SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2080758367> ?p ?o ?g. }

Showing items 1 to 100 of ±141 with 100 items per page.

W2080758367 endingPage "118" @default.
W2080758367 startingPage "107" @default.
W2080758367 abstract "The ratio of magnesium to calcium (Mg/Ca) in carbonate minerals in an abiotic setting is conventionally assumed to be predominantly controlled by (Mg/Ca)solution and a temperature dependant partition coefficient. This temperature dependence suggests that both marine (e.g. foraminiferal calcite and corals) and freshwater (e.g. speleothems and surface freshwater deposits, “tufas”) carbonate deposits may be important archives of palaeotemperature data. However, there is considerable uncertainty in all these settings. In surface freshwater deposits this uncertainty is focussed on the influence of microbial biofilms. Biogenic or “vital” effects may arise from microbial metabolic activity and/or the presence of extracellular polymeric substances (EPS). This study addresses this key question for the first time, via a series of unique through-flow microcosm and agitated flask experiments where freshwater calcite was precipitated under controlled conditions. These experiments reveal there is no strong relationship between (Mg/Ca)calcite and temperature, so the assumption of thermodynamic fractionation is not viable. However, there is a pronounced influence on (Mg/Ca)calcite from precipitation rate, so that rapidly forming precipitates develop with very low magnesium content indicating kinetic control on fractionation. Calcite precipitation rate in these experiments (where the solution is only moderately supersaturated) is controlled by biofilm growth rate, but occurs even when light is excluded indicating that photosynthetic influences are not critical. Our results thus suggest the apparent kinetic fractionation arises from the electrochemical activity of EPS molecules, and are therefore likely to occur wherever these molecules occur, including stromatolites, soil and lake carbonates and (via colloidal EPS) speleothems." @default.
W2080758367 created "2016-06-24" @default.
W2080758367 creator A5020488863 @default.
W2080758367 creator A5024431903 @default.
W2080758367 creator A5037106232 @default.
W2080758367 creator A5067279601 @default.
W2080758367 creator A5076192349 @default.
W2080758367 date "2014-12-01" @default.
W2080758367 modified "2023-10-03" @default.
W2080758367 title "Mg/Ca ratios in freshwater microbial carbonates: Thermodynamic, kinetic and vital effects" @default.
W2080758367 cites W1516518018 @default.
W2080758367 cites W1625329436 @default.
W2080758367 cites W1965267725 @default.
W2080758367 cites W1977436895 @default.
W2080758367 cites W1979799725 @default.
W2080758367 cites W1980645312 @default.
W2080758367 cites W1981926445 @default.
W2080758367 cites W1984968871 @default.
W2080758367 cites W1987036576 @default.
W2080758367 cites W1992161729 @default.
W2080758367 cites W1998837657 @default.
W2080758367 cites W2001129683 @default.
W2080758367 cites W2002283614 @default.
W2080758367 cites W2002691206 @default.
W2080758367 cites W2007143554 @default.
W2080758367 cites W2009478519 @default.
W2080758367 cites W2014416110 @default.
W2080758367 cites W2015390285 @default.
W2080758367 cites W2015520278 @default.
W2080758367 cites W2017386151 @default.
W2080758367 cites W2018065255 @default.
W2080758367 cites W2019123855 @default.
W2080758367 cites W2026637835 @default.
W2080758367 cites W2046531714 @default.
W2080758367 cites W2053129771 @default.
W2080758367 cites W2053497186 @default.
W2080758367 cites W2053529594 @default.
W2080758367 cites W2056880513 @default.
W2080758367 cites W2058328029 @default.
W2080758367 cites W2060341446 @default.
W2080758367 cites W2062654299 @default.
W2080758367 cites W2065482341 @default.
W2080758367 cites W2070171695 @default.
W2080758367 cites W2070869468 @default.
W2080758367 cites W2073530494 @default.
W2080758367 cites W2079428926 @default.
W2080758367 cites W2080627804 @default.
W2080758367 cites W2090076080 @default.
W2080758367 cites W2090521014 @default.
W2080758367 cites W2092098869 @default.
W2080758367 cites W2094438399 @default.
W2080758367 cites W2096522903 @default.
W2080758367 cites W2102663197 @default.
W2080758367 cites W2113349947 @default.
W2080758367 cites W2120537950 @default.
W2080758367 cites W2128509875 @default.
W2080758367 cites W2133644634 @default.
W2080758367 cites W2135445319 @default.
W2080758367 cites W2141655611 @default.
W2080758367 cites W2156779322 @default.
W2080758367 cites W2166742770 @default.
W2080758367 cites W2168601743 @default.
W2080758367 doi "https://doi.org/10.1016/j.gca.2014.10.014" @default.
W2080758367 hasPublicationYear "2014" @default.
W2080758367 type Work @default.
W2080758367 sameAs 2080758367 @default.
W2080758367 citedByCount "25" @default.
W2080758367 countsByYear W20807583672013 @default.
W2080758367 countsByYear W20807583672015 @default.
W2080758367 countsByYear W20807583672016 @default.
W2080758367 countsByYear W20807583672017 @default.
W2080758367 countsByYear W20807583672018 @default.
W2080758367 countsByYear W20807583672019 @default.
W2080758367 countsByYear W20807583672020 @default.
W2080758367 countsByYear W20807583672021 @default.
W2080758367 countsByYear W20807583672022 @default.
W2080758367 countsByYear W20807583672023 @default.
W2080758367 crossrefType "journal-article" @default.
W2080758367 hasAuthorship W2080758367A5020488863 @default.
W2080758367 hasAuthorship W2080758367A5024431903 @default.
W2080758367 hasAuthorship W2080758367A5037106232 @default.
W2080758367 hasAuthorship W2080758367A5067279601 @default.
W2080758367 hasAuthorship W2080758367A5076192349 @default.
W2080758367 hasBestOaLocation W20807583672 @default.
W2080758367 hasConcept C107872376 @default.
W2080758367 hasConcept C127313418 @default.
W2080758367 hasConcept C129968341 @default.
W2080758367 hasConcept C151730666 @default.
W2080758367 hasConcept C178790620 @default.
W2080758367 hasConcept C185592680 @default.
W2080758367 hasConcept C192552737 @default.
W2080758367 hasConcept C199289684 @default.
W2080758367 hasConcept C2778039128 @default.
W2080758367 hasConcept C2780191791 @default.
W2080758367 hasConcept C2780659211 @default.
W2080758367 hasConcept C43617362 @default.
W2080758367 hasConcept C523546767 @default.
W2080758367 hasConcept C543218039 @default.