Río Mayer Formation
The Río Mayer Formation is sequence of sedimentary rocks of Early Cretaceous age that form part of the northern Magallanes Basin in Santa Cruz Province, Argentina. It is a lateral equivalent of the Zapata Formation, as described in Chile further south within the same basin.
The Río Mayer Formation and it lateral stratigraphic equivalents form part of the post-rift sequence following the major back-arc rifting event in the Jurassic, which was associated with the formation of a significant back-arc basin, greater than 100 km wide, the Rocas Verdes Basin. The rifting was accompanied by eruption of a thick sequence of silica-rich volcanic rocks, forming the Chon Aike Large Igneous Province. The back-arc rifting is interpreted to have propagated northwards, leading to a northwards-narrowing rift. During the late Cretaceous, the basin closed up, locally with obduction of back-arc basin oceanic crust, forming ophiolites, and the development of a major fold and thrust belt, accommodating 100s of kms of shortening. After deposition of the Río Mayer Formation, the Magallanes Basin shows a transition to a foreland basin, related to this shortening.
Stratigraphy
The Río Mayer Formation lies conformably above the Springhill Formation, which marks the ending of the rift episode, infilling the rift topography. The top of this formation varies from uppermost Jurassic to Lower Cretaceous going from south to north within the basin. To the south, in the Largo Argentino and Río Guanaco areas, the Rio Mayer Formation is overlain by the Cerro Toro Formation. Further north, the younger sequence is formed by the Lago Viedma Formation in the Lago Viedma area and the Piedra Clavada Formation in the Lago San Martin area.
Depositional environment
The sequence is entirely marine in character, following on from the Springhill Formation, which is interpreted to represent deposition in a continental environment changing to a marine environment following a transgression.
Structure
This overall fine-grained sequence is generally highly deformed, with the development of tight asymmetric folds, such as the overturned syncline that outcrops on the Loma del Pliegue Tumbado and the nearby Loma de las Pizarras, west of El Chaltén. The boundaries with the older Jurassic rhyolites of the El Quemado Complex are all marked with thrust faults.