The modern water interface: recognition, protection and development — advance of modern waters in European aquifer systems

Hinsby, Klaus; Edmunds, W.M.; Loosli, H.H.; Manzano, Marisol; Melo, Maria Teresa Condesso de; Barbecot, F.

doi:10.1144/gsl.sp.2001.189.01.16

Cited by 23 publications

(14 citation statements)

References 66 publications

(64 reference statements)

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“…Hence, for the majority of the major elements the composition of the Ribe Formation groundwaters is inherited from rainwater percolating through the Quaternary sands above undergoing carbonate dissolution and oxygen and nitrate reduction. No indicators of human impact (Hinsby et al 2001b) have been found in the Ribe Formation groundwater.…”

Section: Downgradient Hydrochemical Evolution In the Ribe Formationmentioning

confidence: 97%

The Miocene Sand Aquifers, Jutland, Denmark

Hinsby

Rasmussen

2008

Natural Groundwater Quality

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Section: Downgradient Hydrochemical Evolution In the Ribe Formationmentioning

confidence: 97%

The Miocene Sand Aquifers, Jutland, Denmark

Hinsby

Rasmussen

2008

Natural Groundwater Quality

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“…Tracer methods are standard tools of hydrologists to obtain constraints on the age of groundwater and on processes and conditions water samples experienced during recharge and upon transit in the groundwater system (Plummer, 1993;Clark and Fritz, 1997;Cook and Herczeg, 2000;Hinsby et al, 2001;Loosli et al, 2001;Kooi, 2008a). In the following, key methods are summarised, and their potential for detecting temporal change in groundwater systems is discussed, focusing on relatively short time scales (less than 100 years).…”

Section: Age Dating and Chemical Proxiesmentioning

confidence: 99%

Beneath the surface of global change: Impacts of climate change on groundwater

Green

Taniguchi

Kooi³

et al. 2011

Journal of Hydrology

909

483

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Global change encompasses changes in the characteristics of interrelated climate variables in space and time, and derived changes in terrestrial processes, including human activities that affect the environment. As such, projected global change includes groundwater systems. Here, groundwater is defined as all subsurface water including soil water, deeper vadose zone water, and unconfined and confined aquifer waters. Potential effects of climate change combined with land and water management on surface waters have been studied in some detail. Equivalent studies of groundwater systems have lagged behind these advances, but research and broader interest in projected climate effects on groundwater have been accelerating in recent years. In this paper, we provide an overview and synthesis of the key aspects of subsurface hydrology, including water quantity and quality, related to global change. Adaptation to global change must include prudent management of groundwater as a renewable, but slow-feedback resource in most cases. Groundwater storage is already over-tapped in many regions, yet available subsurface storage may be a key to meeting the combined demands of agriculture, industry, municipal and domestic water supply, and ecosystems during times of shortage. The future intensity and frequency of dry periods combined with warming trends need to be addressed in the context of groundwater resources, even though projections in space and time are fraught with uncertainty. Finally, potential impacts of groundwater on the global climate system are largely unknown. Research to improve our understanding of the joint behaviors of climate and groundwater is needed, and spin-off benefits on each discipline are likely.

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“…Application of radioactive and stable isotopes are useful tools for assessing human impacts on groundwater quality, e.g., through evaluation of groundwater residence times, pollution history and trends in groundwater bodies (Bohlke and Denver, 1995;Hinsby et al, 2001Hinsby et al, , 2007Visser et al, 2007), and for identification of different pollution sources (Aravena et al, 1993 etc. ).…”

Section: Introductionmentioning

confidence: 99%