Mapping of surface radiogenic heat production from in situ gamma spectrometry and chemical data of exhumed mantle peridotites at the St. Peter and St. Paul archipelago (equatorial Atlantic). (February 2023)
- Record Type:
- Journal Article
- Title:
- Mapping of surface radiogenic heat production from in situ gamma spectrometry and chemical data of exhumed mantle peridotites at the St. Peter and St. Paul archipelago (equatorial Atlantic). (February 2023)
- Main Title:
- Mapping of surface radiogenic heat production from in situ gamma spectrometry and chemical data of exhumed mantle peridotites at the St. Peter and St. Paul archipelago (equatorial Atlantic)
- Authors:
- Ferreira da Costa Campos, Thomas
Araujo, José Humberto
Sichel, Susanna Eleonora
Pastura, Valéria Fonseca da Silva
Motoki, Kenji Freire
Mairink Barão, Leonardo
Maia, Marcia
Monteiro da Fonseca, Estefan
Navoni, Julio
Vargas, Thais
Szatmari, Peter
Brunelli, Daniele - Abstract:
- Abstract: This work presents the first mapping of the radiogenic heat production (RHP) and the respective radiogenic heat flow (RHF) of the Saint Peter and Saint Paul Archipelago (SPSPA) located at 1°N in the Equatorial Atlantic Ocean. Using radiogenic heat producing elements (RPE) we inferred a radiogenic heat production ranging 0.08–0.68 μW/m 3 (Median: 0.21 μW/m 3 and Geometric mean: 0.25 μW/m 3 ) by whole-rock chemical analysis and between 0.08 and 0.48 μW/m 3 (Median: 0.19 μW/m 3 ; Geometric mean: 0.19 μW/m 3 ) by in situ Gamma radiation spectrometry. The mean of radiogenic heat production of mylonite rocks from SPSPA (0.22 μW/m 3 ) is significantly higher than predicted values for ultramafic rocks as those largely outcropping in the SPSPA. This is probably due to the pervasive alteration of these rocks and the incorporation of little magma fractions during mylonitization. By converse, the average surface radiogenic heat flow (49.7 μW/m 2 ) is lower than that predicted for the oceanic lithosphere, suggesting that the upper mantle contribution to the heat flow is also low in the SPSPA region. Based on the acquired data and the peculiar tectonics of the SPSPA we propose that the lithospheric mantle around the SPSPA area is colder than that surrounding the Equatorial Atlantic region. Highlights: Surface Radioactive Heat Production and Heat Flow in abyssal mantle rock. Serpentinization, carbonatation process and the hydration of mantle wedge. Serpentinized mantle rockAbstract: This work presents the first mapping of the radiogenic heat production (RHP) and the respective radiogenic heat flow (RHF) of the Saint Peter and Saint Paul Archipelago (SPSPA) located at 1°N in the Equatorial Atlantic Ocean. Using radiogenic heat producing elements (RPE) we inferred a radiogenic heat production ranging 0.08–0.68 μW/m 3 (Median: 0.21 μW/m 3 and Geometric mean: 0.25 μW/m 3 ) by whole-rock chemical analysis and between 0.08 and 0.48 μW/m 3 (Median: 0.19 μW/m 3 ; Geometric mean: 0.19 μW/m 3 ) by in situ Gamma radiation spectrometry. The mean of radiogenic heat production of mylonite rocks from SPSPA (0.22 μW/m 3 ) is significantly higher than predicted values for ultramafic rocks as those largely outcropping in the SPSPA. This is probably due to the pervasive alteration of these rocks and the incorporation of little magma fractions during mylonitization. By converse, the average surface radiogenic heat flow (49.7 μW/m 2 ) is lower than that predicted for the oceanic lithosphere, suggesting that the upper mantle contribution to the heat flow is also low in the SPSPA region. Based on the acquired data and the peculiar tectonics of the SPSPA we propose that the lithospheric mantle around the SPSPA area is colder than that surrounding the Equatorial Atlantic region. Highlights: Surface Radioactive Heat Production and Heat Flow in abyssal mantle rock. Serpentinization, carbonatation process and the hydration of mantle wedge. Serpentinized mantle rock enriched in some incompatible and fluid-mobile elements. Fluid-mobile elements transferred to the mantle wedge by hydrothermal fluids deriving from seawater and oceanic crust. … (more)
- Is Part Of:
- Applied radiation and isotopes. Volume 192(2023)
- Journal:
- Applied radiation and isotopes
- Issue:
- Volume 192(2023)
- Issue Display:
- Volume 192, Issue 2023 (2023)
- Year:
- 2023
- Volume:
- 192
- Issue:
- 2023
- Issue Sort Value:
- 2023-0192-2023-0000
- Page Start:
- Page End:
- Publication Date:
- 2023-02
- Subjects:
- Radiogenic heat production -- Radiogenic heat flow -- Abyssal peridotite -- St. Peter and St. Paul archipelago -- Equatorial Atlantic
RHP Radiogenic heat production -- RHF Radiogenic heat flow -- SPSPA St Peter and St Paul archipelago -- RPE Radiogenic production elements -- HPE Heat production elements -- isGRS In situ Gammaradiation spectrometry -- ICP-MS Inductively coupled plasma mass spectrometry -- AE Activity equivalent -- Max Maximum -- Min Minimum -- μ Geometric mean -- σ Standard deviation -- SRHP Surface radiogenic heat production -- GM Geometric mean -- Med Median -- SD Standard deviation -- FME Fluid mobilr elements -- REE Rare Earth elements -- PM Primitive mantle -- * Below limite detection -- LOI Lost on ignition -- SRHF Surface radiogenic heat flow
Radiology -- Periodicals
Radiation -- Industrial applications -- Periodicals
Nuclear chemistry -- Periodicals
Internet resource
Periodical
660.298 - Journal URLs:
- http://www.sciencedirect.com/science/journal/09698043 ↗
http://catalog.hathitrust.org/api/volumes/oclc/27456684.html ↗
http://www.elsevier.com/journals ↗ - DOI:
- 10.1016/j.apradiso.2022.110608 ↗
- Languages:
- English
- ISSNs:
- 0969-8043
- Deposit Type:
- Legaldeposit
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- Available online (eLD content is only available in our Reading Rooms) ↗
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- British Library DSC - 1576.565000
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