SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1993646507> ?p ?o ?g. }

Showing items 1 to 100 of ±132 with 100 items per page.

W1993646507 endingPage "228" @default.
W1993646507 startingPage "217" @default.
W1993646507 abstract "The effect of microbial reduction of bacteriogenic iron oxides (BIOS) on the release of sorbed Sr was examined using a naturally low-Sr BIOS (n-BIOS) collected from Chalk River, Canada, and a naturally high-Sr BIOS (Äspö-BIOS) collected from Äspö, Sweden. EXAFS analysis suggested that Sr was bound to the Äspö-BIOS as an outer-sphere complex of hydrated Sr2+. During reduction, Sr desorption from n-BIOS was concomitant with the production of Fe(II), resulting in solubilization of 80% of the total Sr. In contrast, nearly 100% of the Sr was solubilized from Äspö-BIOS, although Sr desorption was delayed, relative to Fe(II) production. When n-BIOS were artificially saturated with Sr, there was a significant decrease in the rate and extent of Fe(III) reduction and an induced delay in Sr desorption (similar to that observed for Äspö-BIOS). Saturation of synthetic hydrous ferric oxide with Sr had no such effect on Fe(III) reduction rate, although a delay in Sr desorption was again observed. In all instances, the levels of desorbed aqueous Sr remained constant, suggesting that re-sorption or co-precipitation of Sr with secondary mineral precipitates (vivianite) did not occur under the experimental conditions. In situ porewater analysis of the Chalk River BIOS indicated positive correlations between soluble-phase concentrations of Fe(II) and Sr at depth, suggesting that anaerobic reduction of Fe(III) releases Sr back into the groundwater flow at the site. Further, in areas where BIOS deposition is occurring within the groundwater discharge zone, levels of soluble Sr are 2 to 3 times lower than in areas where BIOS is absent. The data indicate that phase partitioning of Sr within BIOS is governed largely by Fe oxidation state, and that BIOS will act as effective sorbents of Sr as long as oxidizing conditions are maintained. However reduction of the BIOS will likely result in significant desorption and remobilization of the bound Sr." @default.
W1993646507 created "2016-06-24" @default.
W1993646507 creator A5005690917 @default.
W1993646507 creator A5006346869 @default.
W1993646507 creator A5033583665 @default.
W1993646507 creator A5046875288 @default.
W1993646507 creator A5066763689 @default.
W1993646507 creator A5069587199 @default.
W1993646507 creator A5069773286 @default.
W1993646507 creator A5086851752 @default.
W1993646507 date "2009-05-01" @default.
W1993646507 modified "2023-09-23" @default.
W1993646507 title "Strontium desorption from bacteriogenic iron oxides (BIOS) subjected to microbial Fe(III) reduction" @default.
W1993646507 cites W1773141807 @default.
W1993646507 cites W1902533370 @default.
W1993646507 cites W1968254587 @default.
W1993646507 cites W1970695284 @default.
W1993646507 cites W1982394387 @default.
W1993646507 cites W1983143186 @default.
W1993646507 cites W1991996874 @default.
W1993646507 cites W1997476054 @default.
W1993646507 cites W1998655084 @default.
W1993646507 cites W2004104261 @default.
W1993646507 cites W2010335728 @default.
W1993646507 cites W2016243487 @default.
W1993646507 cites W2019954765 @default.
W1993646507 cites W2023692073 @default.
W1993646507 cites W2028898550 @default.
W1993646507 cites W2038614693 @default.
W1993646507 cites W2039617373 @default.
W1993646507 cites W2040901305 @default.
W1993646507 cites W2041097461 @default.
W1993646507 cites W2045435069 @default.
W1993646507 cites W2049572699 @default.
W1993646507 cites W2054839544 @default.
W1993646507 cites W2059926907 @default.
W1993646507 cites W2060718840 @default.
W1993646507 cites W2063933051 @default.
W1993646507 cites W2064497102 @default.
W1993646507 cites W2065203578 @default.
W1993646507 cites W2071362227 @default.
W1993646507 cites W2074667643 @default.
W1993646507 cites W2074897024 @default.
W1993646507 cites W2079780842 @default.
W1993646507 cites W2081057026 @default.
W1993646507 cites W2083126871 @default.
W1993646507 cites W2086205193 @default.
W1993646507 cites W2091913250 @default.
W1993646507 cites W2094123783 @default.
W1993646507 cites W2098232539 @default.
W1993646507 cites W2121979907 @default.
W1993646507 cites W2129174912 @default.
W1993646507 cites W2144574024 @default.
W1993646507 cites W2148662057 @default.
W1993646507 cites W2151209894 @default.
W1993646507 cites W2152205487 @default.
W1993646507 cites W2154836565 @default.
W1993646507 cites W2155471891 @default.
W1993646507 cites W2161863191 @default.
W1993646507 cites W2415629274 @default.
W1993646507 cites W2496620919 @default.
W1993646507 cites W2921364214 @default.
W1993646507 doi "https://doi.org/10.1016/j.chemgeo.2009.01.019" @default.
W1993646507 hasPublicationYear "2009" @default.
W1993646507 type Work @default.
W1993646507 sameAs 1993646507 @default.
W1993646507 citedByCount "19" @default.
W1993646507 countsByYear W19936465072012 @default.
W1993646507 countsByYear W19936465072013 @default.
W1993646507 countsByYear W19936465072014 @default.
W1993646507 countsByYear W19936465072016 @default.
W1993646507 countsByYear W19936465072017 @default.
W1993646507 countsByYear W19936465072018 @default.
W1993646507 countsByYear W19936465072022 @default.
W1993646507 crossrefType "journal-article" @default.
W1993646507 hasAuthorship W1993646507A5005690917 @default.
W1993646507 hasAuthorship W1993646507A5006346869 @default.
W1993646507 hasAuthorship W1993646507A5033583665 @default.
W1993646507 hasAuthorship W1993646507A5046875288 @default.
W1993646507 hasAuthorship W1993646507A5066763689 @default.
W1993646507 hasAuthorship W1993646507A5069587199 @default.
W1993646507 hasAuthorship W1993646507A5069773286 @default.
W1993646507 hasAuthorship W1993646507A5086851752 @default.
W1993646507 hasConcept C107872376 @default.
W1993646507 hasConcept C111368507 @default.
W1993646507 hasConcept C111919701 @default.
W1993646507 hasConcept C127313418 @default.
W1993646507 hasConcept C13965031 @default.
W1993646507 hasConcept C150394285 @default.
W1993646507 hasConcept C162711632 @default.
W1993646507 hasConcept C178790620 @default.
W1993646507 hasConcept C185592680 @default.
W1993646507 hasConcept C197248824 @default.
W1993646507 hasConcept C199289684 @default.
W1993646507 hasConcept C41008148 @default.
W1993646507 hasConcept C518915863 @default.
W1993646507 hasConcept C536060405 @default.
W1993646507 hasConceptScore W1993646507C107872376 @default.