SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4313216168> ?p ?o ?g. }

Showing items 1 to 100 of ±142 with 100 items per page.

W4313216168 endingPage "189" @default.
W4313216168 startingPage "178" @default.
W4313216168 abstract "Ocean oxygenation during the Ediacaran Period (635–541 Ma) is thought to be a potential stimulus for the emergence and diversification of early animals. However, the atmospheric and oceanic redox states during this period remain controversial. The chromium (Cr) stable isotopic system is an emerging proxy for constraining the redox states of the ocean and atmosphere over the geological time. Here, we present systematic Cr isotopic (δ53Cr) data for two Ediacaran successions in the Yangtze Block of South China: the Wangji section deposited in shallow water and the Lantian section deposited in deep water. The positively fractionated δ53Cr values at the Wangji section (up to 1.15‰ for carbonates and up to 1.11‰ for shales) imply that atmospheric oxygen had risen to a relatively high level to allow the oxidative weathering of Cr(III) during the Ediacaran. Additionally, a peak of δ53Cr values is closely correlated to the δ13C positive excursion in the upper Doushantuo Formation, likely because of the enhanced biological productivity at that time. In contrast, positively fractionated δ53Cr values are suppressed (from −0.11‰ to 0.05‰) in the shales at the Lantian section, indicating that the contemporary deep water might have still been extensively anoxic, such that the terrestrial Cr(VI) with positive δ53Cr values would have been quantitatively reduced and deposited before being transferred to the deeper settings. A comparison of these two sections of different depositional environments and their δ53Cr profiles suggests that the redox conditions of the Ediacaran ocean were highly stratified and heterogeneous." @default.
W4313216168 created "2023-01-06" @default.
W4313216168 creator A5000516966 @default.
W4313216168 creator A5009568919 @default.
W4313216168 creator A5022800919 @default.
W4313216168 creator A5025295409 @default.
W4313216168 creator A5064539149 @default.
W4313216168 creator A5066691460 @default.
W4313216168 date "2023-03-01" @default.
W4313216168 modified "2023-09-23" @default.
W4313216168 title "Redox heterogeneity of the Ediacaran ocean constrained by chromium isotopes" @default.
W4313216168 cites W1960006776 @default.
W4313216168 cites W1965359701 @default.
W4313216168 cites W1968143604 @default.
W4313216168 cites W1969591890 @default.
W4313216168 cites W1972857233 @default.
W4313216168 cites W1974045653 @default.
W4313216168 cites W1983326851 @default.
W4313216168 cites W1985317544 @default.
W4313216168 cites W1990931047 @default.
W4313216168 cites W1994160943 @default.
W4313216168 cites W1995803989 @default.
W4313216168 cites W2009658086 @default.
W4313216168 cites W2020610733 @default.
W4313216168 cites W2023599118 @default.
W4313216168 cites W2024627509 @default.
W4313216168 cites W2033542480 @default.
W4313216168 cites W2041762395 @default.
W4313216168 cites W2044165871 @default.
W4313216168 cites W2047349403 @default.
W4313216168 cites W2060563278 @default.
W4313216168 cites W2064523628 @default.
W4313216168 cites W2066760610 @default.
W4313216168 cites W2072482167 @default.
W4313216168 cites W2073562922 @default.
W4313216168 cites W2075194511 @default.
W4313216168 cites W2079030090 @default.
W4313216168 cites W2085487206 @default.
W4313216168 cites W2089038963 @default.
W4313216168 cites W2092008995 @default.
W4313216168 cites W2094485738 @default.
W4313216168 cites W2098778302 @default.
W4313216168 cites W2100634462 @default.
W4313216168 cites W2105660946 @default.
W4313216168 cites W2118715042 @default.
W4313216168 cites W2148585617 @default.
W4313216168 cites W2258839491 @default.
W4313216168 cites W2296418534 @default.
W4313216168 cites W2312569948 @default.
W4313216168 cites W2337557054 @default.
W4313216168 cites W2343689725 @default.
W4313216168 cites W2345478828 @default.
W4313216168 cites W2402234408 @default.
W4313216168 cites W2417936857 @default.
W4313216168 cites W2530106172 @default.
W4313216168 cites W2584913486 @default.
W4313216168 cites W2591502295 @default.
W4313216168 cites W2619582804 @default.
W4313216168 cites W2769913151 @default.
W4313216168 cites W2788744247 @default.
W4313216168 cites W2791204820 @default.
W4313216168 cites W2804823527 @default.
W4313216168 cites W2809225447 @default.
W4313216168 cites W2884889610 @default.
W4313216168 cites W2886918414 @default.
W4313216168 cites W2899605229 @default.
W4313216168 cites W2944496818 @default.
W4313216168 cites W2964433498 @default.
W4313216168 cites W2967168400 @default.
W4313216168 cites W2971298986 @default.
W4313216168 cites W2999124052 @default.
W4313216168 cites W2999871187 @default.
W4313216168 cites W3009758254 @default.
W4313216168 cites W3015532216 @default.
W4313216168 cites W3021536438 @default.
W4313216168 cites W3022101330 @default.
W4313216168 cites W3038437824 @default.
W4313216168 cites W3086438593 @default.
W4313216168 cites W3087396130 @default.
W4313216168 cites W3107828587 @default.
W4313216168 cites W3121570511 @default.
W4313216168 cites W3134727572 @default.
W4313216168 cites W3141217604 @default.
W4313216168 cites W3179684219 @default.
W4313216168 cites W346698034 @default.
W4313216168 cites W4207001675 @default.
W4313216168 cites W4213251752 @default.
W4313216168 cites W4220853509 @default.
W4313216168 cites W596555667 @default.
W4313216168 doi "https://doi.org/10.1016/j.gca.2022.12.024" @default.
W4313216168 hasPublicationYear "2023" @default.
W4313216168 type Work @default.
W4313216168 citedByCount "1" @default.
W4313216168 countsByYear W43132161682023 @default.
W4313216168 crossrefType "journal-article" @default.
W4313216168 hasAuthorship W4313216168A5000516966 @default.
W4313216168 hasAuthorship W4313216168A5009568919 @default.
W4313216168 hasAuthorship W4313216168A5022800919 @default.