Hydrologic controls on acidity and metals production in an abandoned underground mine complex in southeast Ohio, Perry county

McCament, Benny K.

25 June 2004

No description available.

Mine Hydrology

Acid Mine Drainage

Mine Geochemistry

Mine Recharge

Physical Investigation of Field Scale Groundwater Recharge Processes in the Virginia Blue Ridge Physiographic Province

White, Bradley A.

03 January 2006

Physical and geophysical data collected at the Fractured Rock Research Site in Floyd County, Virginia indicate that recharge rates to the subsurface are controlled by a small scale thrust fault associated with regional thrust faulting within the Blue Ridge Province. Recharge rates appear to be correlated to spatial variation in the hydraulic conductivity of the regolith, which has been influenced by weathering rates and the metamorphic and structural history of the underlying parent material. Previous studies conducted at the Fractured Rock Research Site suggest that recharge potential can be separated into two regions: one over a vertically oriented shear zone associated with the small scale thrust fault, and the other overlying a thrust fault hanging wall. The angle of dip of the thrust fault shear zone and the fracturing within the crystalline rock adjacent to the fault plane appear to serve as geologic controls that preferentially direct infiltrated meteoric water to a deeper confined aquifer. The structural competence of the granulite gneiss thrust fault hanging wall appears to act as a barrier to deeper groundwater recharge, causing the formation of a shallow semi-confined aquifer within the overlying regolith. In-situ analysis of matric potential and moisture content shows two distinctly different recharge processes that are spatially correlated with the structure of the shallow subsurface (regolith overlying the vertically oriented shear zone and regolith overlying the thrust fault hanging wall), and have been shown to have strong temporal correlations with the dynamics of the underlying saturated conditions. Recharge flux estimates within the regolith overlying the thrust fault hanging wall are uncharacteristically high, and appear to be offset within the monitored region by the upward hydraulic gradient associated with the potentiometric surface of the underlying semi-confined aquifer. Because of the influence exerted by the upward hydraulic gradient on matric potential within the unsaturated regolith overlying the semi-confined aquifer, accurate recharge estimates could not be obtained from the matric potential data recorded by the tensiometers along this portion of the transect. Recharge flux within the regolith overlying the vertically oriented shear zone is strongly controlled by the orientation and aerial extent of the thrust fault shear zone, and highlights the importance of accurate delineation of recharge areas in crystalline rock aquifer systems. / Master of Science

tensiometer

blue ridge province

groundwater recharge

vadose zone

unsaturated zone

A Numerical and Statistical Analysis of the Fractured Rock Aquifer System in Ploemeur, France to Quantify Local and Regional Recharge

Law, Stacey E.

14 August 2019

Groundwater recharge is an essential metric for understanding and protecting groundwater resources. Quantifying this parameter remains extremely challenging due to the uncertainties associated with the extent to which the vadose zone affects groundwater movement and the highly heterogeneous nature of the aquifer systems being monitored. The difficulty surrounding recharge quantification is compounded when considering a fractured rock aquifer system, where classification and modeling is complicated by highly complex structural geology. However, the ability to distinguish the character and geometry of fractured rock aquifers is indispensable for quantifying recharge to evaluate sustainable yields, as well as for implementing protective measures to manage these systems. The primary intention of this study is to assess the hydrogeologic properties that have led the unique recharge signals within the fractured crystalline-rock aquifer system near Ploemeur, France. Infiltration and groundwater movement are characterized via time-series hydraulic head and precipitation data collected at daily, monthly, yearly, and at decadal intervals. In spite of the nearly one million cubic meters of groundwater extraction, measured drawdowns are marginal, suggesting that local and regional recharge plays a significant role in moderating water-level declines and raising questions as to the origins of the substantial inflow required to sustain this complex system. A roughly two-month lag has been observed between seasonal water level and monthly precipitation at Ploemeur, which has previously been attributed solely to slow vertical migration of water through the low-permeability micaschist layer to the fractured contact zone and interconnected fault. However, results from this study suggest that a significant portion of the observed lag can be attributed to vadose-zone processes, particularly the thickness of the vadose zone. This investigation also reveals a recharge signal that continues throughout the calendar year, departing from the traditional simplified concept that recharge quantity is essentially equivalent to the value of evapotranspiration subtracted from infiltration. / Master of Science / Groundwater recharge is the amount of water added to underground water sources, called aquifers. This occurs as precipitation falls to the ground, moves downward through the unsaturated subsurface, and accumulates at the top of the saturated zone, deemed the water table. The saturated zone is so named because all pore spaces between sediment grains or crevices in rocks are fully filled with water. Understanding groundwater recharge is important to the protection of groundwater resources, but is hard to estimate due to the lack of knowledge about water movement in the unsaturated zone and the uncertainties related to the systems being studied. Aquifers forming within fractured rocks are even more challenging to investigate, because the complex geological structures are difficult to replicate with computer modeling. However, fractured rock aquifers are an important groundwater resource, and understanding them is the first step in estimating recharge within the system. Recharge estimates are used to calculate how much water can be safely removed from the aquifer for years to come, so that the resource can remain protected. The aim of this investigation is to assess the aquifer properties that lead to the unique recharge signal in a fractured crystalline-rock aquifer in Ploemeur, France, where nearly 1 million cubic meters of water have been removed each year since 1991 but water table levels have not fallen significantly. This behavior raises questions about the water returned to the system as recharge that is sustaining such a highly productive resource. This site also shows a roughly two-month lag between seasonal precipitation falling and the reflection of that precipitation recorded in the water level of the aquifer. It was previously thought that the lag occurred because water travelled slowly through the mica-schist layer, which has little pore space for water to move, and into the contact zone and interconnected fault. However, this study shows instead that a majority of the lag is associated with the unsaturated zone properties and processes, particularly thickness. This investigation also shows recharge entering the aquifer system throughout the calendar year, a departure from earlier studies conceptualizations.

hydrogeology

Ploemeur

vadose zone

fractured rock aquifer

recharge

Identification of Recharge Source Areas in a Fractured Crystalline-rock Aquifer in Ploemeur, France

Humm, Cathleen Hana

17 June 2021

Characterizing and preserving available groundwater resources within crystalline rocks is pertinent to understanding and predicting resources for ecosystems worldwide. Crystalline-rock aquifers, with favorable structure and climate, can be pumped year-round to meet local domestic demand. The Ploemeur hydrogeologic site, near the southern coast of Brittany, France, is characterized by a structurally complex fractured mica-schist and granite confined aquifer system. A contact zone, which acts as the main localized flow path through the aquifer, separates the two crystalline units, and a sub-vertical permeable fault zone cross-cuts the crystalline bedrock and contact zone. Using field observations, recharge estimates, and a calibrated three-dimensional numerical multi-zone MODFLOW 6 model, we present preferential flow paths of recharge infiltrating the complex geology of the Ploemeur hydrogeological site during pumping conditions. Using MODPATH to track groundwater and recharge path lines, we determine that water extracted from the aquifer originates from higher elevation areas west of the pumping site. Particle tracking analyses indicate that precipitation simulated over the pumping zone takes a minimum of two years to reach the pumping wells and travels up to 100 m in distance. Analyses of the water budget of the aquifer system using Zonebudget show that storage contributes significantly to the productivity of the system. Based on these analyses, we determine that recharge mechanisms such as piston flow and preferential flow play important roles in the Ploemeur hydrogeologic site. Though the Ploemeur site is unique in its composition and geometry, the methods used to characterize and monitor the aquifer can be applied to fractured crystalline-rock aquifers globally. Fractured crystalline-rock aquifers make up 10% of the region's freshwater sources, thus understanding their flow mechanisms contributes greatly to the management of freshwater resources. / Master of Science / Groundwater aquifers are a common source of freshwater worldwide as groundwater makes up 30% of Earth's freshwater resources. Porous, sedimentary aquifers, made of materials such as sand or gravel, are well studied; however, the less understood aquifers found in crystalline bedrock are also found all over the world. Generally, igneous and metamorphic crystalline rocks are not porous and have low permeabilities, but fractures and faults in the crystalline rock can increase the ability for water to travel through the system. The Ploemeur hydrogeologic site, located on the southern coast of Brittany, France, is a productive fractured crystalline-rock groundwater aquifer producing freshwater year round. The productivity of this aquifer is attributed to the increased hydraulic conductivity associated with the intersection of two permeable features: a subvertical fault zone and a sub-horizontal contact zone. Despite the aquifer's output, recharge travels very slowly into the system due to the depth, heterogeneity, and clay content in an overlying layer of weathered rock fragments and soil. In this study, we create a three-dimensional numerical model using MODFLOW to simulate precipitation in different locations to see how it travels through the aquifer to the site of groundwater pumping. We see that the recharge prefers to travel topographically from regions of higher elevation to lower elevation. The recharge preferentially travels through the geologic features with higher permeabilities, including the fault zone, regolith, and contact zone, but it does still travel through the less permeable, crystalline bedrock units. Even in the features with the higher permeabilities, simulated recharge requires a minimum of 2 years to travel from the land surface to the pumping wells. The pumping wells extract significant water from storage, as seen in our water budget calculations of each geologic unit. We see two recharge mechanisms present in the hydrogeologic site: piston flow, where young water displaces older water from the storage, and preferential flow, where recharge prefers to travel through regions with higher hydraulic conductivity. Understanding the recharge mechanisms in crystalline aquifers is pertinent to our knowledge of freshwater resources as crystalline aquifers make up approximately 10% of all groundwater supplies.

groundwater

recharge

fractured crystalline-rock aquifer

numerical model

Étude des relations surface-souterrain du système aquifère d'El Haouareb (Tunisie centrale) sous contraintes climatiques et anthropiques. / Impacts of climatic fluctuations and human activities on surface-groundwater relationship of the El Haouareb aquifer (central Tunisia).

Alazard, Marina

12 February 2013

Dans les environnements semi-arides la ressource en eau est soumise aux irrégularités du climat. Les eaux de surface sont très irrégulièrement réparties dans le temps et dans l'espace. Le cumul annuel des précipitations est généralement faible et les évènements sont rares et intenses, causant des crues violentes et une forte érosion. Les eaux souterraines constituent souvent la principale ressource pérenne utilisable et elles sont largement mises à contribution. Pour pallier aux conséquences néfastes de ces régimes hydrologiques, des projets de grands barrages ont été menés dans ces zones pour favoriser le stockage d'eau. Paradoxalement, la mise en place de ces ouvrages crée un déficit en eau dans certaines zones en induisant des pertes par évaporation et la diminution de la recharge des nappes. Des situations complexes nouvelles sont ainsi créées, nécessitant des modes de gestions adaptés. En Tunisie centrale, le bassin versant du Merguellil fournit un exemple de processus hydrologique profondément modifié par la construction d'un grand barrage. Le bassin revêt une importance stratégique pour la région. Il alimente la plaine de Kairouan qui constitue le plus fort potentiel de développement agricole du pays et dont la nappe alluviale est surexploitée. Les écoulements intermittents de l'oued rechargeaient autrefois la nappe phréatique de la plaine. Le barrage d'El Haouareb construit en 1989 bloquant désormais les écoulements de surface, la recharge se produit plus en amont via le socle calcaire fissuré de l'ouvrage. Cette modification du fonctionnement hydrologique entraine une perte significative d'eau par évaporation et concentre la recharge à l'extrême amont de la plaine, au pied du barrage. Le but de cette thèse est d'identifier les mécanismes de recharge qui s'opèrent au niveau du seuil d'El Haouareb. L'infiltration depuis le lac de barrage a été quantifiée d'après le bilan hydrologique de la retenue et cet état de 56 % de perte par infiltration, 24 % de perte par évaporation, 14 % utilisés pour l'irrigation et 6 % relâchés depuis 1989. Le bilan a été fait à des pas de temps plus fin pour permettre de modéliser les entrées dans le système aquifère.L'identification des flux transitant à travers le seuil calcaire a été menée en croisant des approches hydrodynamiques (analyse du signal) et géochimiques (profils et chronique de CE et températures, chimie des ions majeurs, isotopes stables de la molécule de l'eau). La confrontation des différentes méthodes a permis de consolider les résultats et de pallier aux imperfections de certaines données de terrain dans un contexte hydrologique et hydrogéologique complexe. Un modèle simplifié de l'aquifère fracturé et un schéma de fonctionnement du seuil ont ainsi pu être établis, permettant d'anticiper l'évolution des mécanismes de recharge dans le bassin du Merguellil sous des contraintes climatiques futures. / In semi-arid environment, surface waters are unevenly distributed in time and space and particularly vulnerable. The total annual rainfall is generally low and the rain events are rare and intense, causing severe flooding and erosion. Therefore, the groundwater resource is widely exploited, often inducing overexploitation problems.To overcome the negative consequences of these hydrological regimes, large dam have been built to increase the water storage. These structures can paradoxically create a water deficiency in some areas by inducing evaporation losses and reducing aquifer recharge. In central Tunisia, the Merguellil catchment provides an example of hydrological processes profoundly changed by the construction of a large dam. The basin is of strategic importance for the region. It feeds the great agricultural plain of Kairouan which suffers f overexploitation for decades. Before the building of the El Haouareb dam, the Merguellil intermittent flows were the main source of recharge to the Kairouan plain aquifer. Dam El Haouareb built in 1989 now blocking surface runoff, recharge occurs further upstream through the cracked limestone base of the structure. This modification of the hydrological causes a significant loss of water by evaporation and concentrate recharge of the plain at the foot of the dam.The purpose of this thesis work is to identify the recharge mechanisms occurring at the threshold of El Haouareb. Infiltration from the lake was quantified calculating the water budget of the reservoir. The total water budget between 1989 and 2006 was made up by: infiltration 56%, evaporation 24%, abstraction 14% and dam releases 6%. Calculations had been conducted for smaller time scale to allow the quantification of the entries in the aquifer system.The identification of flows passing through the calcareous threshold was conducted by crossing hydrodynamic approaches (signal analysis) and geochemical (profiles and records of electrical conductivity and temperature, major ions, stable isotopes of the water molecule). The comparison of different methods helped to consolidate the results and to overcome the imperfections of some field data in a hydrological and hydrogeological complex context.A basic model and a simplified diagram of the El Haouareb aquifer have been established and allow anticipating the evolution of recharge in the Merguellil catchment under future climatic pressure.

Hydrogéologie

Environnement semi-aride

Géochimie

Bilan hydrique

Recharge

Tunisie

Hydrogeology

Semi-arid areas

Geochemistry

Water budget

Recharge

Tunisia

Approches géochimique et hydrodynamique de la recharge de la nappe du Trarza, Sud-Ouest de la Mauritanie / Geochemical and hydrodynamic approaches of Trarza groundwater recharge, South-Western Mauritania

Mohamed, Ahmed Salem

10 December 2012

L'aquifère du Trarza s'étend sur environ 40 000 km2 dans le sud-ouest mauritanien, entre le fleuve Sénégal au sud, l'Océan Atlantique à l'ouest et les formations métamorphiques de la chaîne des Mauritanides au nord et à l’est ; il est contenu dans les sédiments du Continental Terminal et du Quaternaire. L’objectif de cette thèse est d’étudier avec une double approche géochimique (ions majeurs, 18O, 2H, 14C, 13 C) et hydrodynamique les processus de recharge de la nappe en réponse aux changements environnementaux. Les campagnes de terrain menées entre 2010 et 2012 ont significativement complété les rares mesures anciennes. Le niveau de la nappe ne semble pas avoir connu d’évolution significative durant les cinquante dernières années malgré un pompage localement important. L’écoulement général des eaux souterraines de la nappe se produit du sud vers le nord, c'est-à-dire du fleuve Sénégal vers la dépression au nord de Boutilimit où la nappe est à plus de 30 m sous le niveau de la mer. Le croisement des approches hydrodynamique et géochimique a montré que, dans cette zone semi-aride, la dynamique de la nappe est influencée par les multiples changements actuels et anciens de l'environnement (depuis les transgressions quaternaires et les paléotracés du fleuve jusqu'aux différents barrages régulant le cours du fleuve Sénégal). La nappe est principalement alimentée par l’infiltration latérale des eaux de surface du fleuve Sénégal et dans une moindre proportion par les précipitations. La minéralisation des eaux souterraines reste largement influencée par les résidus des transgressions quaternaires. L'évaporation marque fortement les eaux de surface avant et durant leur infiltration. Des calculs encore très préliminaires faits par différentes méthodes indépendantes suggèrent une recharge annuelle inférieure ou égale à 5 % des précipitations, soit de 5 à 10 mm. / The Trarza aquifer covers about 40 000 km2 in the south-western Mauritania in a semi-arid environment, located between the Senegal River in the south, the Atlantic Ocean to the west and the metamorphic chain of Mauritanides in the north and east. The Trarza aquifer is made of Quaternary and Continental Terminal sediments. The objective of this work is to combine geochemical (majors ions, 18O, 2H, 14C, 13 C) and hydrodynamical approaches for identifying the groundwater recharge in response to current and past environmental changes. The field survey carried out from 2010 to 2012 significantly supplemented the limited older measurements. The water table levels appeared quite stable over the last fifty years despite important local pumping. The groundwater flows occurs from south to north, i.e. from the Senegal River to a depression north of the Boutilimit where the piezometric level is more than 30 m below the sea level. Combining geochemical and hydrodynamical approaches revealed that the dynamics of the aquifer is influenced by many changes in both current and former environment (from Quaternary transgressions and palaeobeds of the Senegal River to the dams now regulating the river flow). The main source of the aquifer recharge is lateral infiltration from the Senegal River, and precipitation to a lesser extent. Mineralization of groundwater is largely influenced by the residues of Quaternary transgressions. The important effect of evaporation on surface waters before and during their infiltration is strongly marked geochemical signature. Preliminary calculations performed with several independent methods suggest that the annual recharge rate from precipitation is up to 5 %, i.e. from 5 to 10 mm.

Géochimie

Piézométrie

Hydrogéologie

Recharge

Trarza

Mauritanie

Régions arides

Geochemistry

Piezometriy

Hydrogeology

Groundwater recharge

Trarza

Mauritania

Arid regions

Influence de la recharge rapide sur les performances des accumulateurs lithium des véhicules électriques dans le cadre de l'utilisation postale / Influence of fast charging on the performances of lithium batteries for electric vehicles used in mail delivery missions.

Al jed, Habib

15 December 2014

Cette thèse a pour objectif d’étudier l’influence de la recharge rapide sur le vieillissement des batteries lithium, et son impact sur les performances des véhicules électriques dans le cadre d’une utilisation postale. La première partie est consacrée à la modélisation de batteries lithium par un modèle à circuit électriques équivalent, dont les paramètres sont identifiables par des tests de caractérisation linéaires. La deuxième partie est dédiée à l’étude du vieillissement, et abouti sur un estimateur de vieillissement par l’exploitation des données des tests de vieillissement accélérés. Ensuite, l’utilisation postale est étudiée, et un profil de courant représentatif de la sollicitation réelle de la batterie est proposé. Ce dernier a permis de valider le modèle de la batterie dans le domaine de l’utilisation postale. Ensuite un modèle de véhicules électriques est présenté, il intègre le modèle de batterie, tout en le faisant vieillir en utilisant l’estimateur de vieillissement. Enfin, les différentes stratégies de recharges possibles sont énumérées et comparées. Pour conclure sur leurs influences sur le vieillissement des batteries, et donc les performances de véhicules. / This thesis aims to study the influence of fast charging on the aging of lithium batteries, and its impact on the performances of electric vehicles as part of a postal use. The first part is devoted to the modeling of lithium batteries with an equivalent electric circuit model, whose parameters could be identified using linear characterization tests. The second part is dedicated to the study of aging, and results in an aging estimator using data collected from accelerated aging tests programs. Then the postal usage is studied, and a power profile representative of the actual load on the battery is provided. The latter was used to validate the model of the battery in the field of postal use. Then the postal use is studied, and a current profile representative of the real behavior of the battery is provided. This profile was used to validate the model of the battery in the postal use domain. Then a model of electric vehicles is presented, it integrates the battery model, which can simulates the aging state of the battery using the ageing estimator. Finally, the various possible strategies of recharge are listed and compared, which leads to conclusions about their influences on aging of batteries, and the vehicles performance.

Batterie lithium

Dégradation des performances

Recharge accélérée

Recharge rapide

Recharge CC‐CV

Véhicule électrique

Cyclage actif

Vieillissement calendaire

Caractérisation temporelle

Modélisation de batteries

Lithium batteries

Performance degradation

Accelerated recharge

Fast recharge

CC‐CV recharge

Electric vehicle

Cycling

Calendar ageing

Time-domain characterization

Battery model

Les processus de transfert d’eau et de dioxyde de carbone dans l’épikarst : aide à la conservation des grottes ornées par le développement de nouvelles méthodologies pour l'étude de l'environnement des cavités

Lopez, Benjamin

25 May 2009

Il est communément admis que la recharge des aquifères carbonatés est contrôlée par la zone non saturée, siège d’une mise à l’équilibre des phases liquides, solides et gazeuses. L’épikarst, zone superficielle de ces aquifères, recueille les pluies efficaces et les transfère en profondeur via une double porosité de fissure et de fracture. Des épandages détritiques sablo-argileux fossilisent souvent les paléo-reliefs, changeant ainsi les caractéristiques des zones d’infiltration. Toutefois, les données sur ces dépôts superficiels sont rares, et leur impact sur les modalités de recharge en contexte karstique est aujourd’hui mal connu et peu décrit.La célèbre grotte préhistorique ornée de Lascaux offre une fenêtre d’observation à l’intérieur de l’épikarst et constitue ainsi un site privilégié pour le suivi des processus de transferts. La grotte fait partie d’un réseau karstique fossile partiellement comblé par du matériel détritique sablo-argileux. Les parties basses de la cavité montrent des fortes teneurs en CO2 dans l’air, supérieures à 8% (80 000 ppmv) lors de certaines périodes estivales. Cette thèse propose une étude des caractéristiques de l’infiltration en milieu karstique grâce au suivi des variations chimiques et isotopiques d’une émergence épikarstique au plafond de l’entrée de la grotte. Les principaux objectifs sont la compréhension de la dynamique des fluides en transit dans l’épikarst, la recherche de la source des fortes teneurs en CO2 ainsi que la détermination du rôle des épandages détritiques dans les modalités de recharge de l’aquifère karstique.Après avoir mener une étude approfondie de l’environnement géologique et géomorphologique du site, l’analyse hydroclimatique, combinée au suivi bimensuel de la chimie et des variations isotopiques des eaux épikarstiques, a permis d’investiguer le fonctionnement de la zone d’infiltration du karst d’un point de vue des transferts de masse.Les premières observations montrent que l’émergence épikarstique n’est pas pérenne avec un tarissement qui débute au début de l’été. Le système nécessite environ 250 mm de recharge automnale pour se réactiver. Le signal 18O à l’émergence est fortement amorti comparé au signal 18O dans les pluies ce qui démontre la création d’une réserve épikarstique qui conduit à l’homogénéisation chimique des eaux. Ainsi, les transferts de masse sont lents dans ce système caractérisé par un comportement de type fissuré et non karstique. Les données de 13C collectées à l’émergence permettent de retracer les conditions physico-chimiques qu’ont rencontrées les eaux au cours de leur transit. Elles montrent différentes origines possible de l’infiltration et révèlent des phénomènes de dégazage – précipitation lors des périodes de fortes pluies.De plus, les eaux épikarstiques sont fortement sursaturées vis-à-vis de la calcite et leur forte minéralisation résulte de la mise à l’équilibre avec une pCO2 importante (5% en moyenne). De telles valeurs ne correspondent pas à la production de CO2 du sol. L’autre origine supposée est les épandages détritiques sablo-argileux où des teneurs importantes en CO2 ont été mesurées (pCO2air de 4 à 8%). De plus, la présence d’eau dans ces niveaux suggère que le système est en partie alimenté par ces formations. Ainsi, le transit des eaux au travers de milieux aux conditions physico-chimiques très contrastés pourrait être à l’origine de la sursaturation des eaux qui entrent dans la cavité.Enfin, l’étude montre que les épandages détritiques tiennent deux rôles majeurs dans les processus d’infiltration des eaux : (i) ils participent à leur homogénéisation en les stockant proche du sol et (ii) ils fournissent un fort potentiel de karstification au système. / It is widely recognized that the recharge of deep carbonated aquifers is controlled by a non saturated zone in which liquids, solids and gases are exchanged to attain equilibrium. The epikarstic zone, which represents the bottom of these aquifers, collects the efficient rain waters and transfers them deeper through a dual fractured and fissured porosity. Sandy-clayey detritic coatings are often observed to fossilize the paleo-relief changing the features of the infiltration zones. However, field data on these superficial deposits are sparse and their impact on the recharge modalities in karstic context is not yet well known and described.The famous prehistoric painted cave of Lascaux (France) provides a window into the epikarstic system and offers a privileged environment for the monitoring of transfer processes. The Lascaux cave is part of a fossil karstic network partly filled with detritic material and it is known to have high CO2 concentrations, greater than 8% (80,000 ppmv) in some summer periods, when measured in the air of the lower parts of the cave. Here, we study the epikarstic seepage traits monitoring the chemical and isotopic variations in waters which seep from the entrance roof of the cave. The aims of this work are to understand the dynamics of the fluids in the epikarstic system, to find the source of the high CO2 concentrations measured into the cave and to understand how the detritic coatings impact on the recharge modalities. After carried out an in-depth geological and geomorphological study of the site, the use of hydroclimatic analysis combined with the semi-monthly hydrochemical and isotopic monitoring of the epikarstic waters allowed us to investigate the karstic infiltration zone functioning in term of matter transfer. First, we observed that the epikarstic emergence is non perennial and dries up at the beginning of summer. The system needs an approximately 250 mm recharge in autumn before seeing flows at the emergence. The 18O signal at the emergence is highly amortized compared to the rain 18O signal which reveals the creation of an epikarstic water table that chemically homogenises waters. Thus, the mass transfers are slow in this system characterized by a fissured and nonkarstic behaviour type. The 13C data obtained at the epikarstic emergence seem to characterize the physicochemical conditions of the environments in which waters circulate during their transit in the system. They confirm the possible various origins of waters and reveal degassing – precipitation phenomena during rising periods.Moreover, épikarstic waters are always supersaturated with respect to the calcite and the the high bicarbonates and calcium concentrations result from water equilibrate with an important pCO2 at saturated state (5% on average). Such values of pCO2 do not correspond to the soil CO2 production. The other supposed origin is the sandy clayey detritic formations where we measured important pCO2 (data range from 4 to 8% in the atmosphere of the coatings). Furthermore, the presence of water in the sandy levels of the coatings suggests that the system can be partly fed by these formations. The transit of water through two physicochemicaly highly contrasted environments would be at the origin of the general flows supersaturation state in the cave.Finally, the study shows that the detritic coatings are involved in two aspects of the epikarstic waters run-off conditions: (i) they homogenize them while retaining near to the soil and (ii) give to them a very high karstification potential.

Epikarst

Recharge karstique

Hydrodynamique

Hydrochimie

Éochimie isotopique

Traçage naturel

Co2

Conservation

Lascaux

Epikarst

Karstic recharge

Hydrodynamic

Hydrochemistry

Isotopic geochemistry

Natural tracing

Co2

Conservation

Lascaux

Impacts des changements d'usage des sols sur les ressources en eau souterraine au Sahel nigérien / Impacts of land use changes on groundwater resources in Niger, Sahel

Ibrahim, Maimouna

28 March 2013

La forte croissance démographique (~3%.an-1) observée au cours des dernières décennies en Afrique subsaharienne a engendré la conversion de grandes étendues de savane arborée en cultures pluviales ou irriguées et la diminution de la durée des jachères. Afin de déterminer l'impact de tels changements d'usage du sol sur la recharge des nappes phréatiques, la zone non saturée a été investiguée pendant trois ans (2009-2011) pour deux régions du Niger (sud-ouest et sud-est) aux conditions climatiques et géomorphologiques différentes.Une approche expérimentale in-situ a tout d'abord permis de caractériser qualitativement les propriétés de la zone non saturée et les flux hydriques associés (profondeur 0-10 m) pour les principaux usages du sol : savane naturelle ; jachère ; culture pluviale de mil ; et culture irriguée de poivron. Des profils granulométriques et de résistivité électrique apparente ont été réalisés et des suivis temporels de la teneur en eau et du potentiel matriciel du sol ont été mis en place. A partir des résultats et de la synthèse des données ainsi recueillies, deux analyses détaillées ont été proposées.Afin de quantifier le différentiel de recharge diffuse entre une jachère à Guiera senegalensis et une culture pluviale de mil (Pennisetum sp.) au sud-ouest Niger, une modélisation à base physique via le code Hydrus-1D a été appliquée. Dans un premier temps, une inversion basée sur la méthode GLUE a permis d'établir les densités de probabilité pour les paramètres hydrodynamiques de la zone non saturée ; dans un second temps, des simulations pluriannuelles (2 × 100 ans) du drainage profond (0-10 m) lors d'une transition jachère-mil ont été réalisées. Il a ainsi été montré que l'expansion des surfaces cultivées en mil pourrait se traduire par une augmentation du drainage profond, de 20 à 25 mm.an-1 après un délai de 35 à 60 ans.Afin d'étudier les conséquences des mises en culture pluviales et irriguées sur le potentiel de salinisation des sols et des eaux souterraines au sud-est Niger, les concentrations en ions majeurs dissous dans l'eau des pores de la zone non saturée ont été mesurées, puis comparées à la composition géochimique des apports d'eau associés (pluie, eau d'irrigation). Il a été ainsi mis en évidence que la mise en culture pluviale a un effet négligeable sur la qualité des eaux interstitielles et souterraines tandis que l'irrigation est associée à un enrichissement de l'eau de la zone non saturée en solutés qui pourrait induire, à terme, une salinisation de la nappe par lessivage des sols devenus salins/sodiques. / In semiarid sub-Saharan Africa, the rapid population growth (~3%.yr-1) during the past few decades has resulted in land clearing and large-scale conversion from savannah and fallow to rainfed or irrigation crop fields. The traditional duration of fallow has been also shortened. In order to estimate the impact of these land use changes on groundwater recharge, the vadose zone was investigated during three years (2009-2011) for two regions located in Niger (south-west and south-east).A qualitative analysis was first carried out for identifying vadose zone properties and for characterizing the corresponding water fluxes (0-10 m depth) for the main land use types: natural savannah; fallow; rainfed millet crop; and irrigated sweet pepper crop. Grain size and electrical resistivity profiles were established and soil water content and matric potential were monitored. Based on the results of this analysis, two more detailed investigations were performed.In southwestern Niger, in order to estimate changes in diffuse recharge from a fallow with Guiera senegalensis to a rainfed millet crop (Pennisetum sp.), a physically-based modeling with Hydrus-1D code was completed. Probability density functions were first built for the soil hydraulic parameters based on the GLUE approach; then, deep drainage (0-10 m depth) was simulated for a 2 × 100 year time-period including a fallow-millet conversion. It was shown that the increase in millet crop areas could result in an increase in deep drainage from 20 to 25 mm.yr-1 after a delay of 35 to 60 years.In southeastern Niger, in order to assess the impact of rainfed and irrigated cropping development on soil and groundwater salinization, major ion concentrations in pore water of the vadose zone were measured and compared with the geochemical composition of water inputs (rainfall, irrigation). It was shown that rainfed cropping does not affect soil water and groundwater quality whereas irrigation results in an increase of solutes concentrations in soil pore water, which could lead to a groundwater salinization at mid-term through soil leaching.

Milieux semi-arides

Zone non saturée

Recharge diffuse

Salinisation

Bassin des Iullemmeden

Bassin du Lac Tchad

Semiarid areas

Vadose zone

Diffuse recharge

Salinization

Iullemmeden Basin

Lake Chad Basin

Perched water in fractured, welded tuff : mechanisms of formation and characteristics of recharge

Woodhouse, Elizabeth Gail.

January 1997

Perched water zones have been identified in the fractured, welded tuff in the semiarid to arid environments of Yucca Mountain, Nevada and near Superior, Arizona. An understanding of the formation of such zones is necessary in order to predict where future perched water might form at Yucca Mountain, the proposed site of a high-level nuclear waste repository. The formation or growth of a perched zone above a repository is one factor of the factors to be considered in the risk assessment of the Yucca Mountain site. The Apache Leap Research Site (ALRS) near Superior, Arizona is a natural analog to the Yucca Mountain site in terms of geology, hydrology, and climate. Perched water has been identified over an area of at least 16 km² in the Apache Leap Tuff, a mid- Miocene fractured, welded ash-flow tuff. A primary goal of this investigation was to characterize the physical and hydrologic properties of the tuff in the region above and including the perched zone, and to evaluate those characteristics to develop a model for a perching mechanism in the tuff. A second goal was to determine what fraction of water entering a watershed reaches the subsurface, to potentially recharge the perched zone. The Apache Leap Tuff has been subject to considerable devitrification and vapor phase crystallization, which dominate the character of the rock. With depth to the perched zone, pumice fragments become increasingly flattened and segregated; the pumice fragments are the primary locations of porosity in the rock, therefore porosity also becomes greatly reduced with depth, to the extent that the rock matrix is virtually impermeable at the perched water zone. Fractures are the primary pathways by which water moves through the rock; fracture hydraulic conductivity values were determined to be nine orders of magnitude greater than measured matrix hydraulic conductivity at the perched zone. An increase in fracture filling by silica mineralization beneath the perched zone reduces the secondary permeability, enhancing the formation of perched water. Thus, the primary mechanisms for the formation of the perched zone include fracture flow bringing water into the subsurface, combined with extremely low matrix hydraulic conductivity at depth, and reduced secondary permeability by filled fractures and lower fracture density. Water budgets were calculated for two years in a 51.4-ha watershed. Direct measurements were made of precipitation and runoff', evapotranspiration was both directly measured, and modeled based on measurement of a number of weather parameters. Infiltration was calculated as the residual of precipitation after runoff and evapotranspiration were removed. Infiltration was determined to be less than 10% of the annual water budget; evapotranspiration removes on the order of 90% of precipitation on an annual basis.

Hydrology.

Volcanic ash, tuff, etc. -- Weldability.