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Loess in eastern equatorial Pangea archives a dusty atmosphere and possible upland glaciation.
- Source :
-
Geological Society of America Bulletin . Jan2021, Vol. 133 Issue 1/2, p379-392. 14p. - Publication Year :
- 2021
-
Abstract
- Carboniferous-Permian strata in basins within the Central Pangean Mountains in France archive regional paleoequatorial climate during a unique interval in geological history (Pangea assembly, ice-age collapse, megamonsoon inception). The voluminous (~1.5 km) succession of exclusively finegrained red beds that comprises the Permian Salagou Formation (Lodève Basin, France) has long been interpreted to record either lacustrine or fluvial deposition, primarily based on a local emphasis of subaqueous features in the upper ~25% of the section. In contrast, data presented here indicate that the lowermiddle Salagou Formation is dominated by up to 15-m-thick beds of internally massive red mudstone with abundant pedogenic features (microscale) and no evidence of channeling. Up-section, limited occurrences of ripple and hummocky cross-stratification, and mudcracks record the intermittent influence of shallow water, but with no channeling nor units with grain sizes exceeding coarse silt. These data suggest that the most parsimonious interpretation for the Salagou Formation involves eolian transport of the sediment and ultimate deposition as loess in shallow, ephemeral lacustrine environments. Provenance analyses of the Salagou Formation indicate coarse-grained protoliths and, together with geochemical proxies (chemical index of alteration [CIA] and tNa) that correspond respectively to a low degree of chemical weathering and a mean annual temperature of ~4 °C, suggest that silt generation in this case is most consistent with cold-weathering (glacial and associated periglacial) processes in the Variscan highlands. Together with previous studies that detailed voluminous Permian loess in western equatorial Pangea, this work shows a globally unique distribution of dust at low latitudes that can be linked either directly to glaciated alpine terranes or to reworked and deflated deposits of other types (e.g., fluvial outwash) where fine-grained material was originally generated from glacial grinding in alpine systems. These results further support a revised model for early Permian climate, in which extratropical ice sheets coexisted with a semiarid tropics that may have hosted significant ice at moderate elevation. [ABSTRACT FROM AUTHOR]
Details
- Language :
- English
- ISSN :
- 00167606
- Volume :
- 133
- Issue :
- 1/2
- Database :
- Academic Search Index
- Journal :
- Geological Society of America Bulletin
- Publication Type :
- Academic Journal
- Accession number :
- 150274249
- Full Text :
- https://doi.org/10.1130/B35590.1