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Franchi, Fulvio; Hofmann, Axel; Cavalazzi, Barbara; Wilson, Allan; Barbieri, Roberto (2017): Geochemical analyses of Seheb el Rhassel Group (SRG) samples from the Kess Kess mounds, Anti-Atlas in Morocco [dataset publication series]. PANGAEA, https://doi.org/10.1594/PANGAEA.877836, Supplement to: Franchi, F et al. (2015): Differentiating marine vs hydrothermal processes in Devonian carbonatemounds using rare earth elements (Kess Kess mounds, Anti-Atlas, Morocco). Chemical Geology, 409, 69-86, https://doi.org/10.1016/j.chemgeo.2015.05.006

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Abstract:
Petrological and geochemical analyses were carried out on Early Devonian Kess Kess mound limestones of the Seheb el Rhassel Group exposed in the Hamar Laghdad Ridge (Tafilalt Platform, Eastern Anti-Atlas, Morocco) in order to evaluate marine vs hydrothermal processes for the origin of the mounds. Hydrothermal fluid circulation affected limestone deposition resulting in the formation of a plumbing system preserved in the mound facies and inter-mound facies as cavities, veins, and dykes.
Shale-normalized rare earth element (REE) patterns for limestones display pronounced light REE depletion compared to middle REE (average PrSN / DySN = 0.46) and heavy REE (average PrSN / YbSN = 0.55), a super-chondritic Y/Ho ratio (up to 87) and positive La anomaly consistent with precipitation from normal marine seawater. Within our data set the Ce anomaly, as well as U and other trace element concentrations vary with facies providing evidence for variable redox conditions. The presence of positive Ce anomaly in carbonates of the plumbing system is consistent with precipitation under anoxic condition. Samples from mound facies and quartz veinlets in the upper part of the group show REE patterns consistent with precipitation from hydrothermal fluids.
Early Devonian hypothetical seawater REE patterns were calculated from samples showing normal marine REE patterns (i.e. inter-mound facies) and from samples with weaker marine signature (i.e. fossiliferous mound limestones and plumbing system deposits). Hypothetical patterns are slightly enriched in SumREE compared to modern open ocean seawater.
This study reveals that REE analysis is a powerful tool for understanding polygenetic carbonate systems. It sheds light into the genesis of the Kess Kess mounds by reconstructing fluid pathways and palaeo-redox conditions.
Coverage:
Median Latitude: 31.079068 * Median Longitude: -4.051405 * South-bound Latitude: 31.006100 * West-bound Longitude: -4.063300 * North-bound Latitude: 31.381500 * East-bound Longitude: -4.030400
License:
Creative Commons Attribution 3.0 Unported (CC-BY-3.0)
Size:
5 datasets

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Datasets listed in this publication series

  1. Franchi, F; Hofmann, A; Cavalazzi, B et al. (2017): (Table 1) Summary of Seheb el Rhassel Group samples from Kess Kess mounds, Anti-Atlas in Morocco. https://doi.org/10.1594/PANGAEA.877831
  2. Franchi, F; Hofmann, A; Cavalazzi, B et al. (2017): (Table 2) Major element contents of Seheb el Rhassel Group (SRG) samples from the Kess Kess mounds, Anti-Atlas in Morocco. https://doi.org/10.1594/PANGAEA.877832
  3. Franchi, F; Hofmann, A; Cavalazzi, B et al. (2017): (Table 2) Trace element concentrations of Seheb el Rhassel Group (SRG) samples from the Kess Kess mounds, Anti-Atlas in Morocco. https://doi.org/10.1594/PANGAEA.877833
  4. Franchi, F; Hofmann, A; Cavalazzi, B et al. (2017): (Table 3) Summary and peak positions of samples from the Kess Kess mounds, Anti-Atlas in Morocco. https://doi.org/10.1594/PANGAEA.877834
  5. Franchi, F; Hofmann, A; Cavalazzi, B et al. (2017): (Table 4) Different chemical analysis of samples from the Kess Kess mounds, Anti-Atlas in Morocco. https://doi.org/10.1594/PANGAEA.877835