Modelling of water flow through typical Bavarian soils: 2. Environmental deuterium transport

Małoszewski, Piotr; Maciejewski, Stanisław; Stumpp, Christine; Stichler, Willibald; Trimborn, P.; Klotz, D.

doi:10.1623/hysj.51.2.298

Cited by 43 publications

(40 citation statements)

References 25 publications

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“…Maloszewski et al . [] showed in a study on unvegetated lysimeters filled with coarse material that the dispersion model was able to describe the isotopic transport under variable flow conditions as well as a numerical model based on the Richards equation and the advection‐dispersion equation. Stumpp et al .…”

Section: Processes In the Soilmentioning

confidence: 99%

“…Water stable isotopes have allowed new views on the hydrological response at the catchment (reviewed by McGuire and McDonnell [] and Vitvar et al . []), hillslope [e.g., McGuire and McDonnell , ; Garvelmann et al ., ; Mueller et al ., ], and the soil profile scale [e.g., Maloszewski et al ., ; Stumpp et al ., ; Sprenger et al ., ]. The latter two scales are of specific interest for our review, bringing together 50 years of soil water isotope studies.…”

Section: Introduction To Water Stable Isotopes In Soil Hydrologymentioning

confidence: 98%

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Illuminating hydrological processes at the soil‐vegetation‐atmosphere interface with water stable isotopes

Sprenger

Leistert

Gimbel

et al. 2016

Reviews of Geophysics

437

382

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Water stable isotopes (18O and 2H) are widely used as ideal tracers to track water through the soil and to separate evaporation from transpiration. Due to the technical developments in the last two decades, soil water stable isotope data have become easier to collect. Thus, the application of isotope methods in soils is growing rapidly. Studies that make use of soil water stable isotopes often have a multidisciplinary character since an interplay of processes that take place in the vadose zone has to be considered. In this review, we provide an overview of the hydrological processes that alter the soil water stable isotopic composition and present studies utilizing pore water stable isotopes. The processes that are discussed include the water input as precipitation or throughfall, the output as evaporation, transpiration, or recharge, and specific flow and transport processes. Based on the review and supported by additional data and modeling results, we pose a different view on the recently proposed two water world hypothesis. As an alternative to two distinct pools of soil water, where one pool is enriched in heavy isotopes and used by the vegetation and the other pool does not undergo isotopic fractionation and becomes recharge, the water gets successively mixed with newly introduced rainwater during the percolation process. This way, water initially isotopically enriched in the topsoil loses the fractionation signal with increasing infiltration depth, leading to unfractionated isotopic signals in the groundwater.

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Section: Processes In the Soilmentioning

confidence: 99%

Section: Introduction To Water Stable Isotopes In Soil Hydrologymentioning

confidence: 98%

Illuminating hydrological processes at the soil‐vegetation‐atmosphere interface with water stable isotopes

Sprenger

Leistert

Gimbel

et al. 2016

Reviews of Geophysics

437

382

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“…Isotope variations can be identified either by summer and winter peaks in the soil column ( Figure 2) or by using more advanced modelling techniques to define unsaturated zone travel time parameters (O'Driscoll et al, 2005;Maloszewski et al, 2006). Mathematical models were described to fit the stable isotope pattern of precipitation to unsaturated zone water isotope patterns for travel time interpretation (e.g.…”

Section: Review Soil Water Isotopementioning

confidence: 99%

Review on soil water isotope-based groundwater recharge estimations

et al. 2016

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Groundwater recharge estimations are necessary for sustainable management of groundwater resources. Among various hydraulic, hydrogeological and hydrological approaches, tracer methods are proposed to improve groundwater recharge estimations. Soil water isotope‐based estimates of groundwater recharge rates were developed in the 1960s and have been applied in more than 40 studies reviewed within this manuscript. This comprehensive review research distinguishes three fundamental research approaches: (1) labelling method with tritium or deuterium, which can be used to trace unsaturated zone water movement, (2) tracing soil water movement using a seasonal signal of stable isotopes in precipitation, mainly applied in humid zones, and (3) interpretation of an evaporation signal that impacts soil water stable isotope composition, mainly applicable in arid and semiarid regions. More recently, advances in soil water extraction and analytical methods allow a higher sampling resolution and in situ measurements of soil water stable isotopes. Analytical advances may strengthen and improve the applicability of stable isotope methods for quantitative recharge. We present, compare and discuss studies of unsaturated zone isotope profiles with an emphasis on necessary prerequisites, such as a substantial thick porous sedimentary layer, or negative influences through high clay and silt contents or dry soil conditions. Copyright © 2015 John Wiley & Sons, Ltd.

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“…These models are generally applicable in steady-state conditions. However, sometimes they have also been successfully used in variable flow conditions, as shown in [53,54]. The continuous water pumping from the aquifer will yield a steady state of the hydrodynamic field nearly immediately, whereas the tracer distribution in the system will reach the steady state after duration of approximately four to five transit times of tracer [12].…”

Section: Methodsmentioning

confidence: 99%

Estimation of groundwater residence time using environmental radioisotopes (¹⁴C,T) in carbonate aquifers, southern Poland

Samborska

Różkowski

Małoszewski

2013

Isotopes in Environmental and Health Studies

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Triassic carbonate aquifers in the Upper Silesia region, affected by intense withdrawal, have been investigated by means of isotopic analyses of (14)C, δ(13)C, δ(2)H, δ(18)O and (3)H. The isotopic examinations were carried out in the 1970s and in the early 1980s, and it was the first application of tracers to estimate age and vulnerability for the contamination of groundwater in this region. Similar isotopic analyses were conducted in 2007 and 2008 with the same Triassic carbonate formation. The isotopic examinations were performed within the confined part of the carbonate formation, wherein aquifers are covered by semi-permeable deposits. The direct recharge of the aquifer occurs in the outcrop areas, but it mainly takes place due to percolation of the water through aquitards and erosional windows. The Triassic aquifer has been intensively drained by wells and by lead-zinc mines. Nowadays, the declining water demand and closure of some mines have induced a significant increase in the water table level. The detailed analysis of the results, including the radiocarbon age corrections and the comparison of radioisotope activities, has made it possible to estimate the range of residence time within the carbonate Triassic aquifer. This range from several tens to several tens of thousands indicates that the recharge of aquifers might have occurred between modern times and the Pleistocene. The apparent age of the water estimated on the basis of (14)C activity was corrected considering the carbon isotope exchange and the diffusion between mobile water in fractures and stagnant water in micropores. The obtained corrected period of recharge corresponds to the result of investigations of noble gases, which were carried out in the 1990s. In almost half of the cases, groundwater is a mixture of young and old water. The mixing processes occur mainly in areas of heavy exploitation of the aquifer.

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Modelling of water flow through typical Bavarian soils: 2. Environmental deuterium transport

Cited by 43 publications

References 25 publications

Illuminating hydrological processes at the soil‐vegetation‐atmosphere interface with water stable isotopes

Illuminating hydrological processes at the soil‐vegetation‐atmosphere interface with water stable isotopes

Review on soil water isotope-based groundwater recharge estimations

Estimation of groundwater residence time using environmental radioisotopes (¹⁴C,T) in carbonate aquifers, southern Poland

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Modelling of water flow through typical Bavarian soils: 2. Environmental deuterium transport

Cited by 43 publications

References 25 publications

Illuminating hydrological processes at the soil‐vegetation‐atmosphere interface with water stable isotopes

Illuminating hydrological processes at the soil‐vegetation‐atmosphere interface with water stable isotopes

Review on soil water isotope-based groundwater recharge estimations

Estimation of groundwater residence time using environmental radioisotopes (14C,T) in carbonate aquifers, southern Poland

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Product

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Estimation of groundwater residence time using environmental radioisotopes (¹⁴C,T) in carbonate aquifers, southern Poland