SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2005887772> ?p ?o ?g. }

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

W2005887772 endingPage "2560" @default.
W2005887772 startingPage "2547" @default.
W2005887772 abstract "Enriched concentrations of vanadium and nickel have been noted in a variety of naturally occurring organic substances including crude oils, asphalts, and organic matter in some sedimentary rocks. Vanadium and nickel concentrations in bitumens extracted from a variety of organic sedimentary rock types of different geological ages and geographical areas range from less than 0.2 to 4760 ppm and less than 7 to 1240 ppm, respectively. Vanadium concentrations showed a polymodal frequency distribution, while nickel concentrations showed a near-normal frequency distribution. The concentrations of these two metals showed no significant correlations with bitumen content, organic carbon content, or proportionality between bitumen and organic contents. Enriched vanadium and nickel concentrations greater than 100 ppm are only observed in bitumens that are associated with Type II and Type I kerogens. Conversely, bitumens associated with Type III kerogens contained vanadium and nickel concentrations less than 100 ppm. The high stability of vanadium and nickel in crude oils, asphalts, and bitumens suggest that they occur in tetrapyrrole complexes. These complexes may occur as free molecules or assimulated subunits in macromolecules because of their availability in anaerobic systems, small atomic radii, and favorable electron configurations. The potential for an organic sediment to be enriched in these two metals depends upon the amount of tetrapyrroles preserved in its organic matter. Tetrapyrrole preservation preferentially decreases in organic matter as exposure time to aerobic conditions increases. The potential for vanadium and nickel enrichment is therefore the highest in organic matter derived from algae that encountered anaerobic conditions early in their depositional history. Metallation of tetrapyrrole complexes appears to occur within sediments prior to their lithification, and interstitial waters are the most likely source for enriched concentrations of vanadium and nickel. The amount of metal enrichment in a sediment depends upon the diffusion of metal cations from its overlying water body, and this source is only effective as long as the sediment system remains open. The complete metallation of tetrapyrroles is most favorable under conditions of slow sedimentation rates, which would allow open sediment systems to be maintained for long durations." @default.
W2005887772 created "2016-06-24" @default.
W2005887772 creator A5002611084 @default.
W2005887772 creator A5078640339 @default.
W2005887772 date "1982-12-01" @default.
W2005887772 modified "2023-09-29" @default.
W2005887772 title "Factors controlling enrichment of vanadium and nickel in the bitumen of organic sedimentary rocks" @default.
W2005887772 cites W1538191381 @default.
W2005887772 cites W1574855994 @default.
W2005887772 cites W1964560860 @default.
W2005887772 cites W1965424879 @default.
W2005887772 cites W1968131744 @default.
W2005887772 cites W1972520323 @default.
W2005887772 cites W1973861777 @default.
W2005887772 cites W1978096124 @default.
W2005887772 cites W1980734762 @default.
W2005887772 cites W1981236639 @default.
W2005887772 cites W1983037900 @default.
W2005887772 cites W1985255896 @default.
W2005887772 cites W1986629814 @default.
W2005887772 cites W1991044800 @default.
W2005887772 cites W1991803635 @default.
W2005887772 cites W1993730227 @default.
W2005887772 cites W1995938944 @default.
W2005887772 cites W1996340910 @default.
W2005887772 cites W1997338331 @default.
W2005887772 cites W2000315503 @default.
W2005887772 cites W2001243436 @default.
W2005887772 cites W2022141930 @default.
W2005887772 cites W2032243059 @default.
W2005887772 cites W2032279344 @default.
W2005887772 cites W2032996695 @default.
W2005887772 cites W2034646442 @default.
W2005887772 cites W2035528244 @default.
W2005887772 cites W2036686247 @default.
W2005887772 cites W2041140053 @default.
W2005887772 cites W2041583729 @default.
W2005887772 cites W2044233272 @default.
W2005887772 cites W2046178025 @default.
W2005887772 cites W2047527498 @default.
W2005887772 cites W2054098940 @default.
W2005887772 cites W2057273874 @default.
W2005887772 cites W2061035962 @default.
W2005887772 cites W2061593030 @default.
W2005887772 cites W2061774823 @default.
W2005887772 cites W2072098845 @default.
W2005887772 cites W2074616400 @default.
W2005887772 cites W2078056766 @default.
W2005887772 cites W2079720831 @default.
W2005887772 cites W2080342185 @default.
W2005887772 cites W2081233453 @default.
W2005887772 cites W2081631870 @default.
W2005887772 cites W2084475519 @default.
W2005887772 cites W2103946505 @default.
W2005887772 cites W2106893256 @default.
W2005887772 cites W2109395271 @default.
W2005887772 cites W2133539121 @default.
W2005887772 cites W2137683095 @default.
W2005887772 cites W2156709609 @default.
W2005887772 cites W2156895608 @default.
W2005887772 cites W2162995092 @default.
W2005887772 cites W2164384966 @default.
W2005887772 cites W2266461221 @default.
W2005887772 cites W2317452165 @default.
W2005887772 cites W2317739381 @default.
W2005887772 cites W2327525363 @default.
W2005887772 cites W2328493539 @default.
W2005887772 cites W2332071852 @default.
W2005887772 cites W2504023400 @default.
W2005887772 cites W30159348 @default.
W2005887772 cites W4232054840 @default.
W2005887772 doi "https://doi.org/10.1016/0016-7037(82)90377-5" @default.
W2005887772 hasPublicationYear "1982" @default.
W2005887772 type Work @default.
W2005887772 sameAs 2005887772 @default.
W2005887772 citedByCount "386" @default.
W2005887772 countsByYear W20058877722012 @default.
W2005887772 countsByYear W20058877722013 @default.
W2005887772 countsByYear W20058877722014 @default.
W2005887772 countsByYear W20058877722015 @default.
W2005887772 countsByYear W20058877722016 @default.
W2005887772 countsByYear W20058877722017 @default.
W2005887772 countsByYear W20058877722018 @default.
W2005887772 countsByYear W20058877722019 @default.
W2005887772 countsByYear W20058877722020 @default.
W2005887772 countsByYear W20058877722021 @default.
W2005887772 countsByYear W20058877722022 @default.
W2005887772 countsByYear W20058877722023 @default.
W2005887772 crossrefType "journal-article" @default.
W2005887772 hasAuthorship W2005887772A5002611084 @default.
W2005887772 hasAuthorship W2005887772A5078640339 @default.
W2005887772 hasConcept C107872376 @default.
W2005887772 hasConcept C109007969 @default.
W2005887772 hasConcept C126559015 @default.
W2005887772 hasConcept C127313418 @default.
W2005887772 hasConcept C151730666 @default.
W2005887772 hasConcept C158787203 @default.
W2005887772 hasConcept C17409809 @default.