Springs remain after the pingos thaw in the summer. Fault movement, earthquakes and man's activities cause the water pathways supplying pingos to shift and consequently the pingos migrate.
The hazard posed to the new Golmud–Lhasa railway across the plateau by migrating pingos is restricted to active fault zones, but is serious, as these zones are common and generate large earthquakes. Pingos have damaged the highway and the oil pipeline adjacent to the railway since 2001. One caused tilting and breaking of a bridge pier and destroyed a highway bridge across the Chumaerhe fault. Another has already caused minor damage to a new railway bridge. Furthermore, the construction of a bridge pier in the North Wuli fault zone in July–August 2003 created a conduit for a new spring, which created a pingo during the following winter. Measures taken to drain the ground-water via a tunnel worked well and prevented damage before the railway tracks were laid. However, pier vibrations from subsequent train motion disrupted the drain and led to new springs, which may induce further pingo growth beneath the bridge.
The migrating pingos result from active fault movement promoting artesian ground-water circulation and changing water pathways under the seasonal temperature variations in the permafrost region. They pose a serious hazard to railway construction, which, in turn can further disturb the ground-water conduits and affect pingo migration. 相似文献
18.
Water vulnerability assessment in karst environments: a new method of defining protection areas using a multi-attribute approach and GIS tools (EPIK method) 总被引:42,自引:12,他引:30
Groundwater resources from karst aquifers play a major role in the water supply in karst areas in the world, such as in Switzerland.
Defining groundwater protection zones in karst environment is frequently not founded on a solid hydrogeological basis. Protection
zones are often inadequate and as a result they may be ineffective. In order to improve this situation, the Federal Office
for Environment, Forests and Landscape with the Swiss National Hydrological and Geological Survey contracted the Centre of
Hydrogeology of the Neuchatel University to develop a new groundwater protection-zones strategy in karst environment. This
approach is based on the vulnerability mapping of the catchment areas of water supplies provided by springs or boreholes.
Vulnerability is here defined as the intrinsic geological and hydrogeological characteristics which determine the sensitivity
of groundwater to contamination by human activities. The EPIK method is a multi-attribute method for vulnerability mapping
which takes into consideration the specific hydrogeological behaviour of karst aquifers. EPIK is based on a conceptual model
of karst hydrological systems, which suggests considering four karst aquifer attributes: (1) Epikarst, (2) Protective cover,
(3) Infiltration conditions and (4) Karst network development. Each of these four attributes is subdivided into classes which
are mapped over the whole water catchment. The attributes and their classes are then weighted. Attribute maps are overlain
in order to obtain a final vulnerability map. From the vulnerability map, the groundwater protection zones are defined precisely.
This method was applied at several sites in Switzerland where agriculture contamination problems have frequently occurred.
These applications resulted in recommend new boundaries for the karst water supplies protection-zones.
Received: 27 October 1997 · Accepted: 4 July 1998 相似文献
19.
Water management and engineering in the karstic High Atlas of Morocco are difficult tasks under the prevailing geological, hydrogeological, geomorphological, vegetational and climatic conditions. It is important to be able to understand and predict the characteristics and availability of water for future water planning in the region under changing climatic and agricultural conditions. An interdisciplinary analysis of problems and adequate hydrological modelling tools developed by geologists, hydrologists and biologists are necessary. The karst areas of the High Atlas Mountains are characterised by impermeable triassic basalt underlying substantial subsurface reservoirs with high potential discharge rates. The karst groundwater aquifers are extensive but largely unknown in dimension, probably with a hierarchical network of groundwater flow paths. It is estimated that approximately 70% of the surface water is directly lost to groundwater. Steep landslide- and debris flow prone slopes exist next to coarse-grained, highly porous river beds. Infrequent, high intensity rainfall or snowmelt causes a particularly high flood risk to these karst areas. In addition, agriculture and land use changes have degraded the karst areas. The most important driving forces for degradation include permanent overgrazing even during droughts and the use of firewood by a continually growing population. Large scale degradation of vegetation has occurred in the oro-mediterranean (mountainous Mediterranean) zone, between 2600 and 3400 m which coincides with the most important zone for karstic groundwater creation. The combination of high amounts of groundwater flow and rapid surface flow due to sparse vegetation has increased the problems of flood flow. 相似文献
20.
Rahim Bagheri Hadi Jafari Aliakbar Momeni Fatemeh Bagheri 《Arabian Journal of Geosciences》2016,9(19):731
The recession hydrographs of karst springs provide important information about aquifer characteristics such as storage properties and drainage potential, karstification degree, and other hydrological features. The Faresban, Famaasb, Gonbad-e-Kabood, and Gian springs are the important karst springs which drain main karst aquifers in west of Iran. In this study, we evaluate hydrological characteristics of these four karst springs using different analytic equations. Almost, all the recession curves were well fitted by a function that consists of three main exponential terms. The initial portion of the recession curve represents the fast drainage of large fractures and conduits, ending with the slowly decreasing curve, where the drainage of rock matrix and small fissures or baseflow is dominant. The Gian spring has the largest storage volume but the lowest drained water (7%). Using Mangin’s equation, it is apparent that the baseflow supplies over 85% of the total drained water to the Gian spring, while a small quantity of total outflow is made up of quickflow periods. Of the water available to the Famaasb, Faresban, and Gonbad-e-Kabood springs, 85, 80, and 70% are drained during period of baseflow, respectively, whereas the quickflow periods have minor importance in some springs. Based on the Coutagne’s equation results, it can be concluded that the catchment of the Famaasb and Gonbad-e-Kabood springs have a karstified saturation zone with drainage channels that provide a rapid discharge with little storage capacity. At Gian catchment area, the initial discharge is not as rapid as karstification but is fairly homogeneous throughout the aquifer. 相似文献