SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2729971131> ?p ?o ?g. }

Showing items 1 to 100 of ±144 with 100 items per page.

W2729971131 endingPage "186" @default.
W2729971131 startingPage "173" @default.
W2729971131 abstract "Abstract Oxygen isotope ratio (δ18O) value deviations from the Meteoric Water Line with no significant change in the hydrogen isotope (δ2H) composition have been reported in naturally occurring CO2-rich waters from around the world. Here we review the effects of oxygen isotope exchange with CO2, high temperature equilibration with bedrock minerals and mineral dissolution and precipitation reactions on the CO2-rich water isotopic composition. We present two case studies from Daylesford (Australia) and Pah Tempe (Utah, USA) mineral springs, where we use a numerical geochemical modelling approach to resolve the influence of low temperature water-rock interactions and CO2 equilibration to the oxygen isotope ranges observed in the mineral waters. In both cases, we find that mineral dissolution – precipitation reactions are unlikely to have a significant effect on the groundwater isotopic compositions, and that the observed δ18O values in natural CO2 springs can be simply explained by equilibrium fractionation between water and free phase CO2. Traditionally, the interaction of CO2 and water in a natural CO2-rich groundwater setting has only been associated with water 18O depletion and this is the first study to consider 18O enrichment. We establish that in a natural setting, CO2 and water equilibration can result in water 18O depletion or enrichment, and that the change in the oxygen isotope composition ultimately depends on the initial CO2 and water δ18O values. Our new conceptual model therefore provides a mechanism to explain water 18O enrichment at ambient temperatures. This finding is critical for the use of δ18O in groundwater geothermometry and for the interpretation of natural water circulation depths: we argue that in some cases, natural waters previously interpreted as geothermal based on their oxygen isotope composition may actually have acquired their isotopic signature through interaction with CO2 at ambient temperatures." @default.
W2729971131 created "2017-07-14" @default.
W2729971131 creator A5006950828 @default.
W2729971131 creator A5038659393 @default.
W2729971131 creator A5059566300 @default.
W2729971131 creator A5068897073 @default.
W2729971131 date "2017-09-01" @default.
W2729971131 modified "2023-09-27" @default.
W2729971131 title "The influence of oxygen isotope exchange between CO2 and H2O in natural CO2-rich spring waters: Implications for geothermometry" @default.
W2729971131 cites W1558930856 @default.
W2729971131 cites W1562666617 @default.
W2729971131 cites W1966601267 @default.
W2729971131 cites W1971401376 @default.
W2729971131 cites W1977352398 @default.
W2729971131 cites W1983067570 @default.
W2729971131 cites W1987388908 @default.
W2729971131 cites W1987611699 @default.
W2729971131 cites W1987754478 @default.
W2729971131 cites W1988044806 @default.
W2729971131 cites W1988399978 @default.
W2729971131 cites W1993698575 @default.
W2729971131 cites W1994141896 @default.
W2729971131 cites W1994327399 @default.
W2729971131 cites W1997866625 @default.
W2729971131 cites W1998483111 @default.
W2729971131 cites W1998957123 @default.
W2729971131 cites W2001987411 @default.
W2729971131 cites W2005589490 @default.
W2729971131 cites W2007113204 @default.
W2729971131 cites W2010213262 @default.
W2729971131 cites W2012632255 @default.
W2729971131 cites W2013615178 @default.
W2729971131 cites W2016252579 @default.
W2729971131 cites W2017934677 @default.
W2729971131 cites W2023289187 @default.
W2729971131 cites W2027274166 @default.
W2729971131 cites W2027646081 @default.
W2729971131 cites W2033044326 @default.
W2729971131 cites W2037083046 @default.
W2729971131 cites W2038098317 @default.
W2729971131 cites W2047485798 @default.
W2729971131 cites W2047974999 @default.
W2729971131 cites W2051193733 @default.
W2729971131 cites W2053413984 @default.
W2729971131 cites W2067053835 @default.
W2729971131 cites W2067326496 @default.
W2729971131 cites W2069533355 @default.
W2729971131 cites W2069903397 @default.
W2729971131 cites W2072191315 @default.
W2729971131 cites W2075201535 @default.
W2729971131 cites W2075478306 @default.
W2729971131 cites W2079458347 @default.
W2729971131 cites W2080604186 @default.
W2729971131 cites W2080656334 @default.
W2729971131 cites W2082046004 @default.
W2729971131 cites W2083908600 @default.
W2729971131 cites W2085839655 @default.
W2729971131 cites W2086198854 @default.
W2729971131 cites W2092030049 @default.
W2729971131 cites W2120777708 @default.
W2729971131 cites W2126820166 @default.
W2729971131 cites W2130689775 @default.
W2729971131 cites W2151261306 @default.
W2729971131 cites W2159509328 @default.
W2729971131 cites W2168885892 @default.
W2729971131 cites W2169746538 @default.
W2729971131 cites W2179323784 @default.
W2729971131 cites W2295764186 @default.
W2729971131 cites W2312260400 @default.
W2729971131 cites W2468566494 @default.
W2729971131 cites W2516536072 @default.
W2729971131 cites W4256468369 @default.
W2729971131 cites W638077904 @default.
W2729971131 doi "https://doi.org/10.1016/j.apgeochem.2017.06.012" @default.
W2729971131 hasPublicationYear "2017" @default.
W2729971131 type Work @default.
W2729971131 sameAs 2729971131 @default.
W2729971131 citedByCount "42" @default.
W2729971131 countsByYear W27299711312018 @default.
W2729971131 countsByYear W27299711312019 @default.
W2729971131 countsByYear W27299711312020 @default.
W2729971131 countsByYear W27299711312021 @default.
W2729971131 countsByYear W27299711312022 @default.
W2729971131 countsByYear W27299711312023 @default.
W2729971131 crossrefType "journal-article" @default.
W2729971131 hasAuthorship W2729971131A5006950828 @default.
W2729971131 hasAuthorship W2729971131A5038659393 @default.
W2729971131 hasAuthorship W2729971131A5059566300 @default.
W2729971131 hasAuthorship W2729971131A5068897073 @default.
W2729971131 hasBestOaLocation W27299711311 @default.
W2729971131 hasConcept C107872376 @default.
W2729971131 hasConcept C127313418 @default.
W2729971131 hasConcept C127413603 @default.
W2729971131 hasConcept C151730666 @default.
W2729971131 hasConcept C17409809 @default.
W2729971131 hasConcept C178790620 @default.
W2729971131 hasConcept C185592680 @default.
W2729971131 hasConcept C1965285 @default.