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Literature DB >> 26823422

Enhanced East Pacific Rise hydrothermal activity during the last two glacial terminations.

D C Lund¹, P D Asimow², K A Farley², T O Rooney³, E Seeley¹, E W Jackson⁴, Z M Durham⁴.

Abstract

Mid-ocean ridge magmatism is driven by seafloor spreading and decompression melting of the upper mantle. Melt production is apparently modulated by glacial-interglacial changes in sea level, raising the possibility that magmatic flux acts as a negative feedback on ice-sheet size. The timing of melt variability is poorly constrained, however, precluding a clear link between ridge magmatism and Pleistocene climate transitions. Here we present well-dated sedimentary records from the East Pacific Rise that show evidence of enhanced hydrothermal activity during the last two glacial terminations. We suggest that glacial maxima and lowering of sea level caused anomalous melting in the upper mantle and that the subsequent magmatic anomalies promoted deglaciation through the release of mantle heat and carbon at mid-ocean ridges.

Entities: Gene

Year: 2016 PMID： 26823422 DOI： 10.1126/science.aad4296

Source DB: PubMed Journal: Science ISSN： 0036-8075 Impact factor: 47.728

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Cited

6 in total

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Journal: Sci Rep Date: 2021-03-11 Impact factor: 4.379

2. Honing in on the climate signal in seafloor topography.

Authors: Garrett Ito
Journal: Proc Natl Acad Sci U S A Date: 2022-07-26 Impact factor: 12.779

3. Influence of late Pleistocene sea-level variations on midocean ridge spacing in faulting simulations and a global analysis of bathymetry.

Authors: Peter Huybers; Parker Liautaud; Cristian Proistosescu; Bridgit Boulahanis; Suzanne M Carbotte; Richard F Katz; Charles Langmuir
Journal: Proc Natl Acad Sci U S A Date: 2022-07-07 Impact factor: 12.779

Enhanced East Pacific Rise hydrothermal activity during the last two glacial terminations.

1. Rapid coupling between solid earth and ice volume during the Quaternary.

2. Honing in on the climate signal in seafloor topography.

3. Influence of late Pleistocene sea-level variations on midocean ridge spacing in faulting simulations and a global analysis of bathymetry.

4. Sea level fall during glaciation stabilized atmospheric CO₂ by enhanced volcanic degassing.

5. 100- kyr cyclicity in volcanic ash emplacement: evidence from a 1.1 Myr tephra record from the NW Pacific.

6. An atmospheric chronology for the glacial-deglacial Eastern Equatorial Pacific.

Enhanced East Pacific Rise hydrothermal activity during the last two glacial terminations.

1. Rapid coupling between solid earth and ice volume during the Quaternary.

2. Honing in on the climate signal in seafloor topography.

3. Influence of late Pleistocene sea-level variations on midocean ridge spacing in faulting simulations and a global analysis of bathymetry.

4. Sea level fall during glaciation stabilized atmospheric CO2 by enhanced volcanic degassing.

5. 100- kyr cyclicity in volcanic ash emplacement: evidence from a 1.1 Myr tephra record from the NW Pacific.

6. An atmospheric chronology for the glacial-deglacial Eastern Equatorial Pacific.

4. Sea level fall during glaciation stabilized atmospheric CO₂ by enhanced volcanic degassing.