Global continental arc flare-ups and their relation to long-term greenhouse conditions

Global continental arc flare-ups and their relation to long-term greenhouse conditions

Continents are long-term storage sites for sedimentary carbonates. Global flare-ups in continental arc volcanism, when arc magmas intersect and interact with stored carbonates, thus have the potential for elevating the global baseline of deep Earth carbon inputs into the atmosphere, leading to long-...

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Veröffentlicht in:Elements (Quebec) 2015-04, Vol.11 (2), p.125-130
Hauptverfasser: Lee, Cin-Ty A, Lackey, Jade Star
Format: Artikel
Sprache:eng
Schlagworte:
atmosphere
batholiths
carbon
carbon dioxide
carbonate rocks
carbonates
chemical weathering
climate change
continental margin
Cretaceous
decarbonation
exhumation
Geophysics
global
greenhouse effect
icehouse effect
igneous and metamorphic rocks
intrusions
island arcs
magmas
Mesozoic
metamorphic rocks
metasomatic rocks
North America
North American Cordillera
paleogeography
Petrology
sedimentary rocks
skarn
solid Earth (tectonophysics)
temperature
uplifts
volcanism
weathering
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Zusammenfassung:Continents are long-term storage sites for sedimentary carbonates. Global flare-ups in continental arc volcanism, when arc magmas intersect and interact with stored carbonates, thus have the potential for elevating the global baseline of deep Earth carbon inputs into the atmosphere, leading to long-lived greenhouse conditions. Decarbonation residues, known as skarns, are ubiquitously associated with the eroded remnants of ancient batholiths, attesting to the potential link between continental arc magmatism and enhanced global CO2 inputs to the atmosphere.
ISSN:1811-5209
1811-5217
DOI:10.2113/gselements.11.2.125