Sierra Leone hotspot
Sierra Leone hotspot is a proposed hotspot in the Atlantic Ocean.
The existence of this hotspot has been inferred from the Sierra Leone Rise and the Ceara Rise in the Atlantic Ocean,[1] two submarine topographic features around the 5th parallel north.[2] They formed as a single oceanic plateau that was subsequently split by the Mid-Atlantic Ridge[1] during the Jurassic and Cretaceous (Aptian).[2]
According to the proposal by Basile et al. 2020, the Sierra Leone hotspot 201 million years ago was at the centre of the
Central Atlantic Magmatic Province, north of the Blake Plateau off North America.[3] The hotspot 180-170 million years ago formed a first oceanic plateau that was subsequently split by the Mid-Atlantic Ridge around 100 million years ago, forming the Demerara Plateau and Guinea Rise. Between 90-70 million years ago the hotspot was under the African Plate, forming the northern Bathymetrists Seamounts. The Mid-Atlantic Ridge eventually reached the hotspot, resulting 82-55 million years ago in the formation of a second oceanic plateau which was again split by the Mid-Atlantic Ridge to form the Ceara Rise and Sierra Leone Rise. Since then, the Sierra Leone hotspot would have been again located on the African Plate, now generating the southern group of the Bathymetrists Seamounts. 10 million years ago it generated the Knipovich seamount.[4]
The hotspot is currently located about 100 kilometres (62 mi) west of Knipovich seamount;seismic velocity anomaly in the mantle and in a cluster of seamounts.[6]
Other structures influenced by the hotspot:
- Bahamas may be a hotspot track of the Sierra Leone hotspot, which between 170-155 million years ago may have been active on the North American Plate.[7]
- The east-west trending Bathymetrists Seamounts[5] north of the Sierra Leone Rise.[2] They were capped by carbonates during the mid-Eocene.[5] Some of the northern seamounts however produce problems in plate tectonic reconstructions if they are correlated to the Sierra Leone hotspot.[8]
- Syenites on the Îles de Los may be a product of the hotspot.[3]
- Certain segments of the Mid-Atlantic Ridge may be influenced by the hotspot.[9]
- Knipovich seamount rises to a depth of 600 metres (2,000 ft) below sea level and has a 12 by 6 kilometres (7.5 mi × 3.7 mi) summit.[5]
- Plate motion changes during the Paleocene may be driven by the torque from the Sierra Leone hotspot.[10]
References
- ^ a b c Basile et al. 2020, p. 1.
- ^ a b c Basile et al. 2020, p. 2.
- ^ a b Basile et al. 2020, p. 9.
- ^ Basile et al. 2020, pp. 7–8.
- ^ a b c d Basile et al. 2020, p. 3.
- ^ Long et al. 2020, p. 16.
- ^ Basile et al. 2020, p. 8.
- ^ Long et al. 2020, p. 15.
- ^ Peterson et al. 2014, p. 2205.
- ^ Stotz et al. 2023, p. 6.
Sources
- Basile, Christophe; Girault, Igor; Paquette, Jean-Louis; Agranier, Arnaud; Loncke, Lies; Heuret, Arnauld; Poetisi, Ewald (4 May 2020). "The Jurassic magmatism of the Demerara Plateau (offshore French Guiana) as a remnant of the Sierra Leone hotspot during the Atlantic rifting". Scientific Reports. 10 (1): 7486. PMID 32366924.
- Long, Xiaojun; van der Zwan, Froukje M.; Geldmacher, Jörg; Hoernle, Kaj; Hauff, Folkmar; Garbe-Schönberg, C. -Dieter; Augustin, Nico (30 June 2020). "Insights into the petrogenesis of an intraplate volcanic province: Sr-Nd-Pb-Hf isotope geochemistry of the Bathymetrists Seamount Province, eastern equatorial Atlantic". Chemical Geology. 544: 119599. S2CID 216224524.
- Peterson, M. E.; Saal, A. E.; Nakamura, E.; Kitagawa, H.; Kurz, M. D.; Koleszar, A. M. (1 November 2014). "Origin of the 'Ghost Plagioclase' Signature in Galapagos Melt Inclusions: New Evidence from Pb Isotopes". Journal of Petrology. 55 (11): 2193–2216. ISSN 0022-3530.
- Stotz, Ingo L.; Vilacís, Berta; Hayek, Jorge N.; Carena, Sara; Bunge, Hans-Peter (April 2023). "Plume driven plate motion changes: New insights from the South Atlantic realm". Journal of South American Earth Sciences. 124: 104257. .