Litcius/Paper detail

Volcanic evolution of an ultraslow-spreading ridge

Håvard Hallås Stubseid, Anders Bjerga, Haflidi Haflidason, Leif-Erik Pedersen, R. Pedersen

2023Nature Communications11 citationsDOIOpen Access PDF

Abstract

Abstract Nearly 30% of ocean crust forms at mid-ocean ridges where the spreading rate is less than 20 mm per year. According to the seafloor spreading paradigm, oceanic crust forms along a narrow axial zone and is transported away from the rift valley. However, because quantitative age data of volcanic eruptions are lacking, constructing geological models for the evolution of ultraslow-spreading crust remains a challenge. In this contribution, we use sediment thicknesses acquired from ~4000 km of sub-bottom profiler data combined with 14 C ages from sediment cores to determine the age of the ocean floor of the oblique ultraslow-spreading Mohns Ridge to reveal a systematic pattern of young volcanism outside axial volcanic ridges. Here, we present an age map of the upper lava flows within the rift valley of a mid-ocean ridge and find that nearly half of the rift valley floor has been rejuvenated by volcanic activity during the last 25 Kyr.

Topics & Concepts

VolcanoRidgeGeologyEvolutionary biologyComputational biologyBiologyPaleontologyearthquake and tectonic studiesGeological and Geochemical AnalysisHigh-pressure geophysics and materials
Volcanic evolution of an ultraslow-spreading ridge | Litcius