The middle Ediacaran Shuram excursion, the largest negative δ 13 C carb excursion in Earth history, has been interpreted as indirect evidence for episodic oxidation and remineralization of deep ocean DOC (dissolved o...The middle Ediacaran Shuram excursion, the largest negative δ 13 C carb excursion in Earth history, has been interpreted as indirect evidence for episodic oxidation and remineralization of deep ocean DOC (dissolved organic carbon). It has been hypothesized that such oxidation event may have occurred when anoxic DOC-laden deep water was brought to shallow shelves during oceanic upwelling, which is expected to cause localized anoxia in shallow environments. To test this prediction, we systematically analyzed rare earth elements (REE) and δ 13 C carb of the upper Doushantuo Formation carbonates in the Yangtze Gorges area of South China, which were deposited in an inner shelf environment and record a large negative δ 13 C carb excursion correlated to the Shuram event. The REE data show a significant positive shift in Ce/Ce* values, synchronous with a pronounced negative δ 13 C carb shift. This positive Ce/Ce* shift is interpreted to represent an oceanic anoxia event in shallow shelf environments, which may have been caused by the upwelling or impingement of oxygen-depleted and 12 C-enriched deep water onto shelves. This anoxia event coincides with a sharp decline in the abundance and diversity of Ediacaran acanthomorphic acritarchs, raising the possibility that these two geobiological events may be causally related.展开更多
Changes in the distribution of isoprenoid hy-drocarbons and in δ 13Ckero or δ 13CPr across the section from the Changxing Formation to the lower Yinkeng Formation at Meishan (the GSSP of PTB) are studied, in which a...Changes in the distribution of isoprenoid hy-drocarbons and in δ 13Ckero or δ 13CPr across the section from the Changxing Formation to the lower Yinkeng Formation at Meishan (the GSSP of PTB) are studied, in which a relative enrichment of pristane and a sharp shift in both δ 13Ckero and δ 13Cmole near the boundary are revealed. A possible mecha-nism for the abnormal accumulation of pristane near PTB is suggested: Lipids in some marine animals and their metabo-lites, rich in pristane, can be preserved and accumulate in some suitable depositing facies under certain special condi-tions, such as the catastrophic death of animals and/or de-veloping of an anoxic water column, and thus the pristane enrichment occurs in the sediment. The occurrences of iso-prenoid enrichment and high Pr/Ph ratios have been found in other typical marine anoxic sediments accompanied by mass extinction in various extent during the most important geological periods, such as Late Ordovician, end of Devonian,Early Jurassic and Late Cretaceous. These occurrences sup-port to a certain extent the above mechanism that interprets the genesis of a high Pr/Ph ratio in some typical marine an-oxic sediments. The synchronous sharp negative shifts in δ 13Cmole, δ 13Ckero and δ 13Ccarb from Beds 24 to 26 of the Me-ishan profile indicate that a sudden and strong variation of carbon source in the atmosphere-ocean system occurred during the quick but equable evolution from the end-Permian to Early Triassic, and the coupling between the pristane enrichment and negative shift in δ 13Ckero and δ 13CPr may well indicate the importance of the release of methane hydrates and marine anoxia in the end-Permian mass extinc-tion.展开更多
A quantitative study on meiofauna was carried out along a transect throughout the Changjiang Estuary' s oxygen minimum zone (OMZ) in the East China Sea. There exist two distinct station groups in the OMZ: the fine...A quantitative study on meiofauna was carried out along a transect throughout the Changjiang Estuary' s oxygen minimum zone (OMZ) in the East China Sea. There exist two distinct station groups in the OMZ: the fine-grained hypoxic area and the more fine-grained anoxie area. Meiofauna abundance ranged from ( 101.5±31.0) ind./cm^2 ( hypoxie area) to (369.9±123.9) ind./cm^2( anoxic area) along the transect. Free-living marine nematodes were the numerically dominant meiofauna at every station. The anoxic area differed significantly in meiofauna abundance and vertical distribution pattern from the hypoxic area. Within the anoxic area, nematodes abundance increased and amounted to over 90% of the total meiofauna; about 50% of nematodes were found in the 2-5 and 5-8 cm layers. At hypoxie stations, about over 85 % were restricted to the top 2 cm. Benthic eopepod abundance and dominance decreased consistently with the oxygen gradient. The pattern of meiofauna biomass was similar to that of abundance. The correlation analysis of the meiofauna numbers and environmental parameters indicated that abundance and biomass of total meiofauna and nematodes had significant or highly significant ( P 〈 0.05 or P 〈 0.01 ) correlations with Chl a and Pha a, but no significant ( P 〉 0.05 ) correlations with bottom-water oxygen ( BWO2 ). On the other hand, there was a highly significant positive correlation between benthic eopepod abundance and bottom-water oxygen (P 〈 0.05 ). The investigation on the nematode community structure indicated that two different nematode communities existed in hypoxic and anoxic areas. In certain way, the shift in nematode species composition distinguishes the anoxia to hypoxia. Nematode diversity was generally lower within the anoxic stations than the hypoxic ones, but the difference was not significant. Indices of the nematode community structure varied in relation to the bottom-water oxygen together with bottom-water temperature, Chl a concentration and medi展开更多
基金supported by the Knowledge Innovation Program of Chinese Academy of Sciences (KZCX2-EW-119)the Ministry of Science and Technology of China (2011CB808805)+1 种基金the National Natural Science Foundation of China (41028002, 40872026 and 41130209)Ministry of Education (306007)
文摘The middle Ediacaran Shuram excursion, the largest negative δ 13 C carb excursion in Earth history, has been interpreted as indirect evidence for episodic oxidation and remineralization of deep ocean DOC (dissolved organic carbon). It has been hypothesized that such oxidation event may have occurred when anoxic DOC-laden deep water was brought to shallow shelves during oceanic upwelling, which is expected to cause localized anoxia in shallow environments. To test this prediction, we systematically analyzed rare earth elements (REE) and δ 13 C carb of the upper Doushantuo Formation carbonates in the Yangtze Gorges area of South China, which were deposited in an inner shelf environment and record a large negative δ 13 C carb excursion correlated to the Shuram event. The REE data show a significant positive shift in Ce/Ce* values, synchronous with a pronounced negative δ 13 C carb shift. This positive Ce/Ce* shift is interpreted to represent an oceanic anoxia event in shallow shelf environments, which may have been caused by the upwelling or impingement of oxygen-depleted and 12 C-enriched deep water onto shelves. This anoxia event coincides with a sharp decline in the abundance and diversity of Ediacaran acanthomorphic acritarchs, raising the possibility that these two geobiological events may be causally related.
基金This work was supported by the National Natural Science Foundation of China (Grant No, 40272056).
文摘Changes in the distribution of isoprenoid hy-drocarbons and in δ 13Ckero or δ 13CPr across the section from the Changxing Formation to the lower Yinkeng Formation at Meishan (the GSSP of PTB) are studied, in which a relative enrichment of pristane and a sharp shift in both δ 13Ckero and δ 13Cmole near the boundary are revealed. A possible mecha-nism for the abnormal accumulation of pristane near PTB is suggested: Lipids in some marine animals and their metabo-lites, rich in pristane, can be preserved and accumulate in some suitable depositing facies under certain special condi-tions, such as the catastrophic death of animals and/or de-veloping of an anoxic water column, and thus the pristane enrichment occurs in the sediment. The occurrences of iso-prenoid enrichment and high Pr/Ph ratios have been found in other typical marine anoxic sediments accompanied by mass extinction in various extent during the most important geological periods, such as Late Ordovician, end of Devonian,Early Jurassic and Late Cretaceous. These occurrences sup-port to a certain extent the above mechanism that interprets the genesis of a high Pr/Ph ratio in some typical marine an-oxic sediments. The synchronous sharp negative shifts in δ 13Cmole, δ 13Ckero and δ 13Ccarb from Beds 24 to 26 of the Me-ishan profile indicate that a sudden and strong variation of carbon source in the atmosphere-ocean system occurred during the quick but equable evolution from the end-Permian to Early Triassic, and the coupling between the pristane enrichment and negative shift in δ 13Ckero and δ 13CPr may well indicate the importance of the release of methane hydrates and marine anoxia in the end-Permian mass extinc-tion.
基金the Ministry of Science and Technology of China under contract Nos 2002CB412400,G1999043709the National Natural Science Foundation of China under contract No.40176033.
文摘A quantitative study on meiofauna was carried out along a transect throughout the Changjiang Estuary' s oxygen minimum zone (OMZ) in the East China Sea. There exist two distinct station groups in the OMZ: the fine-grained hypoxic area and the more fine-grained anoxie area. Meiofauna abundance ranged from ( 101.5±31.0) ind./cm^2 ( hypoxie area) to (369.9±123.9) ind./cm^2( anoxic area) along the transect. Free-living marine nematodes were the numerically dominant meiofauna at every station. The anoxic area differed significantly in meiofauna abundance and vertical distribution pattern from the hypoxic area. Within the anoxic area, nematodes abundance increased and amounted to over 90% of the total meiofauna; about 50% of nematodes were found in the 2-5 and 5-8 cm layers. At hypoxie stations, about over 85 % were restricted to the top 2 cm. Benthic eopepod abundance and dominance decreased consistently with the oxygen gradient. The pattern of meiofauna biomass was similar to that of abundance. The correlation analysis of the meiofauna numbers and environmental parameters indicated that abundance and biomass of total meiofauna and nematodes had significant or highly significant ( P 〈 0.05 or P 〈 0.01 ) correlations with Chl a and Pha a, but no significant ( P 〉 0.05 ) correlations with bottom-water oxygen ( BWO2 ). On the other hand, there was a highly significant positive correlation between benthic eopepod abundance and bottom-water oxygen (P 〈 0.05 ). The investigation on the nematode community structure indicated that two different nematode communities existed in hypoxic and anoxic areas. In certain way, the shift in nematode species composition distinguishes the anoxia to hypoxia. Nematode diversity was generally lower within the anoxic stations than the hypoxic ones, but the difference was not significant. Indices of the nematode community structure varied in relation to the bottom-water oxygen together with bottom-water temperature, Chl a concentration and medi
