SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2944784084> ?p ?o ?g. }

Showing items 1 to 100 of ±172 with 100 items per page.

W2944784084 endingPage "153" @default.
W2944784084 startingPage "138" @default.
W2944784084 abstract "Traditional models for pre-GOE oceans commonly view iron as a critical link to multiple biogeochemical cycles, and an important source of electrons to primary producers. However, an accurate and detailed understanding of the ancient iron cycle has been limited by: (1) our ability to constrain primary depositional processes through observations of the ancient sedimentary rock record, and (2) a quantitative understanding of the aqueous geochemistry of ferrous iron. Recent advances in high resolution petrography and experimental geochemistry, however, have contributed to a new understanding of certain aspects of the early Fe cycle. Most importantly, high resolution petrographic studies of late Archean/early Paleoproterozoic iron formation have documented the prolific deposition of Fe(II)-silicate-rich chemical muds from a dominantly anoxic ocean. At the same time, recent experimental work has shed new light on processes likely to have controlled steady state Fe concentrations in Archean oceans. These studies suggest that spontaneous precipitation of Fe(II)-carbonate was probably rare in Archean oceans, and that Fe(II)-carbonate would have more commonly precipitated on the surfaces of suitable mineral substrates within clastic and chemical sediments, consistent with petrographic observations. In addition, although experimental investigations suggest that maximum Fe concentrations in Archean oceans would have been limited by authigenic Fe(II)-silicate production (rather than Fe(II)-carbonate), the rock record indicates that this process was rarely operative. Instead, sedimentology, stratigraphy, and geochemical modelling suggest that much of the precursor sediment to late Archean iron formation was produced as hydrothermal effluent interacted with seawater in close proximity to seafloor vents. Together, these observations help define a new topology for the ancient Fe cycle. In this view, hydrothermal effluent-seawater mixing would have strongly attenuated the flux of dissolved Fe2+ to Archean oceans, and early diagenetic siderite formation may have balanced globally averaged riverine and hydrothermal Fe2+ input fluxes. In contrast to previous models, this emerging picture of the early Fe cycle suggests that Fe played only a negligible role in supporting anoxygenic phototrophs, reinforcing the concept that electron donors were in comparatively limited supply before the advent of oxygenic photosynthesis." @default.
W2944784084 created "2019-05-16" @default.
W2944784084 creator A5004525663 @default.
W2944784084 creator A5007556305 @default.
W2944784084 creator A5026256786 @default.
W2944784084 creator A5063587791 @default.
W2944784084 date "2019-08-01" @default.
W2944784084 modified "2023-10-16" @default.
W2944784084 title "Products of the iron cycle on the early Earth" @default.
W2944784084 cites W1510626250 @default.
W2944784084 cites W1692629830 @default.
W2944784084 cites W1892923339 @default.
W2944784084 cites W1964762739 @default.
W2944784084 cites W1978618756 @default.
W2944784084 cites W1979207920 @default.
W2944784084 cites W1984652279 @default.
W2944784084 cites W1988153865 @default.
W2944784084 cites W1992933657 @default.
W2944784084 cites W1995798882 @default.
W2944784084 cites W1999382651 @default.
W2944784084 cites W2010989785 @default.
W2944784084 cites W2011437871 @default.
W2944784084 cites W2012601400 @default.
W2944784084 cites W2018478404 @default.
W2944784084 cites W2022530129 @default.
W2944784084 cites W2027143279 @default.
W2944784084 cites W2027807325 @default.
W2944784084 cites W2028031232 @default.
W2944784084 cites W2028590108 @default.
W2944784084 cites W2032405550 @default.
W2944784084 cites W2034646442 @default.
W2944784084 cites W2039218823 @default.
W2944784084 cites W2039687431 @default.
W2944784084 cites W2042711314 @default.
W2944784084 cites W2043029640 @default.
W2944784084 cites W2049691903 @default.
W2944784084 cites W2050815362 @default.
W2944784084 cites W2051256874 @default.
W2944784084 cites W2051614816 @default.
W2944784084 cites W2052638857 @default.
W2944784084 cites W2067010439 @default.
W2944784084 cites W2068593151 @default.
W2944784084 cites W2069412607 @default.
W2944784084 cites W2070075174 @default.
W2944784084 cites W2076321104 @default.
W2944784084 cites W2078602930 @default.
W2944784084 cites W2081529156 @default.
W2944784084 cites W2084983188 @default.
W2944784084 cites W2092802537 @default.
W2944784084 cites W2097391572 @default.
W2944784084 cites W2101208644 @default.
W2944784084 cites W2103820702 @default.
W2944784084 cites W2104839310 @default.
W2944784084 cites W2105023007 @default.
W2944784084 cites W2107338459 @default.
W2944784084 cites W2108140179 @default.
W2944784084 cites W2111473359 @default.
W2944784084 cites W2116409582 @default.
W2944784084 cites W2120739149 @default.
W2944784084 cites W2125489927 @default.
W2944784084 cites W2128185490 @default.
W2944784084 cites W2130139462 @default.
W2944784084 cites W2132760947 @default.
W2944784084 cites W2133212795 @default.
W2944784084 cites W2145205984 @default.
W2944784084 cites W2154611268 @default.
W2944784084 cites W2154810251 @default.
W2944784084 cites W2156674241 @default.
W2944784084 cites W2157677644 @default.
W2944784084 cites W2158018102 @default.
W2944784084 cites W2161924870 @default.
W2944784084 cites W2163858301 @default.
W2944784084 cites W2165732484 @default.
W2944784084 cites W2167003868 @default.
W2944784084 cites W2167050352 @default.
W2944784084 cites W2168225982 @default.
W2944784084 cites W2169641074 @default.
W2944784084 cites W2170831368 @default.
W2944784084 cites W2228410629 @default.
W2944784084 cites W2259984062 @default.
W2944784084 cites W2321035777 @default.
W2944784084 cites W2322863203 @default.
W2944784084 cites W2504925500 @default.
W2944784084 cites W2557703574 @default.
W2944784084 cites W2562330681 @default.
W2944784084 cites W2576606380 @default.
W2944784084 cites W2587138724 @default.
W2944784084 cites W2596191265 @default.
W2944784084 cites W2774311917 @default.
W2944784084 cites W2790045453 @default.
W2944784084 cites W2887184055 @default.
W2944784084 cites W2901347382 @default.
W2944784084 cites W2903209483 @default.
W2944784084 cites W4237946684 @default.
W2944784084 doi "https://doi.org/10.1016/j.freeradbiomed.2019.05.005" @default.
W2944784084 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/31071438" @default.
W2944784084 hasPublicationYear "2019" @default.
W2944784084 type Work @default.