Title: Causes of oceanic crustal thickness oscillations along a 74-Myr Mid-Atlantic Ridge flow line
Type Dataset Shinevar, William J., Mark, Hannah F., Clerc, Fiona, Codillo, Emmanuel A., Gong, Jianhua, Olive, Jean-Arthur, Brown, Stephanie M., Smalls, Paris T., Liao, Yang, Le Roux, Véronique, Behn, Mark D. (2019-11-12): Causes of oceanic crustal thickness oscillations along a 74-Myr Mid-Atlantic Ridge flow line. Dataset. https://darchive.mblwhoilibrary.org/handle/1912/24796
Links
- Item record in Woods Hole Open Access Server
- Digital object URL
Summary
Gravity, magnetic, and bathymetry data collected along a continuous 1400-km-long spreading-parallel flow line across the Mid-Atlantic Ridge indicate significant tectonic and magmatic fluctuations in the formation of oceanic crust over a range of timescales. The transect spans from 28 Ma on the African Plate to 74 Ma on the North American plate, crossing the Mid-Atlantic Ridge at 35.8 ºN. Gravity-derived crustal thicknesses vary from 3–9 km with a standard deviation of 1 km. Spectral analysis of bathymetry and residual mantle Bouguer anomaly (RMBA) show diffuse power at >1 Myr and concurrent peaks at 390, 550, and 950 kyr. Large-scale (>10-km) mantle thermal and compositional heterogeneities, variations in upper mantle flow, and detachment faulting likely generate the >1 Myr diffuse power. The 550- and 950-kyr peaks may reflect the presence of magma solitons and/or regularly spaced ~7.7 and 13.3 km short-wavelength mantle compositional heterogeneities. The 390-kyr spectral peak corresponds to the characteristic spacing of faults along the flow line. Fault spacing also varies over longer periods (>10 Myr), which we interpret as reflecting long-lived changes in the fraction of tectonically- vs. magmatically- accommodated extensional strain. A newly discovered off-axis oceanic core complex (Kafka Dome) found at 8 Ma on the African plate further suggests extended time periods of tectonically dominated plate separation. Fault spacing negatively correlates with gravity-derived crustal thickness, supporting a strong link between magma input and fault style at mid-ocean ridges.
More information
- URI: https://hdl.handle.net/1912/24796
- DOI: 10.26025/1912/24796
Dates
- accessioned: November 12, 2019
- available: November 12, 2019
- Publication date: November 12, 2019
Notes
These data sets collected geophysical data: multi-beam bathymetry, gravity, magnetics, sub-bottom profile to investigate the relationships between faulting, magmatism, and sea level change.Format
electronic resource
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