FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1897430198> ?p ?o ?g. }

• W1897430198 endingPage "1705" @default.
• W1897430198 startingPage "1689" @default.
• W1897430198 abstract "Identifying the anthropogenic and natural sources of mercury (Hg) emissions contributing to atmospheric mercury on local, regional, and global scales continues to be a grand challenge. The relative importance of various direct anthropogenic emissions of mercury, in addition to natural geologic sources and reemission of previously released and deposited mercury, differs regionally and temporally. In this study, we used local-scale, mesoscale, and synoptic-scale meteorological analysis to couple the isotopic composition of ambient atmospheric mercury with potential sources of mercury contributing to a coastal urban-industrial setting near a coal-fired power plant in Pensacola, Florida, USA. We were able to broadly discern four influences on the isotopic composition of ambient atmospheric mercury impacting this coastal urban-industrial region: (1) local to regional urban-industrial anthropogenic emissions (mean δ202Hg = 0.44 ± 0.05‰, 1SD, n = 3), (2) marine-influenced sources derived from the Gulf of Mexico (mean δ202Hg = 0.77 ± 0.15‰, 1SD, n = 4), (3) continental sources associated with north-northwesterly flows from within the planetary boundary layer (mean δ202Hg = 0.65 ± 0.04‰, 1SD, n = 3), and (4) continental sources associated with north-northeasterly flows at higher altitudes (i.e., 2000 m above ground level; mean δ202Hg = 1.10 ± 0.21‰, 1SD, n = 8). Overall, these data, in conjunction with previous studies, suggest that the background global atmospheric mercury pool is characterized by moderately positive δ202Hg values; that urban-industrial emissions drive the isotopic composition of ambient atmospheric mercury toward lower δ202Hg values; and that air-surface exchange dynamics across vegetation and soils of terrestrial ecosystems drive the isotopic composition of ambient atmospheric mercury toward higher positive δ202Hg values. The data further suggest that mass-independent fractionation (MIF) of both even-mass- and odd-mass-number isotopes, likely generated by photochemical reactions in the atmosphere or during reemission from terrestrial and aquatic ecosystems, can be obscured by mixing with anthropogenic emissions having different MIF signatures." @default.
• W1897430198 created "2016-06-24" @default.
• W1897430198 creator A5019547896 @default.
• W1897430198 creator A5044004945 @default.
• W1897430198 creator A5068443454 @default.
• W1897430198 creator A5082397358 @default.
• W1897430198 creator A5082883898 @default.
• W1897430198 date "2015-10-01" @default.
• W1897430198 modified "2023-10-12" @default.
• W1897430198 title "Coupling atmospheric mercury isotope ratios and meteorology to identify sources of mercury impacting a coastal urban-industrial region near Pensacola, Florida, USA" @default.
• W1897430198 cites W127183747 @default.
• W1897430198 cites W1949839992 @default.
• W1897430198 cites W1956997607 @default.
• W1897430198 cites W1963615690 @default.
• W1897430198 cites W1968733385 @default.
• W1897430198 cites W1971230551 @default.
• W1897430198 cites W1971960832 @default.
• W1897430198 cites W1974970149 @default.
• W1897430198 cites W1982793501 @default.
• W1897430198 cites W1996374574 @default.
• W1897430198 cites W1997025631 @default.
• W1897430198 cites W2003476358 @default.
• W1897430198 cites W2004618914 @default.
• W1897430198 cites W2014445913 @default.
• W1897430198 cites W2020154685 @default.
• W1897430198 cites W2025637561 @default.
• W1897430198 cites W2027650662 @default.
• W1897430198 cites W2042397941 @default.
• W1897430198 cites W2044336414 @default.
• W1897430198 cites W2049176660 @default.
• W1897430198 cites W2052055351 @default.
• W1897430198 cites W2059707927 @default.
• W1897430198 cites W2061488378 @default.
• W1897430198 cites W2073911538 @default.
• W1897430198 cites W2083176686 @default.
• W1897430198 cites W2084341057 @default.
• W1897430198 cites W2091813033 @default.
• W1897430198 cites W2094540668 @default.
• W1897430198 cites W2100053897 @default.
• W1897430198 cites W2104135312 @default.
• W1897430198 cites W2118691770 @default.
• W1897430198 cites W2124088034 @default.
• W1897430198 cites W2125301092 @default.
• W1897430198 cites W2136630030 @default.
• W1897430198 cites W2140318959 @default.
• W1897430198 cites W2148744854 @default.
• W1897430198 cites W2150209488 @default.
• W1897430198 cites W2150967029 @default.
• W1897430198 cites W2154497487 @default.
• W1897430198 cites W2165848459 @default.
• W1897430198 cites W2175373177 @default.
• W1897430198 cites W2321970544 @default.
• W1897430198 cites W2329965085 @default.
• W1897430198 cites W2330965971 @default.
• W1897430198 cites W2334078489 @default.
• W1897430198 cites W4243964181 @default.
• W1897430198 doi "https://doi.org/10.1002/2015gb005146" @default.
• W1897430198 hasPublicationYear "2015" @default.
• W1897430198 type Work @default.
• W1897430198 sameAs 1897430198 @default.
• W1897430198 citedByCount "84" @default.
• W1897430198 countsByYear W18974301982016 @default.
• W1897430198 countsByYear W18974301982017 @default.
• W1897430198 countsByYear W18974301982018 @default.
• W1897430198 countsByYear W18974301982019 @default.
• W1897430198 countsByYear W18974301982020 @default.
• W1897430198 countsByYear W18974301982021 @default.
• W1897430198 countsByYear W18974301982022 @default.
• W1897430198 countsByYear W18974301982023 @default.
• W1897430198 crossrefType "journal-article" @default.
• W1897430198 hasAuthorship W1897430198A5019547896 @default.
• W1897430198 hasAuthorship W1897430198A5044004945 @default.
• W1897430198 hasAuthorship W1897430198A5068443454 @default.
• W1897430198 hasAuthorship W1897430198A5082397358 @default.
• W1897430198 hasAuthorship W1897430198A5082883898 @default.
• W1897430198 hasBestOaLocation W18974301981 @default.
• W1897430198 hasConcept C127313418 @default.
• W1897430198 hasConcept C153294291 @default.
• W1897430198 hasConcept C199360897 @default.
• W1897430198 hasConcept C205649164 @default.
• W1897430198 hasConcept C2777777548 @default.
• W1897430198 hasConcept C2992384748 @default.
• W1897430198 hasConcept C39432304 @default.
• W1897430198 hasConcept C41008148 @default.
• W1897430198 hasConcept C91586092 @default.
• W1897430198 hasConceptScore W1897430198C127313418 @default.
• W1897430198 hasConceptScore W1897430198C153294291 @default.
• W1897430198 hasConceptScore W1897430198C199360897 @default.
• W1897430198 hasConceptScore W1897430198C205649164 @default.
• W1897430198 hasConceptScore W1897430198C2777777548 @default.
• W1897430198 hasConceptScore W1897430198C2992384748 @default.
• W1897430198 hasConceptScore W1897430198C39432304 @default.
• W1897430198 hasConceptScore W1897430198C41008148 @default.
• W1897430198 hasConceptScore W1897430198C91586092 @default.
• W1897430198 hasIssue "10" @default.
• W1897430198 hasLocation W18974301981 @default.
• W1897430198 hasLocation W18974301982 @default.
• W1897430198 hasOpenAccess W1897430198 @default.

• next