Natural Radionuclides in Groundwater (NORM)

Considering water as the primary resource necessary for social life, agriculture, industry, and wealth, the importance of groundwater investigation is clear. Apart from many other pollutants, this work focusses on geogenic uranium (U) and radium (Ra), which both stand for natural radionuclides (NORM) that need to be considered frame of groundwater exploration and monitoring programmes due to their specific mobility and chemo-/radiotoxicity. As investigation of U and – to a lesser extent - Ra is done by an increasing number of scientific working groups, the global dataset is improving continuously. In order to give a summarized overview on available and recent literature, scientific papers, reports, and governmental documents have been reviewed for U-238 mass concentrations and Ra-226 and Ra-228 activity concentrations and collected in tables and global maps. Further natural isotopes of U and Ra have been rarely subject of investigation. The collected data were evaluated and interpreted in frame of an associated scientific publication (see citation). From the available data it can be concluded that high geogenic U occur mainly under oxidizing conditions and carbonate rich groundwater, which might be seen as indicator for elevated U concentrations. Certain geological formations, as for example sedimentary, granitic, and volcanic host rocks, promote high U concentrations in groundwater. For geogenic Ra, the search for definite indications proved difficult, since less clear correlation is given for any observed factor. In a global perspective, the most promising evidence for elevated Ra are highly reducing redox conditions, as well as the occurrence of Fe/Mn mineral phases. Furthermore, barite represents a sink for Ra due to its ability to incorporate Ra isotopes. Dissolution of those mineral phases eventually results in co-dissolution of Ra, when Ra is found in host rocks of investigated aquifers, or downstream of such groundwater reservoirs. Furthermore, cation exchange might enhance Ra mobility process, especially in case of sedimentary aquifers with low sorption capacity and/or aquifers with high salinity. Given those chemical requirements for the occurrence of U and Ra, a negative correlation between mother and daughter nuclide can be established. When knowledge on present geological and geochemical constraints is available, elevated U and Ra concentrations might be predictable, as long as anthropogenic influence is excluded.
 
Citation proposal
(2021) . Natural Radionuclides in Groundwater (NORM). https://gdk.gdi-de.org/geonetwork/srv/api/records/c91d501f-d935-42bd-b99c-e89dd96e62ac
 

Simple

Alternate title
NORM
Date ( Publication )
2021-02-01
Date ( Revision )
2023-02-22
Edition
v2.0
Identifier
817b3578-7740-dd50-6034-4301af53a3d8
Other citation details
Frank Wagner, Elena Mühr-Ebert, Fabian Köhler, Clemens Walther (2021): A global review of the occurrence of geogenic radium in groundwater. Applied Geochemistry (submitted). Bei jeglicher Verwendung der Daten in analoger oder digitaler Form ist an deutlich sichtbarer Stelle auf die Datenquelle wie folgt hinzuweisen: NORM v2 © BGR 2023
Status
completed Completed

  Point of contact

GEMET - INSPIRE themes, version 1.0 ( Theme )
  • Geologie
  • Geology
GEMET - Concepts, version 2.4 ( Theme )
  • Grundwasser
  • Hydrogeologie
  • Groundwater
  • Hydrogeology
SGD-Liste ( Theme )
  • Grundwasserbeschaffenheit
Keywords ( Theme )
  • Geogene Hintergrundwerte
  • NORM
  • Uran
  • Radium
Keywords ( Place )
  • Weltweit
  • worldwide
Access constraints
Other restrictions
Use constraints
Other restrictions
Other constraints
Allgemeine Geschäftsbedingungen (AGB) der Bundesanstalt für Geowissenschaften und Rohstoffe (BGR). Bei Software, digitalen Daten und sonstigen urheberrechtlich geschützten Werken sowie Know-how ist das LBEG bzw. die BGR Inhaber der Verwertungsrechte. Der Vertragspartner erhält ein einfaches Nutzungsrecht für die im Folgenden beschriebenen Nutzungsarten. Übertragen wird das Recht zur Vervielfältigung und Vorführung. Nicht übertragen wird insbesondere das Recht der öffentlichen Zugänglichmachung, es sei denn der Vertragspartner nimmt die öffentliche Zugänglichmachung als beteiligte Behörde eines Verwaltungsverfahrens für Zwecke des Verwaltungsverfahrens vor. Die bereitgestellten Informationen sind bei Weiterverwendung wie folgt zu zitieren: Datenquelle: NORM v2.0 (C) BGR 2023
Spatial representation type
Vector
Denominator
1000000
Metadata language
eng English
Character set
utf8 UTF8
Topic category
  • Geoscientific information
N
S
E
W


Distribution format
  • Shapefile (n/a )

Transfer size
6
OnLine resource
NORM (Shapefile)  

NORM im Format ESRI Shape

OnLine resource
Internetseite zum Projekt  

Internetseite zum Projekt

OnLine resource
Karte im BGR-Geoviewer  

Karte im BGR-Geoviewer

OnLine resource
Internetseite zum Projekt  

Internetseite zum Projekt

Hierarchy level
Dataset
Statement
EN: Source of the measured values: International publications DE: Quelle der Messwerte: Internationale Fachpublikationen Frank Wagner, Elena Mühr-Ebert, Fabian Köhler, Clemens Walther (2021): Occurrence and spread of geogenic uranium and radium levels in groundwater. Applied Geochemistry (submitted).

gmd:MD_Metadata

File identifier
c91d501f-d935-42bd-b99c-e89dd96e62ac   XML
Metadata language
English
Character set
utf8 UTF8
Hierarchy level
dataset Dataset
Hierarchy level name
Grundwasser
Date stamp
2023-02-23
Metadata standard name
INSPIRE Metadata Implementing Rules: Technical Guidelines based on EN ISO 19115 and EN ISO 19119
Metadata standard version
n/a

  Point of contact

Website
https://www.bgr.bund.de  
 
 

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