Hydrochemical Groundwater Evolution in the Bunter Sandstone Sequence of the Odenwald Mountain Range, Germany: A Laboratory and Field Study

Ludwig, Florian; Stober, Ingrid; Bucher, Kurt

doi:10.1007/s10498-010-9118-8

Cited by 15 publications

(5 citation statements)

References 23 publications

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“…and Fe total of the basaltic leachates are significantly higher than expected with regard to the mobility of dissolved Al-and Fe-species at near-neutral pH. However, these findings correlate with results of comparable leaching experiments on silicate minerals (Zhu 2001;Ludwig et al 2011). The mobility of an ion is referred to its non-conservative transport in the aquifer system with possible effect by chemical (e.g.…”

Section: Composition Of Leachates and Interpretation Of Column Experisupporting

confidence: 52%

“…With regard to groundwater recharge, groundwaters related to catchment areas partly covered with forest are affected by bulk deposition as throughfall under the forest canopy (S1, S10, S11, S17, SX2, SX3). As delineated in a companion study by Ludwig et al (2011), the concentration of NO 3 -in bulk deposition significantly exceeds the values in grassland rainfall and, thus, may effect higher concentrations of NO 3 -in the associated groundwaters. Consequently, as NO 3 appears to predominantly derive from rainfall input and was excluded from the hydrochemical modelling approach.…”

Section: Groundwater Chemistrymentioning

confidence: 94%

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Groundwater Evolution and Mineral Alteration Reactions in the Basaltic Rock Sequence of Mt. Wasserkuppe, Germany: A Case Study

Ludwig¹,

Stober²,

Bucher

2012

Aquat Geochem

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Groundwater sampling was accomplished in the basaltic sequence of the Rhön mountain range, Germany, in order to investigate hydrochemical groundwater evolution and to delineate mineral alteration reactions involved in natural weathering. The hydrochemical compositions of near-surface groundwaters indicate a Ca/Mg-HCO 3 type with near-neutral pH and evolve to a Na-HCO 3 type with high pH at greater depth. Column experiments were performed with basaltic and phonolitic rock samples to determine individual mineral alteration reactions. The basic reactions could be related to the alteration of olivine, Ca-pyroxene, plagioclase, pyrrhotite, and feldspathoids under formation of secondary clay minerals (smectites, illite) and goethite. The mineral alteration reactions deduced from the leaching experiments by inverse modelling were found to be consistent with the mineral reactions associated with the natural groundwaters. The reactions calculated for groundwater evolution involve the alteration of primary and secondary minerals to produce low-T mineral phase. The conversion of secondary Na-beidellite to illite occurs at a later stage of groundwater evolution, reducing the concentrations of K ? and Mg 2? . Near-surface groundwaters do not indicate significant cation exchange. Initial cation exchange requires elevated pH values, with Mg 2? removed from solution preferred to Ca 2? . Na-alkalisation of the groundwaters at greater depth suggests the exchange of Na ? for Mg 2? and Ca 2? on Na-beidellite, supported by cation exchange on coatings of iron hydroxides as alteration products. Among the mature high-pH groundwater at greater depth, the dissolution of anorthite and albite has significant effect on groundwater composition.

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Section: Composition Of Leachates and Interpretation Of Column Experisupporting

confidence: 52%

Section: Groundwater Chemistrymentioning

confidence: 94%

Groundwater Evolution and Mineral Alteration Reactions in the Basaltic Rock Sequence of Mt. Wasserkuppe, Germany: A Case Study

Ludwig¹,

Stober²,

Bucher

2012

Aquat Geochem

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“…3.15), followed by the method of Andersen (2002). Concordia ages and diagrams were obtained using Isoplot (4.15) (Cavosie and Wilde, 2006; Ludwig et al, 2011). Some of the zircon U–Pb data are concordant, while others show Pb loss.…”

Section: Methodsmentioning

confidence: 99%

Oligocene–Miocene arc magmatic activities associated with the giant Reko Diq porphyry Cu–Au deposit, western Chagai arc, Balochistan, Pakistan

Muhammad,

Liu,

Ullah

et al. 2024

Geological Journal

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The Chagai belt to the north of the Afghan block and the east of the Iranian block in the western part of Pakistan is known for occurrence of Oligocene to Miocene calc‐alkaline magmatic belt. The present study discusses the characteristics of episodic magmatic activities that contributed to mineralization for the Reko Diq porphyry complex in the western part of the Chagai belt. U–Pb dating of zircons from volcanic rocks of the Reko Diq porphyry complex yielded ages of 25.8 ± 1.8 and 12.29 ± 0.44 Ma for two phases of magmatic crystallization. Geochemical analyses of whole‐rock rhyolite and dacite indicate that the rock units are peraluminous calc‐alkaline, derived from Andean‐type subduction. The magma was formed due to partial melting of the thickened mafic lower crust in a continental arc setting in relation to the subduction of the Neotethys along the Makran subduction zone. The abundance of zircons, Hf, REE, U/Pb and Th indicates high degrees of magmatic evolution. Moreover, the Sr and Nd isotopic data indicate the fractional contribution of depleted N‐MORB mantle to the Reko Diq magmas through bulk mixing with magmas derived from the lower continental crust. Short‐lived magmatic systems repeated magma injection, and various episodes of hydrothermal fluid flow have led to the formation of porphyry mineralization. Emplacement of the Reko Diq porphyry complex and related Cu–Au mineralization is associated with a series of tectonic–magmatic events at different episodes of the Oligocene–Miocene times.

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“…In south-eastern Hesse, clastic rocks of the Buntsandstein form a fractured multilevel aquifer divided by clayey intercalations which is used for drinking-water production (Ludwig et al, 2011). In the eastern Odenwald, the Buntsandstein overlies the Zechstein and the basement with increasing thickness towards the east.…”

Section: South German Scarplands (Hyr-06)mentioning

confidence: 99%

Mineral, thermal and deep groundwater of Hesse, Germany

Schäffer

Bär

Fischer

et al. 2021

Earth Syst. Sci. Data

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Abstract. The composition of mineral, thermal or deep groundwaters is of interest for several geotechnical applications, such as drinking-water supply, spas or geothermal energy. Verified and reliable knowledge of temperature, pH, hydrochemical composition and other parameters is crucial to extract fluids with as few technical problems as possible and exploit groundwater reservoirs economically and environmentally sustainably. However, at sites where empirical data are lacking, the correct prediction of fluid properties is often difficult, resulting in considerable economic risks. Here we present the first comprehensive and publicly available database of mineral, thermal and deep groundwaters of Hesse compiled from published and our own data. Presently, it contains 1035 datasets from 560 different springs or wells sampled since 1810. A dataset consists of metadata like location; altitude; depth; rock type or stratigraphic unit; information on the water type; references; physical–chemical parameters; concentrations of major, minor and trace elements; and content of dissolved and free gases as well as isotope data. The dataset allows the evaluation of time series and distribution of groundwater properties both laterally and vertically. We show a simple statistical evaluation based on the five major hydrogeological regions of Hesse. Our database can be used to re-evaluate genesis and circulation of deep groundwaters, to estimate reservoir temperatures with a solution geothermometer, or to assess groundwater ages by means of isotope data. It can also be useful for a first conception of deep geothermal utilization. In the future, an update and extension of the database is intended. The database of mineral, thermal and deep groundwaters of Hesse has been made available by Schäffer et al. (2020) in xlsx and csv file format at TUdatalib, https://doi.org/10.25534/tudatalib-340. The second updated version of the database can be accessed directly at https://tudatalib.ulb.tu-darmstadt.de/handle/tudatalib/2508.2 (last access: 20 October 2021).

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Hydrochemical Groundwater Evolution in the Bunter Sandstone Sequence of the Odenwald Mountain Range, Germany: A Laboratory and Field Study

Cited by 15 publications

References 23 publications

Groundwater Evolution and Mineral Alteration Reactions in the Basaltic Rock Sequence of Mt. Wasserkuppe, Germany: A Case Study

Groundwater Evolution and Mineral Alteration Reactions in the Basaltic Rock Sequence of Mt. Wasserkuppe, Germany: A Case Study

Oligocene–Miocene arc magmatic activities associated with the giant Reko Diq porphyry Cu–Au deposit, western Chagai arc, Balochistan, Pakistan

Mineral, thermal and deep groundwater of Hesse, Germany

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