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Fossiles Wasser (German Wikipedia)

Analysis of information sources in references of the Wikipedia article "Fossiles Wasser" in German language version.

refsWebsite
Global rank German rank
12doi.org
2nd place
3rd place
3researchgate.net
120th place
143rd place
1usask.ca
7,865th place
low place
1web.archive.org
1st place
1st place
1llnl.gov
6,750th place
6,575th place
1climate-service-centre.de
low place
low place
1spektrum.de
1,960th place
130th place
1iaea.org
1,168th place
600th place
1uga.edu
2,385th place
5,659th place
1springer.com
274th place
152nd place
1cas.cn
7,476th place
7,101st place
1washington.edu
1,067th place
2,868th place
1water.wa.gov.au
low place
low place
1utoronto.ca
1,601st place
2,732nd place

cas.cn

sourcedb.igsnrr.cas.cn

  • Matthew J. Currell, Dongmei Han, Zongyu Chen, Ian Cartwright: Sustainability of groundwater usage in northern China: dependence on palaeowaters and effects on water quality, quantity and ecosystem health. Hydrological Processes. Bd. 26, Nr. 26, 2012, S. 4050–4066, doi:10.1002/hyp.9208 (alternativer Volltextzugriff: Chinesische Akademie der Wissenschaften 450 kB), S. 4052 ff.

climate-service-centre.de

  • Claus Kohfahl, Gudrun Massmann, Asaf Pekdeger: Fossiles und neues Grundwasser als Teil des Gesamtwassers. S. 90–97 in: José L. Lozán, Hartmut Graßl, Peter Hupfer, Ludwig Karbe, Christian-Dietrich Schönwiese (Hrsg.): Warnsignal Klima: Genug Wasser für alle? 3. Auflage, 2011 (PDF).

doi.org

  • Scott Jasechko, Debra Perrone, Kevin M. Befus, M. Bayani Cardenas, Grant Ferguson, Tom Gleeson, Elco Luijendijk, Jeffrey J. McDonnell, Richard G. Taylor, Yoshihide Wada, James W. Kirchner: Global aquifers dominated by fossil groundwaters but wells vulnerable to modern contamination. Nature Geoscience. Bd. 10, 2017, S. 425–429, doi:10.1038/ngeo2943 (alternativer Volltextzugriff: GIWS 600 kB); siehe dazu auch Lucian Haas: Neuer Schmutz in altem Wasser - Fossiles Grundwasser enthält Verunreinigungen (Memento vom 27. April 2017 im Internet Archive). Aufzeichnung eines Beitrages in der Sendung Forschung aktuell inkl. einem Interview mit Scott Jasechko, Deutschlandfunk, 25. April 2017.
  • Marc F. P. Bierkens, Yoshihide Wada: Non-renewable groundwater use and groundwater depletion: a review. Environmental Research Letters. Bd. 14, Nr. 6, 2019, Art.-Nr. 063002, doi:10.1088/1748-9326/ab1a5f (Open Access).
  • Pierre D. Glynn, L. Niel Plummer: Geochemistry and the understanding of ground-water systems. Hydrogeology Journal. Bd. 13, Nr. 1, 2005, S. 263–287 doi:10.1007/s10040-004-0429-y (alternativer Volltextzugriff: ResearchGate).
  • Abdou Abouelmagd, Mohamed Sultan, Neil C. Sturchio, Farouk Soliman, Mohamed Rashed, Mohamed Ahmed, Alan E. Kehew, Adam Milewski, Kyle Chouinard: Paleoclimate record in the Nubian Sandstone Aquifer, Sinai Peninsula, Egypt. Quaternary Research. Bd. 81, Nr. 1, 2014, S. 158–167, doi:10.1016/j.yqres.2013.10.017 (alternativer Volltextzugriff: University of Georgia 1,5 MB).
  • N. C. Sturchio, X. Du, R. Purtschert und 15 weitere Autoren: One million year old groundwater in the Sahara revealed by krypton‐81 and chlorine‐36. Geophysical Research Letters. Bd. 31, Nr. 5, 2004, Art.-Nr. L05503, doi:10.1029/2003GL019234 (Open Access).
  • Mahmoud I. Sherif, Mohamed Sultan, Neil C. Sturchio: Chlorine isotopes as tracers of solute origin and age of groundwaters from the Eastern Desert of Egypt. Earth and Planetary Science Letters. Bd. 510, 2019, S. 37–44, doi:10.1016/j.epsl.2018.12.035 (Open Access).
  • Matthew J. Currell, Dongmei Han, Zongyu Chen, Ian Cartwright: Sustainability of groundwater usage in northern China: dependence on palaeowaters and effects on water quality, quantity and ecosystem health. Hydrological Processes. Bd. 26, Nr. 26, 2012, S. 4050–4066, doi:10.1002/hyp.9208 (alternativer Volltextzugriff: Chinesische Akademie der Wissenschaften 450 kB), S. 4052 ff.
  • Stephen Foster, Hector Garduno, Richard Evans, Doug Olson, Yuan Tian, Weizhen Zhang, Zaisheng Han: Quaternary Aquifer of the North China Plain – assessing and achieving groundwater resource sustainability. Hydrogeology Journal. Bd. 12, Nr. 1, 2003, S. 81–93, doi:10.1007/s10040-003-0300-6 (alternativer Volltextzugriff: University of Washington 1,5 MB), S. 87 f.
  • Roland Bäumle, Thomas Himmelsbach, Ursula Noell: Hydrogeology and geochemistry of a tectonically controlled, deep-seated and semi-fossil aquifer in the Zambezi Region (Namibia). Hydrogeology Journal. Bd. 27, Nr. 3, 2019, S. 885–914, doi:10.1007/s10040-018-1896-x (alternativer Volltextzugriff: ResearchGate).
  • Oliver Warr, Barbara Sherwood Lollar, Jonathan Fellowes, Chelsea N. Sutcliffe, Jill M. McDermott, Greg Holland, Jennifer C. Mabry, Christopher J. Ballentine: Tracing ancient hydrogeological fracture network age and compartmentalisation using noble gases. Geochimica et Cosmochimica Acta. Bd. 222, 2018, S. 340–362, doi:10.1016/j.gca.2017.10.022 (alternativer Volltextzugriff: Earth Sciences, University of Toronto).
  • Annamaria Mazzoni, Essam Heggy, Giovanni Scabbia: Forecasting water budget deficits and groundwater depletion in the main fossil aquifer systems in North Africa and the Arabian Peninsula. Global Environmental Change. Bd. 53, 2018, S. 157–173, doi:10.1016/j.gloenvcha.2018.09.009.
  • Avner Vengosh, Daniella Hirschfeld, David Vinson, Gary Dwyer, Hadas Raanan, Omar Rimawi, Abdallah Al-Zoubi, Emad Akkawi, Amer Marie, Gustavo Haquin, Shikma Zaarur, Jiwchar Ganor: High naturally occurring radioactivity in fossil groundwater from the Middle East. Environmental Science and Technology. Bd. 43, Nr. 6, 2009, S. 1769–1775, doi:10.1021/es802969r (alternativer Volltextzugriff: ResearchGate).

iaea.org

www-pub.iaea.org

  • Einen umfassenden Überblick dazu liefern A. Suckow, P. K. Aggarwal, L. Araguas-Araguas (Hrsg.): Isotope Methods For Dating Old Groundwater. Internationale Atomenergiebehörde, Wien 2013 (PDF 18 MB).

llnl.gov

water.llnl.gov

  • Jean E. Moran, Menso de Jong, Ate Visser, Michael J. Singleton, Bradley K. Esser: California GAMA Special Study: Identifying Paleowater in California Drinking Water Wells. Lawrence Livermore National Laboratory/California State University, East Bay, 2015 (PDF 1 MB), S. 3.

researchgate.net

  • Pierre D. Glynn, L. Niel Plummer: Geochemistry and the understanding of ground-water systems. Hydrogeology Journal. Bd. 13, Nr. 1, 2005, S. 263–287 doi:10.1007/s10040-004-0429-y (alternativer Volltextzugriff: ResearchGate).
  • Roland Bäumle, Thomas Himmelsbach, Ursula Noell: Hydrogeology and geochemistry of a tectonically controlled, deep-seated and semi-fossil aquifer in the Zambezi Region (Namibia). Hydrogeology Journal. Bd. 27, Nr. 3, 2019, S. 885–914, doi:10.1007/s10040-018-1896-x (alternativer Volltextzugriff: ResearchGate).
  • Avner Vengosh, Daniella Hirschfeld, David Vinson, Gary Dwyer, Hadas Raanan, Omar Rimawi, Abdallah Al-Zoubi, Emad Akkawi, Amer Marie, Gustavo Haquin, Shikma Zaarur, Jiwchar Ganor: High naturally occurring radioactivity in fossil groundwater from the Middle East. Environmental Science and Technology. Bd. 43, Nr. 6, 2009, S. 1769–1775, doi:10.1021/es802969r (alternativer Volltextzugriff: ResearchGate).

spektrum.de

  • Fossiles Wasser. Spektrum Online-Lexikon der Geowissenschaften, abgerufen am 15. September 2019.

springer.com

static-content.springer.com

  • Scott Jasechko, Debra Perrone, Kevin M. Befus, M. Bayani Cardenas, Grant Ferguson, Tom Gleeson, Elco Luijendijk, Jeffrey J. McDonnell, Richard G. Taylor, Yoshihide Wada, James W. Kirchner: Global aquifers dominated by fossil groundwaters but wells vulnerable to modern contamination. Nature Geoscience. Bd. 10, 2017, Supplementary Information 1, Fig. S3.

uga.edu

wrrs.uga.edu

  • Abdou Abouelmagd, Mohamed Sultan, Neil C. Sturchio, Farouk Soliman, Mohamed Rashed, Mohamed Ahmed, Alan E. Kehew, Adam Milewski, Kyle Chouinard: Paleoclimate record in the Nubian Sandstone Aquifer, Sinai Peninsula, Egypt. Quaternary Research. Bd. 81, Nr. 1, 2014, S. 158–167, doi:10.1016/j.yqres.2013.10.017 (alternativer Volltextzugriff: University of Georgia 1,5 MB).

usask.ca

water.usask.ca

  • Scott Jasechko, Debra Perrone, Kevin M. Befus, M. Bayani Cardenas, Grant Ferguson, Tom Gleeson, Elco Luijendijk, Jeffrey J. McDonnell, Richard G. Taylor, Yoshihide Wada, James W. Kirchner: Global aquifers dominated by fossil groundwaters but wells vulnerable to modern contamination. Nature Geoscience. Bd. 10, 2017, S. 425–429, doi:10.1038/ngeo2943 (alternativer Volltextzugriff: GIWS 600 kB); siehe dazu auch Lucian Haas: Neuer Schmutz in altem Wasser - Fossiles Grundwasser enthält Verunreinigungen (Memento vom 27. April 2017 im Internet Archive). Aufzeichnung eines Beitrages in der Sendung Forschung aktuell inkl. einem Interview mit Scott Jasechko, Deutschlandfunk, 25. April 2017.

utoronto.ca

es.utoronto.ca

  • Oliver Warr, Barbara Sherwood Lollar, Jonathan Fellowes, Chelsea N. Sutcliffe, Jill M. McDermott, Greg Holland, Jennifer C. Mabry, Christopher J. Ballentine: Tracing ancient hydrogeological fracture network age and compartmentalisation using noble gases. Geochimica et Cosmochimica Acta. Bd. 222, 2018, S. 340–362, doi:10.1016/j.gca.2017.10.022 (alternativer Volltextzugriff: Earth Sciences, University of Toronto).

washington.edu

faculty.washington.edu

  • Stephen Foster, Hector Garduno, Richard Evans, Doug Olson, Yuan Tian, Weizhen Zhang, Zaisheng Han: Quaternary Aquifer of the North China Plain – assessing and achieving groundwater resource sustainability. Hydrogeology Journal. Bd. 12, Nr. 1, 2003, S. 81–93, doi:10.1007/s10040-003-0300-6 (alternativer Volltextzugriff: University of Washington 1,5 MB), S. 87 f.

water.wa.gov.au

  • Karina Meredith: Radiocarbon age dating groundwaters of the West Canning Basin, Western Australia. ANSTO Institute for Environmental Research, Menai (NSW) 2009 (PDF 2,2 MB), S. 19 f.

web.archive.org

  • Scott Jasechko, Debra Perrone, Kevin M. Befus, M. Bayani Cardenas, Grant Ferguson, Tom Gleeson, Elco Luijendijk, Jeffrey J. McDonnell, Richard G. Taylor, Yoshihide Wada, James W. Kirchner: Global aquifers dominated by fossil groundwaters but wells vulnerable to modern contamination. Nature Geoscience. Bd. 10, 2017, S. 425–429, doi:10.1038/ngeo2943 (alternativer Volltextzugriff: GIWS 600 kB); siehe dazu auch Lucian Haas: Neuer Schmutz in altem Wasser - Fossiles Grundwasser enthält Verunreinigungen (Memento vom 27. April 2017 im Internet Archive). Aufzeichnung eines Beitrages in der Sendung Forschung aktuell inkl. einem Interview mit Scott Jasechko, Deutschlandfunk, 25. April 2017.