Atmospheric oxygenation caused by a change in volcanic degassing pressure.
about
Evolution of air breathing: oxygen homeostasis and the transitions from water to land and skyThe role of biology in planetary evolution: cyanobacterial primary production in low-oxygen Proterozoic oceansMultiple sulfur-isotope signatures in Archean sulfates and their implications for the chemistry and dynamics of the early atmosphereArsenic stress after the Proterozoic glaciationsBioavailability of metal ions and evolutionary adaptationTowards a computational model of a methane producing archaeumThe inevitable journey to beingEvolution of multicellularity coincided with increased diversification of cyanobacteria and the Great Oxidation EventPhylogenetic modeling of lateral gene transfer reconstructs the pattern and relative timing of speciationsSulfur and oxygen isotope insights into sulfur cycling in shallow-sea hydrothermal vents, Milos, Greece.The rise of oxygen in Earth's early ocean and atmosphere.SQUID-SIMS is a useful approach to uncover primary signals in the Archean sulfur cycle.The Role of Hydrogen Sulfide in Evolution and the Evolution of Hydrogen Sulfide in Metabolism and Signaling.New ab initio adiabatic potential energy surfaces and bound state calculations for the singlet ground X̃(1)A1 and excited C̃(1)B2(2(1)A(')) states of SO2.Redox variations in Mauna Kea lavas, the oxygen fugacity of the Hawaiian plume, and the role of volcanic gases in Earth's oxygenation.Atmospheric oxygenation and volcanism.Earth science: Redox state of early magmas.Earth science: Sea change for the rise of oxygen.Water and hydrogen are immiscible in Earth's mantle.Timescales of Oxygenation Following the Evolution of Oxygenic Photosynthesis.Decoding Redox Evolution Before Oxygenic Photosynthesis Based on the Sulfur-Mass Independent Fractionation (S-MIF) Record.Electron paramagnetic resonance study of a photosynthetic microbial mat and comparison with Archean cherts.Dating phototropic microbial lineages with reticulate gene histories.Diabasic intrusion and lavas, segregation veins, and magma differentiation at Kahoolawe volcano, HawaiiTwo-step rise of atmospheric oxygen linked to the growth of continentsExperimental Constraints on Sulphur Behaviour in Subduction Zones: Implications for TTG and Adakite Production and the Global Sulphur Cycle since the ArcheanGeochemical Reservoirs and Timing of Sulfur Cycling on MarsGaillard et al. replyVolcanic GasesGold buried by oxygenTransport of metals and sulphur in magmas by flotation of sulphide melt on vapour bubblesRise of Earth’s atmospheric oxygen controlled by efficient subduction of organic carbonIs the Neoproterozoic oxygen burst a supercontinent legacy?
P2860
Q26823356-570B4997-878C-42A9-ABAB-2C121117E57FQ28595924-583E92A1-10B5-4A6E-B6EF-5B8E3724A26AQ28596433-0D63C934-9699-49B0-87AE-C99B570DC575Q28606722-7F201CA7-E209-446F-AAE0-8E24BA99A0D6Q28655003-648D5CB2-F579-48B1-B51A-12DF9D2504D6Q28657421-4A28347E-39FD-4357-9015-818BE8A7F114Q28681335-3935BBAD-ADA9-414B-9C46-757AF0A91EF1Q28709257-49F95280-A9CF-4FE5-9A5F-E857910082B7Q28714214-17BFA3F1-ED01-4AD2-9812-C1B6FE0DCCE9Q34091529-012942C0-17BE-4B67-B0B3-037527B11A04Q34405457-0219E66C-47C2-46BF-A941-77B7447A6A21Q37711998-F7A04632-1A29-4082-8A36-E428A42FB833Q38671099-687387AD-B5E6-467B-BC65-09F11C642138Q39786266-11E6AB1D-2B13-4828-BD7D-FB21E006E3DFQ41927313-797B7C50-B936-4081-B56F-274BED63957BQ41974506-DE001B61-B784-4902-B177-A3FD6358F3F6Q43533644-047AECEC-F2AB-4055-BC2A-00333227BB70Q43533943-A961A730-FF48-45D5-AC5E-D126FFF7BE60Q44827782-96220314-6A87-4FE4-830F-FCC5A5864E03Q46682637-503C778F-AEA1-4DEA-AA3E-26DE8074E673Q47408238-99A59643-9E70-4B95-9F18-71C376FB10BCQ47802658-6DD8A068-002E-47EE-917F-2F240959B2FFQ48042909-0A56F661-087D-487F-BC14-C9B0A5C57057Q57443025-7C4662DC-F844-4589-8424-C0561F1AA2F3Q57556604-76C6624D-043B-4511-980B-933221525B9AQ57872019-406F22CF-5171-4F6C-BE80-C98BF0DA1CEAQ57872030-FDE1DBD2-44EB-4425-A06C-51B729C4FD4BQ57872062-3E224A20-F2FC-4954-BDF3-42F0F4CC88CDQ57884760-7C491D60-6CC9-4886-8080-3D3DC7CF33A6Q57884779-6AAC88D4-22B4-48D4-B1EA-C7E230A091CEQ57884801-5AA7BDB5-4E0B-4F5C-ABFB-E86F73369CB1Q57887355-EA230A36-D46E-46B0-A8F6-CA5488376F27Q57897047-481A961F-0744-4F72-BE5B-4E9484EB7787
P2860
Atmospheric oxygenation caused by a change in volcanic degassing pressure.
description
2011 nî lūn-bûn
@nan
2011 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2011 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
2011年の論文
@ja
2011年論文
@yue
2011年論文
@zh-hant
2011年論文
@zh-hk
2011年論文
@zh-mo
2011年論文
@zh-tw
2011年论文
@wuu
name
Atmospheric oxygenation caused by a change in volcanic degassing pressure.
@ast
Atmospheric oxygenation caused by a change in volcanic degassing pressure.
@en
type
label
Atmospheric oxygenation caused by a change in volcanic degassing pressure.
@ast
Atmospheric oxygenation caused by a change in volcanic degassing pressure.
@en
prefLabel
Atmospheric oxygenation caused by a change in volcanic degassing pressure.
@ast
Atmospheric oxygenation caused by a change in volcanic degassing pressure.
@en
P2860
P356
P1433
P1476
Atmospheric oxygenation caused by a change in volcanic degassing pressure.
@en
P2093
Nicholas T Arndt
P2860
P2888
P304
P356
10.1038/NATURE10460
P407
P577
2011-10-12T00:00:00Z
P5875
P6179
1021679320
P698
P819
2011Natur.478..229G