The rise of oxygen in Earth's early ocean and atmosphere.
about
One step beyond a ribosome: The ancient anaerobic coreNitrate Storage and Dissimilatory Nitrate Reduction by Eukaryotic MicrobesA fresh look at the evolution and diversification of photochemical reaction centersThe human physiological impact of global deoxygenationTime in Redox Adaptation Processes: From Evolution to HormesisThe distribution of dissolved iron in the West Atlantic OceanA Comprehensive Study of Cyanobacterial Morphological and Ecological Evolutionary Dynamics through Deep Geologic TimeThe role of biology in planetary evolution: cyanobacterial primary production in low-oxygen Proterozoic oceansThe Astrobiology Primer v2.0Cyanobacterial Diazotrophy and Earth's Delayed OxygenationRising levels of atmospheric oxygen and evolution of Nrf2Molar tooth carbonates and benthic methane fluxes in Proterozoic oceansCyanobacteria and the Great Oxidation Event: evidence from genes and fossilsArsenic stress after the Proterozoic glaciationsOrigin of marine planktonic cyanobacteriaMolecular clocks and the early evolution of metazoan nervous systemsReappraisal of hydrocarbon biomarkers in Archean rocksRise to modern levels of ocean oxygenation coincided with the Cambrian radiation of animalsOrigin and Evolution of Water Oxidation before the Last Common Ancestor of the CyanobacteriaSulfur-cycling fossil bacteria from the 1.8-Ga Duck Creek Formation provide promising evidence of evolution's null hypothesisOxygen and animals in Earth historyKnown unknowns of cardiolipin signaling: the best is yet to comeSeeking sunlight: rapid phototactic motility of filamentous mat-forming cyanobacteria optimize photosynthesis and enhance carbon burial in Lake Huron's submerged sinkholesStatistical analysis of iron geochemical data suggests limited late Proterozoic oxygenation.On the language and physiology of dormancy and quiescence in plants.Earliest land plants created modern levels of atmospheric oxygen.Metabolic evolution and the self-organization of ecosystemsFalse Negatives for Remote Life Detection on Ocean-Bearing Planets: Lessons from the Early Earth.Ferroptosis: Death by Lipid Peroxidation.Oxygen and animal evolution: did a rise of atmospheric oxygen "trigger" the origin of animals?Earth history. Low mid-Proterozoic atmospheric oxygen levels and the delayed rise of animals.Occurrence of Far-Red Light Photoacclimation (FaRLiP) in Diverse Cyanobacteria.Connecting biodiversity and potential functional role in modern euxinic environments by microbial metagenomicsThe rise of oxygen and siderite oxidation during the Lomagundi Event.Structure and function of natural sulphide-oxidizing microbial mats under dynamic input of light and chemical energy.Functional Oxygen Sensitivity of Astrocytes.Cu isotopes in marine black shales record the Great Oxidation Event.Ancient micrometeorites suggestive of an oxygen-rich Archaean upper atmosphere.Hole hopping through tyrosine/tryptophan chains protects proteins from oxidative damage.An Early-Branching Freshwater Cyanobacterium at the Origin of Plastids.
P2860
Q26751466-F496ED9F-FB13-4174-8FAB-0F5A6A6CECE2Q26770679-C7CE97EB-5799-4BA7-A8E0-E44AC634209CQ27002689-9EB52013-D4B9-47AE-8CD0-42953F73CE2AQ28071765-127B3350-D9E3-4C55-AC0B-43C31AA0039DQ28075315-B5D6AA84-0094-43DC-98C9-AC0C6948BB07Q28540189-2B372E58-CE6A-4F66-A3CE-7BCE438917C5Q28595491-AAF1B002-2E17-4681-9580-B51ED2772D16Q28595924-351F21ED-C53E-47C6-A1C6-20E72A0C4BADQ28596454-CF860F3D-1BD4-4613-8001-53D92EA58FE7Q28598413-CFECEAF4-B5AD-44BE-B910-229A6A36C1ABQ28601318-E0BB9960-6A46-4EA6-BD05-0EB3F01FF914Q28601895-EDA3C7F3-00CA-4320-BF6B-D62B9B9B559CQ28604242-CD514A71-6015-438C-B88B-CB39EE7199DDQ28606722-3AF34D98-518D-407D-AE8D-2B077B062C23Q28606863-3F2119AA-CAAF-46A2-ADA1-1D897692F276Q28607312-E300DE78-BF8D-48D3-93F2-E8B27EC1374EQ28647374-FD04804C-C2A3-4849-9E8C-7D4C06649D4BQ28647970-941744C5-61F9-42F5-9A79-4F2E5FC3A89EQ28648485-E4C5D0E7-49AE-4C3D-89B7-B363E3B4EFEDQ28653358-9B907AEB-1770-4EAA-BE66-FFB16D6D9A06Q28660751-6CAE91EC-FAEC-49F8-AEDB-0699894151D9Q28917160-DB0110C0-2468-40C1-8F6F-61A9C89CE266Q30401539-265BBE3C-330D-443B-9647-F621A1A5B392Q30982109-1EC6F130-5722-4250-A9B0-D48C82EE778AQ33362909-88BECC7F-D558-44A5-88E8-C3BBCEE5E746Q33363703-194BD4C7-79B5-4E3B-86B7-D7B33EE18765Q33569326-3B517F4A-D966-4667-A1FB-8F9CDB4FD4C0Q33588624-3F6A4D0D-4AA3-45FE-A879-343AD392CA6EQ34045575-DC0E7ECB-FA0D-46ED-8497-9EAC8E766CBFQ34439882-31FCF81F-4D06-43A0-AB39-5DF28CC646E3Q34445685-26E77ED9-ACAA-434A-8C2B-509B772C7896Q35333936-A7F42DFA-83A0-4100-A700-83EAA51BADC7Q35540889-FA426607-D54A-4E00-82A8-5D3F3DB3E031Q35669356-7306B85E-15DB-4291-931C-C8FFCDAB5463Q35787619-CF6C3E6F-8644-47D1-9372-1BA0A6213311Q35876793-4264AFAF-59CA-4AE3-A3EF-69E57F8A7288Q35993356-8CB5F749-B0F3-49D6-89E8-BF901357D1A2Q36015978-11D3D110-88B9-4090-A8FB-FF4676EA373BQ36055452-0C5CC50A-4C48-44E0-B590-8857AA5B83E9Q36263396-7DD4E1B4-F819-4A1A-B04B-F742249813BF
P2860
The rise of oxygen in Earth's early ocean and atmosphere.
description
2014 nî lūn-bûn
@nan
2014 թուականի Փետրուարին հրատարակուած գիտական յօդուած
@hyw
2014 թվականի փետրվարին հրատարակված գիտական հոդված
@hy
2014年の論文
@ja
2014年論文
@yue
2014年論文
@zh-hant
2014年論文
@zh-hk
2014年論文
@zh-mo
2014年論文
@zh-tw
2014年论文
@wuu
name
The rise of oxygen in Earth's early ocean and atmosphere.
@ast
The rise of oxygen in Earth's early ocean and atmosphere.
@en
The rise of oxygen in Earth's early ocean and atmosphere.
@nl
type
label
The rise of oxygen in Earth's early ocean and atmosphere.
@ast
The rise of oxygen in Earth's early ocean and atmosphere.
@en
The rise of oxygen in Earth's early ocean and atmosphere.
@nl
prefLabel
The rise of oxygen in Earth's early ocean and atmosphere.
@ast
The rise of oxygen in Earth's early ocean and atmosphere.
@en
The rise of oxygen in Earth's early ocean and atmosphere.
@nl
P2093
P2860
P356
P1433
P1476
The rise of oxygen in Earth's early ocean and atmosphere.
@en
P2093
Christopher T Reinhard
Noah J Planavsky
Timothy W Lyons
P2860
P2888
P304
P356
10.1038/NATURE13068
P407
P577
2014-02-01T00:00:00Z
P6179
1042316110
P698
P819
2014Natur.506..307L