Terrestrial record of cyclic early EOCENE warm-humid events in CLAY mineral assemblages from the Salta basin, northwestern ARGENTINA

CAMPO, M.A.R.G.A.R.I.T.A.D.O.; BAULUZ, B.L.A.N.C.A.; PAPA, C.E.C.I.L.I.A.D.E.L.; PAYROLA, P.A.T.R.I.C.I.O.; YUSTE, A.L.F.O.N.S.O.; MAYAYO, M.A.R.I.A.J.O.S.E.

SEDIMENTARY GEOLOGY

ELSEVIER SCIENCE BV

Año: 2021

0037-0738

The Eocene continental sequence investigated in this study belongs to the Salta Group; it wasdeposited in an intracontinental rift, the Salta Basin (NW Argentina) that evolved from the LowerCretaceous to middle Paleogene. The Salta Group contains the Maíz Gordo and Lumbrera Fms, spans the Paleocene-early Eocene, and shows excellent exposures in the region of the Valles Calchaquíes. This research is focused on the continental facies of the Lumbrera Fm, which correspond to the early Eocene. We studied the mineralogy of the fine-grained beds of the Lumbrera Fm in five locations (Valle Encantado, Tonco, Tin Tin, Luracatao, and Obelisco) by X-ray diffraction and scanning electron microscopy in order to examine the vertical variations in clay mineralogy and their relations with global paleoclimatic changes registered during the Eocene. The microtexture of the authigenic smectite-type clays (Sm to I/Sm R0) suggests that they mainly originated by crystallization from glassy volcanic materials. The high reactivity of the glass precludes the use of smectite-type-clay formation as an indicator of specific paleoclimatic conditions in the studied sediments. In contrast, the formation of kaolinite in sections with very low smectite proportions and a strong degree of weathering in crystalline silicates reflects intense weathering conditions and is a useful paleoclimatic proxy in terrestrial sediments. Significant variations in kaolinite/muscovite ratios at the base and in an intermediate bed in the Lumbrera Fm at Valle Encantado suggest the presence of cyclic hyperthermals through the Ypresian stage that may be tentatively correlated with the Eocene Thermal Maxima 2 and 3, which are the largest events that have been identified at a global scale in early Eocene marine sediments.