共查询到20条相似文献,搜索用时 15 毫秒
1.
Bodrum Peninsula is located between Hellenic Trench in the west and Gökova Fault Zone in the east which is affected by hundreds of earthquakes every year. Because of its active environment is allowed to monitor tracers/precursors continuously to analyse natural processes. This study focused on the determination of ground water radon (222Rn) concentrations in the Bodrum Peninsula in terms of seismic activities. Radon levels of ten ground water wells were measured periodically throughout the peninsula and these wells were divided into two groups according to the number of earthquakes they are exposed. Radon variations in second group stations are fairly significant as a result of high number of earthquakes. In these stations, radon continuously increased before the seismic storm and then decreased step by step. The results indicated that radon variations in ground waters of Bodrum Peninsula can be a good indicator for seismic storms instead of one specific event. 相似文献
2.
Groundwater electrical conductivity and soil radon gas monitoring for earthquake precursory studies in Koyna, India 总被引:3,自引:0,他引:3
Hourly monitoring of electrical conductivity (EC) of groundwater along with groundwater levels in the 210 m deep boreholes (specially drilled for pore pressure/earthquake studies) and soil Rn gas at 60 cm below ground level in real time, in the Koyna-Warna region (characterized by basaltic rocks, >1500 m thick, and dotted with several sets of fault systems), western India, provided strong precursory signatures in response to two earthquakes (M 4.7 on 14/11/09, and M 5.1 on 12/12/09) that occurred in the study region. The EC measured in Govare well water showed precursory perturbations about 40 h prior to the M 5.1 earthquake and continued further for about 20 h after the earthquake. In response to the M 4.7 earthquake, there were EC perturbations 8 days after the earthquake. In another well (Koyna) which is located 4 km north of Govare well, no precursory signatures were found for the M 4.7 earthquake, while for M 5.1 earthquake, post-seismic precursors were found 18 days after the earthquake. Increased porosity and reduced pressure head accompanied by mixing of a freshwater component from the top zone due to earthquakes are the suggested mechanisms responsible for the observed anomalies in EC. Another parameter, soil Rn gas showed relatively proportional strength signals corresponding to these two earthquakes. In both the cases, the pre-seismic increase in Rn concentration started about 20 days in advance. The co-seismic drop in Rn levels was less by 30% from its peak value for the M 4.7 earthquake and 50% for the M 5.1 earthquake. The Rn anomalies are attributed to the opening and closing of micro-fractures before and during the earthquake. On line monitoring of these two parameters may be useful to check the entire chemistry change due to earthquake which may help to forecast impending earthquakes. 相似文献
3.
Jianguo Du Kazuhiro Amita Shinji Ohsawa Youlian Zhang Chunli Kang Makoto Yamada 《Applied Geochemistry》2010
The formation of imminent hydrochemical precursors of earthquakes is investigated by the simulation for water–rock reaction in a brittle aquifer. Sixty-one soaking experiments were carried out with granodiorite and trachyandesite grains of different sizes and three chemically-distinct waters for 6 to 168 h. The experimental data demonstrate that water–rock reaction can result in both measurable increases and decreases of ion concentrations in short times and that the extents of hydrochemical variations are controlled by the grain size, dissolution and secondary mineral precipitation, as well as the chemistry of the rock and groundwater. The results indicate that water–rock reactions in brittle aquifers and aquitards may be an important genetic mechanism of hydrochemical seismic precursors when the aquifers and aquitards are fractured in response to tectonic stress. 相似文献
4.
Characterization and evaluation of the factors affecting the geochemistry of groundwater in Neyveli,Tamil Nadu,India 总被引:1,自引:0,他引:1
M. Jayaprakash L. Giridharan T. Venugopal S. P. Krishna Kumar P. Periakali 《Environmental Geology》2008,54(4):855-867
In order to achieve a better understanding of the nature of the factors influencing ground water composition as well as to
specify them quantitatively, multivariate statistical analysis (factor analysis) were performed on the hydrochemical data
of this area. R-mode factor analysis was carried out on the geochemical results of the 79-groundwater samples and the factor
scores were transferred to areal maps. Fundamental chemical parameters of the groundwater have been compounded together for
characterizing and interpreting a few empirical hydrogeochemical factors controlling the chemical nature of water. R-mode
factor analysis reveals that the groundwater chemistry of the study area reflects the influence of anthropogenic activities,
silicate weathering reactions, precipitation, dissolution and subsequent percolation into the groundwater. The data have been
put into few major factors and the seasonal variation in the chemistry of water has been clearly brought out by these factors.
Factor scores were transferred to contour diagrams and the factor score analysis has been used successfully to delineate the
stations under study with various factors and the seasonal effect on the sample stations. 相似文献
5.
Hydrogeochemical data for 18 groundwater samples and 11 hydrochemical parameters were subjected to Q- and R-mode cluster analysis and inverse geochemical modeling. Q-mode cluster analysis resulted in three distinct water types (brackish water type, saline water type and highly saline water type). R-mode cluster analysis led to the conclusion that the water–rock interaction is the major source of contamination for the groundwater in the area. Geochemical modeling results show that carbonates, gypsum, halite, carbon dioxide (gas), and chlorite are dissolving, whereas Ca-montmorillonite, gibbsite, illite, K-mica, kaolinite, and quartz are mostly precipitating along different flow paths in the groundwater system of the area. 相似文献
6.
Marco Tallini Barbara Parisse Marco Petitta Michele Spizzico 《Hydrogeology Journal》2013,21(7):1447-1467
In the Gran Sasso fissured carbonate aquifer (central Italy), a long-term (2001–2007) spatio-temporal hydrochemical and 222Rn tracing survey was performed with the goal to investigate groundwater flow and water–rock interaction. Analyses of the physico-chemical parameters, and comparisons of multichemical and characteristic ratios in space and time, and subsequent statistical analyses, permitted a characterisation of the hydrogeology. At the regional scale, groundwater flows from recharge areas to the springs located at the aquifer boundaries, with a gradual increase of mineralisation and temperature along its flowpaths. However, the parameters of each group of springs may significantly deviate from the regional trend owing to fast flows and to the geological setting of the discharge spring areas, as corroborated by statistical data. Along regional flowpaths, the effects of seasonal recharge and lowering of the water table clearly cause changes in ion concentrations over time. This conceptual model was validated by an analysis of the 222Rn content in groundwater. 222Rn content, for which temporal variability depends on seasonal fluctuations of the water table, local lithology and the fracture network at the spring discharge areas, was considered as a tracer of the final stages of groundwater flowpaths. 相似文献
7.
China Metropolitan area around Beijing is one of the earthquake test sites in Continental China. Through more than 20 years of hard work, abundant seismic, geological, geophysical and geochemical data have been obtained, and the variation of seismic, geophysical and geochemical parameters was recorded before several strong earthquakes and some moderate earthquakes in this area. In this paper, we chose 19 high qualified observatory parameters in this area to establish a multidisciplinary system for earthquake forecast, including apparent resistivity, ground water level, ground-level, tilt, radon content in groundwater, volumetric strain, Hg content in groundwater, low frequency electric signal. We calculate the synthetic information by a simple algorithm. The procedure is: firstly, we detect the abnormal intervals of the observatory data by some data analysis methods such as filtering, differencing, etc.; secondly, we endow the value of 1 to the abnormal intervals and 0 to other intervals and produce a new time series of data set of the ith parameter; thirdly, we compose the value of the new time series of 19 observatory parameters and obtain the normalized value as called synthetic information. The result shows that there are high correlations between the high synthetic information and the earthquakes with M ≥ 5.0 in this area. The earthquakes almost occurred several days to several months after the peak value of the synthetic information. This synthetic method might be taken for a short-term prediction method for M ≥ 5.0 earthquakes in this area. 相似文献
8.
Hormozgan Province with arid climate is an important source of energy resources for Iran. This study investigates the results of hydrogeochemical investigation and its tectonic control in Hormozgan Province, Southern Iran. The chemical analysis of 158 groundwater samples was evaluated to determine the hydrogeochemical processes and ion concentration background in the region. Several NW-SE trending and NE-dipping basement reverse faults have intersected the area and have divided it into four tectonic terranes. Huge extension of Hormuz Formation in Zagros Foredeep tectonic terrane has increased the cations, Cl and SO4 concentration in groundwaters. HCO3 concentration in Sanandaj-Sirjan Zone and High Zagros is the result of silicate weathering or carbonates. Eighty-three percent of samples have negative CAI values in High Zagros, Sanandaj-Sirjan Zone, and eastern Zagros Fold Thrust Belt. The dominant hydrochemical facies of groundwater are Na-Mg-Ca-Cl (25.3% of samples) and Na-Mg-Cl (20.9% of samples). They are confined to the west of Main Zagros Reverse Fault and east of High Zagros Fault, respectively. The salt content of the groundwater indicates samples with very high salinity—as a result of Hormuz Formation—are mainly limited to the west of High Zagros Fault while samples with high to medium salinity are mainly limited to the east of this fault. Eastward increment of rock weathering is controlled with thrust faults activity of the area and southwestward migration of deformation front. Westward increment of evaporites is compatible with Hormuz Formation/salt dome density through the area. 相似文献
9.
10.
《Applied Geochemistry》1993,8(3):223-233
Surveys of the distribution and migration of He and Rn were carried out in the well-characterized granitic terrane of the AECL Underground Research Laboratory (URL), Manitoba as part of a joint AECL Research, United Kingdom Department of the Environment, and United States Department of Energy research initiative. The investigations were designed to determine whether concentrations of He and Rn in soil gases could be used to identify locations of groundwater recharge and discharge from bedrock fractures. The results obtained indicate that subsurface transport of He and possibly Rn in this setting appears to be controlled largely by the groundwater flow system in the bedrock. Release of dissolved gases near the ground surface causes soil gas anomalies, which reflect discharge from the deeper flow system. In the recharge area of the deep groundwater flow system at the URL site, He abundances are close to the atmospheric level, but the discharge area of the deep flow system is characterized by significant He anomalies (up to 0.5 ppm above atmosphere levels). For Rn, the recharge area has broadly distributed high concentrations, probably caused by local Rn production in U-rich overburden, while the discharge area has only localized concentrations of Rn, which are not at the same location as the He anomalies. The general nature of the groundwater flow regime in both areas is reflected in the presence and distribution of the soil gas anomalies. In addition, major fractures in bedrock, which act as preferential groundwater flow paths, have been located from soil gas anomalies, even when obscured by overburden of variable thickness and character. The distribution of He in soil gas appears to be most representative of groundwater recharge and discharge conditions in the granitic rock, while Rn may be useful for locating specific channels where more rapid groundwater discharge is occurring from deep fracture zones. 相似文献
11.
Si Jianhua Feng Qi Wen Xiaohu Su Yonghong Xi Haiyang Chang Zongqiang 《Environmental Geology》2009,57(5):1079-1087
The Ejina Basin, located in arid northwest China, is one of the most arid areas in the world. In recent years, rapid development
has created a greater demand for water which is increasingly fulfilled by groundwater abstraction. Detailed knowledge of geochemical
evolution of groundwater and water quality can improve the understanding of a hydrochemical system, and promote sustainable
development and effective management of groundwater resources. To this end, a hydrochemical survey was conducted in the Ejina
Basin in order to identify the major hydrochemical characteristics. The results of chemical analysis indicate that groundwater
in the area is brackish. The major ions, TDS, and hydrochemical types of different areas are highly variable and show an obvious
zonation from the recharge area to the discharge area. Saturation index (SI), calculated according to the ionic ration plot,
indicates that the gypsum-halite dissolution reactions take place under the condition of the rock weathering to some extent,
and evaporation is the dominant factor to determine the major ionic composition in the study area. 相似文献
12.
Earthquake-related hydrochemical changes in thermal springs have been widely observed; however, quantitative modeling of the reactive transport process is absent. In the present study, we apply reactive transport simulation to capture the hydrochemical responses in a thermal spring following the Wenchuan Ms 8.0 and Lushan Ms 7.0 earthquakes. We first constrain deep reservoir geothermal fluid compositions and temperature by multicomponent geothermometry, and then a reactive geochemical transport model is constructed to reproduce the hydrochemical evolution process. The results show that the recharge from the shallow aquifer increases gradually until it reaches a peak because of the permeability enhancement caused by the Lushan earthquake, which may be the mechanism to explain the earthquake-related hydrochemical responses. In contrast to the postseismic effect of the Wenchuan earthquake, the chemical evolution can be considered as hydrochemical anomalies related to the Lushan earthquake. This study proves that the efficient simulation of reactive transport processes is useful for investigating earthquake-related signals in hydrochemical time series. 相似文献
13.
The Çeltikçi (Burdur) plain is located in the southwest of Turkey and is a semi-closed basin. Groundwater is densely used as drinking, irrigation and domestic water in the plain. Hydrogeochemical processes controlling groundwater chemistry and geochemical assessment of groundwater were investigated in the Çeltikçi (Burdur/Turkey) plain. In this study, groundwater samples for two seasons were analyzed and major ion chemistry of groundwater was researched to understand the groundwater geochemistry. Two major hydrochemical facies (Ca–HCO3 and Ca–Mg–HCO3) were determined in the area. Various graphical plots and multivariate statistical analysis were used for identifying the occurrence of different geochemical processes. In the study area, weathering is one of the key geochemical processes which controlled the solute concentration in groundwater. Chemical indexes such as sodium adsorption ratio, %Na, residual sodium carbonate, magnesium hazard and permeability index were calculated and results show that groundwater is suitable for irrigation purpose except for permeability index values. Concentrations of Mn, NO3 and total hardness exceed the prescribed limits of WHO and are the major limiting parameters of groundwater use for potable and domestic purposes. 相似文献
14.
邵武-河源断裂带活动性及分段评价 总被引:1,自引:1,他引:0
邵武-河源断裂带是东南沿海地震亚区的西界。这条闽、赣、粤3省边界活动性断裂带包含3条形态各异、特征不同的较大断裂带,北段为邵武(福建)-石城断裂带,中段为瑞金-寻乌断裂带,南段为龙川(广东)-河源断裂带。3条断裂带并非首尾衔接,而是呈右列式多字型排列,长约750km,在江西境内近400km(占全长53%)。本文侧重研究江西境内的构造特征、地震、温泉和地裂缝展布特征,探讨其活动性以及对地壳稳定性的影响。笔者认为,邵武-河源活动性断裂带引起大震的可能性非常小,但分散小震有可能发生. 相似文献
15.
滨海断裂带是南海北缘的一条大型活动断裂带,其位置靠近我国华南沿海地区。滨海断裂带全长超过1200 km,包括西段(北部湾- 阳江),中段(珠江口)和东段(粤东- 福建)。其西段和东段历史上至少曾发生过4次大地震(M7+),中段目前是一个大地震空区。在经济高速发展和人口高度密集的今天,如果滨海断裂带再次发生大地震并触发海啸,必将对我国华南沿海地区造成灾难性破坏。由于缺乏完整的历史地震记录和针对古地震的钻孔沉积研究,目前尚不清楚滨海断裂带大地震的准确次数、空间分布和复发周期,以及中段大地震空区的主要原因(断层蠕滑或大地震周期较长),因此无法有效评估该断裂带的大地震破裂分段和灾害风险。本研究总结了滨海断裂带的构造特征、重点描述了3次历史大地震及引发的灾害影响,和国际上针对海底大地震的钻探研究经验。根据这些信息,本文建议在断裂带的西段、中断和东段进行大洋钻探,获取穿过断层带的关键沉积和岩石样品,利用沉积古地震方法重建滨海断裂带东段和西段的大地震历史和复发周期,研究断层带的岩石物理性质,揭示滨海断裂中段大地震空区的成因,解析断层分段式破裂的原因,为我国海洋防灾减灾提供重要的科学依据。 相似文献
16.
The hydrogeochemical characterization of Morsott-El Aouinet aquifer, Northeastern Algeria 总被引:1,自引:0,他引:1
A study of the hydrogeochemical processes in the Morsott-El Aouinet aquifer was carried out with the objective of identifying
the geochemical processes and their relation with groundwater quality as well as to get an insight into the hydrochemical
evaluation of groundwater. The high salinity coupled with groundwater level decline pose serious problems for current irrigation
and domestic water supplies as well as future exploitation. A combined hydrogeologic and isotopic investigation have been
carried out using chemical and isotopic data to deduce a hydrochemical evaluation of the aquifer system based on the ionic
constituents, water types, hydrochemical facies and factors controlling groundwater quality. The ionic speciation and mineral
dissolution/precipitation was calculated by WATEQF package software. The increase in salinity is related to the dissolution
and/or precipitation processes during the water–rock interaction and to the cationic exchange reactions between groundwater
and clay minerals. The isotopic analysis of some groundwater samples shows a similarity with the meteoric waters reflect their
short residence time and a lowest evaporation phenomenon of infiltrated groundwater. 相似文献
17.
River water infiltration into an unconfined porous aquifer (∼73% gravels, ∼12% sands, ∼15% silts and clays) in the Petrignano d’Assisi plain, central Italy, was traced combining isotopic techniques (222Rn) with hydrochemical and hydrogeologic techniques in order to characterize the system under study. The 222Rn gave information about the river water residence times within the aquifer and hydrochemical data, in a two-component mixing model, which allowed estimating the extent of mixing between surface waters and groundwater in wells at increasing distances from the river. The mixing measured in the well closer to the riverbank indicated a higher contribution of river water (up to 99%) during the groundwater recession phase and a moderate contribution (up to 64%) during the recharge phase. A model describing 222Rn concentrations in groundwater as the result of both parent/daughter nuclide equilibrium and mixing process (222Rn mixing/saturation model) was used to describe observed Rn concentrations and mixing index trends with the aim of evaluating water mean infiltration velocities along the transect. The stream bank infiltration velocities obtained by the model ranged from 1 m day−1 during groundwater recharge periods, when river water infiltration is lower, to 39 m day−1 during recession phases, when river water infiltration is larger. 相似文献
18.
Abdelkader Rouabhia Fethi Baali Chemseddine Fehdi Boumezbeur Abderrahmane Boubaya Djamel 《Arabian Journal of Geosciences》2011,4(5-6):973-982
In this work, we present results of the hydrogeochemical and isotopic studies on groundwater samples from the El Ma El Abiod Sandstone aquifer, in Tébessa, Algeria. Chemical and environmental isotope data are presented and discussed in order to identify the geochemical processes and their relation with groundwater quality as well as to get an insight into the hydrochemical evaluation, in space and time, of groundwater and of the origin of dissolved species. A combined hydrogeologic and isotopic investigation have been carried out using chemical and isotopic data to deduce a hydrochemical evaluation of the aquifer system based on the ionic constituents, water types, hydrochemical facies, and factors controlling groundwater quality. All of the investigated groundwaters are categorized into two chemical types: low mineralized water type and relatively high mineralized water type. Interpretation of chemical data, based on thermodynamic calculations and geochemical reaction models of selected water groups constructed using PHREEQC, suggest that the chemical evolution of groundwater is primarily controlled by water–rock interactions, involving (1) acidic weathering of aluminosilicates, (2) dissolution of secondary carbonate minerals, and (3) cation exchange of Na+ for Ca2+. However, the original composition of groundwater may have been modified by further secondary processes such as mixing of chemically different water masses. The combined use of SI and mass-balance modeling has shown to be a useful approach in interpreting groundwater hydrochemistry in an area where large uncertainties exist in the understanding of the groundwater flow system. Interpretation of 18O and 2H, suggest that the recharge of the investigated groundwaters may result from different mechanisms. 相似文献
19.
针对煤矿水文地质勘探过程中存在的水文地球化学异常问题,以蒙陕矿区侏罗系含水层为研究对象,开展了水化学异常原因分析和判别标准构建,结果表明:勘探过程中以"水清沙净"为判别洗井完成的依据不充分,水泥浆残留是造成pH升高、矿化度降低等水化学异常的主要因素,因此结合蒙陕矿区深埋型煤田水文补堪和工作面探放水等工作成果,建立了由pH、矿化度(TDS)、HCO3-、SO42-等水质指标组成的"五要素"判别标准,对巴拉素井田水文补堪过程中采集的36组水样进行判别,可以迅速判断出存在水化学异常的8组水样。剔除水化学特征异常的水样点后,可以很清晰地建立巴拉素井田各含水层的水化学特征,第四系水化学特征与地表水比较接近,表现为低矿化度、弱碱性、重碳酸钙型水;白垩系洛河组含水层与第四系水力联系密切,但埋深有所增加,导致一定量Na+离子溶入,水化学特征演化为重碳酸钙钠型;安定组为区域性较稳定隔水层,导致直罗组和延安组含水层以侧向补给为主,地下水循环交替时间较长,形成了深部滞留特征的高矿化度(>2 500 mg/L)硫酸钠型地下水。 相似文献
20.
Luisa Stellato Emma Petrella Filippo Terrasi Paolo Belloni Maria Belli Umberto Sansone Fulvio Celico 《Hydrogeology Journal》2008,16(4):701-712
222Rn was used to assess river–groundwater interactions within Castel di Sangro alluvial aquifer (Italy). The effectiveness of results obtained through this indicator was verified by also analyzing δ18O, major ions and temperature in both surface and groundwater, and carrying out piezometric head monitoring and discharge measurements. Hydrogeological investigations suggested that the river infiltrates into the aquifer in the south-eastern aquifer portion, while groundwater discharges into the river in the north-eastern portion. The latter phenomenon is supported by 222Rn data. Nevertheless, flow-through conditions cause the modelled discharge along this river reach, estimated by 222Rn data in a degassing-corrected two-component mixing model, to be greater than the measured discharge. Concerning river infiltration into the aquifer, δ18O, major ions and temperature data show that the river contribution is negligible in terms of aquifer recharge. Thus, the observed increase in 222Rn concentration in that portion of the aquifer is due to the enrichment process caused by infiltration of rainwater (222Rn free) which flows from the local divide area. Hence, in the study site, the use of only 222Rn to predict river–groundwater interactions causes some estimation inaccuracies and it must be coupled with other hydrochemical and hydrogeological parameters to gain a thorough understanding of such interactions. 相似文献