SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2018769657> ?p ?o ?g. }

Showing items 1 to 100 of ±142 with 100 items per page.

W2018769657 endingPage "1524" @default.
W2018769657 startingPage "1510" @default.
W2018769657 abstract "In the present work, the first results are reported for both Li and B isotope ratios in rainwater samples collected over a long time period (i.e. monthly rainfall events over 1 a) at a national scale (from coastal and inland locations). In addition, the stable isotopes of the water molecule (δD and δ18O) are also reported here for the same locations so that the Li and B isotope data can be discussed in the same context. The range of Li and B isotopic variations in these rainwaters were measured to enable the determination of the origin of these elements in rainwaters and the characterization of both the seasonal and spatio-temporal effects for δ7Li and δ11B signatures in rainwaters. Lithium and B concentrations are low in rainwater samples, ranging from 0.004 to 0.292 μmol/L and from 0.029 to 6.184 μmol/L, respectively. δ7Li and δ11B values in rainwaters also show a great range of variation between +3.2‰ and +95.6‰ and between −3.3‰ and +40.6‰ over a period of 1 a, respectively, clearly different from the signature of seawater. Seasonal effects (i.e. rainfall amount and month) are not the main factors controlling element concentrations and isotopic variations. δ7Li and δ11B values in rainwaters are clearly different from one site to another, indicating the variable contribution of sea salts in the rainwater depending on the sampling site (coastal vs. inland: also called the distance-from-the-coast-effect). This is well illustrated when wind direction data (origin of air masses) is included. It was found that seawater is not the main supplier of dissolved atmospheric Li and B, and non-sea-salt sources (i.e. crustal, anthropogenic, biogenic) should also be taken into account when Li and B isotopes are considered in hydrogeochemistry as an input to surface waters and groundwater bodies as recharge. In parallel, the isotopic variations of the water molecule, vector of the dissolved B and Li, are also investigated and reported as a contour map for δ18O values based on compiled data including more than 400 δ18O values from throughout France. This δ18O map could be used as a reference for future studies dealing with δ18O recharge signature in relation to the characterization of surface waters and/or groundwater bodies." @default.
W2018769657 created "2016-06-24" @default.
W2018769657 creator A5014995811 @default.
W2018769657 creator A5040599805 @default.
W2018769657 creator A5056473854 @default.
W2018769657 creator A5074693918 @default.
W2018769657 date "2010-10-01" @default.
W2018769657 modified "2023-10-18" @default.
W2018769657 title "Multi-isotopic composition (δ7Li–δ11B–δD–δ18O) of rainwaters in France: Origin and spatio-temporal characterization" @default.
W2018769657 cites W1707332795 @default.
W2018769657 cites W192975001 @default.
W2018769657 cites W1963679845 @default.
W2018769657 cites W1964476229 @default.
W2018769657 cites W1968705307 @default.
W2018769657 cites W1969479112 @default.
W2018769657 cites W1983351172 @default.
W2018769657 cites W1984225359 @default.
W2018769657 cites W1985835437 @default.
W2018769657 cites W1987150536 @default.
W2018769657 cites W1989167434 @default.
W2018769657 cites W1995905481 @default.
W2018769657 cites W2002673413 @default.
W2018769657 cites W2010637391 @default.
W2018769657 cites W2015381547 @default.
W2018769657 cites W2016065136 @default.
W2018769657 cites W2027103170 @default.
W2018769657 cites W2028243759 @default.
W2018769657 cites W2030842572 @default.
W2018769657 cites W2032187872 @default.
W2018769657 cites W2035377063 @default.
W2018769657 cites W2039579770 @default.
W2018769657 cites W2042300120 @default.
W2018769657 cites W2055772483 @default.
W2018769657 cites W2056854428 @default.
W2018769657 cites W2064313765 @default.
W2018769657 cites W2066844516 @default.
W2018769657 cites W2067774922 @default.
W2018769657 cites W2069188243 @default.
W2018769657 cites W2070257026 @default.
W2018769657 cites W2072191315 @default.
W2018769657 cites W2074244071 @default.
W2018769657 cites W2078200020 @default.
W2018769657 cites W2079118724 @default.
W2018769657 cites W2083414925 @default.
W2018769657 cites W2087497588 @default.
W2018769657 cites W2088110859 @default.
W2018769657 cites W2088847027 @default.
W2018769657 cites W2093915428 @default.
W2018769657 cites W2117938341 @default.
W2018769657 cites W2119903004 @default.
W2018769657 cites W2130229898 @default.
W2018769657 cites W2132932554 @default.
W2018769657 cites W2156116274 @default.
W2018769657 cites W2158909637 @default.
W2018769657 cites W4205832755 @default.
W2018769657 cites W4239525505 @default.
W2018769657 doi "https://doi.org/10.1016/j.apgeochem.2010.08.002" @default.
W2018769657 hasPublicationYear "2010" @default.
W2018769657 type Work @default.
W2018769657 sameAs 2018769657 @default.
W2018769657 citedByCount "107" @default.
W2018769657 countsByYear W20187696572012 @default.
W2018769657 countsByYear W20187696572013 @default.
W2018769657 countsByYear W20187696572014 @default.
W2018769657 countsByYear W20187696572015 @default.
W2018769657 countsByYear W20187696572016 @default.
W2018769657 countsByYear W20187696572017 @default.
W2018769657 countsByYear W20187696572018 @default.
W2018769657 countsByYear W20187696572019 @default.
W2018769657 countsByYear W20187696572020 @default.
W2018769657 countsByYear W20187696572021 @default.
W2018769657 countsByYear W20187696572022 @default.
W2018769657 countsByYear W20187696572023 @default.
W2018769657 crossrefType "journal-article" @default.
W2018769657 hasAuthorship W2018769657A5014995811 @default.
W2018769657 hasAuthorship W2018769657A5040599805 @default.
W2018769657 hasAuthorship W2018769657A5056473854 @default.
W2018769657 hasAuthorship W2018769657A5074693918 @default.
W2018769657 hasBestOaLocation W20187696572 @default.
W2018769657 hasConcept C107872376 @default.
W2018769657 hasConcept C111368507 @default.
W2018769657 hasConcept C121332964 @default.
W2018769657 hasConcept C127313418 @default.
W2018769657 hasConcept C146458902 @default.
W2018769657 hasConcept C151730666 @default.
W2018769657 hasConcept C164304813 @default.
W2018769657 hasConcept C185592680 @default.
W2018769657 hasConcept C18903297 @default.
W2018769657 hasConcept C197248824 @default.
W2018769657 hasConcept C22117777 @default.
W2018769657 hasConcept C24890656 @default.
W2018769657 hasConcept C2779343474 @default.
W2018769657 hasConcept C2781291010 @default.
W2018769657 hasConcept C39432304 @default.
W2018769657 hasConcept C62520636 @default.
W2018769657 hasConcept C69384203 @default.
W2018769657 hasConcept C83419821 @default.
W2018769657 hasConcept C86803240 @default.