Three-stage, 70 Myr exhumation of HP/LT rocks on Margarita, Venezuela: Caribbean intra-forearc shear, Grenada Basin rifting, and continental obduction

• Published in: Journal of South American earth sciences Vol. 137; p. 104840
• Main Authors: Maresch, Walter V., Pindell, James, Kluge, Rolf, Baumann, Albrecht, Villágomez Díaz, Diego, Brix, Manfred R., Thomson, Stuart N., Stanek, Klaus Peter, Schertl, Hans-Peter, Grafe, Friedemann
• Format: Journal Article
• Language: English
• Published: Elsevier Ltd 01.05.2024
• Subjects: Caribbean; Grenada basin; HP/LT multi-stage exhumation; Intra-arc rifting; Margarita Island; Tectonic unroofing; Margarita Island; HP/LT multi-stage exhumation; Grenada basin; Caribbean; Intra-arc rifting; Tectonic unroofing
• ISSN: 0895-9811; 1873-0647
• DOI: 10.1016/j.jsames.2024.104840

The La Rinconada Terrane comprises the core of Margarita Island, Venezuela; it is a composite unit composed of rocks of both continental and oceanic affinity that were brought together and metamorphosed at high-pressure and low- to medium-temperature conditions in a collision zone along NW South America in Albian to Cenomanian time. Details of the ensuing three-stage exhumation path and concomitant eastward translation until Miocene oblique collision of Margarita with central and eastern Venezuela have remained the subject of discussion. In this paper we integrate the results of published age dating and the details of extensive Rb-Sr, K-Ar, 40Ar/39Ar and fission track dating that have been only superficially presented to date. Initial exhumation from high-pressure conditions into ductile mid-crustal levels occurred at 90-80 Ma, followed by essentially isobaric, isothermal conditions for ca. 30 Myr during which the La Rinconada Terrane was subjected to continual ductile penetrative shearing and recrystallization. Partial to total recrystallization with concomitant partial to total isotopic re-equilibration, especially of quartz-rich rocks, was widespread during this time interval. The youngest Rb-Sr, K-Ar and 40Ar/39Ar ages cluster at ca. 50 Ma. Zircon fission track ages of 50–40 Ma corroborate exhumation into brittle levels of the crust at this time. An apatite fission track age of 23 Ma indicates the attainment of shallow depths in Miocene time. This discontinuous history of exhumation fits tectonic models of the Caribbean well. As the Caribbean Plate led by the Antilles Arc entered the gap between the Americas, strongly dextral, transpressive subduction in the SE Caribbean drove shear deep within the forearc. The La Rinconada Terrane of Margarita was exhumed to mid-crustal depths in the Late Cretaceous and is suggested to have occupied high-angle forearc shear zones above the primary Benioff Plane. As the arc migrated past the Guajira promontory and became extensional due to roll-back of Proto-Caribbean oceanic crust north of the Falcón re-entrant of the South American margin, the La Rinconada Terrane formed the footwall of an Eocene lithospheric rift that opened by late Eocene into the Grenada (oceanic intra-arc) Basin, effecting exhumation into the brittle crust. The progressive obduction of the SE Caribbean Plate onto the South American continental margin during prolonged dextral oblique collision completed most of Margarita's exhumation history by middle Miocene time (17–12 Ma). [Display omitted] •High-pressure rocks of Margarita show a discontinuous 70 Myr exhumation path.•Rb-Sr, K-Ar, 40Ar/39Ar, zircon/apatite fission-track data allow sequential tracking.•A 20–30 Myr mid-crustal hiatus is marked by strong ductile penetrative shearing.•Shearing causes partial/total isotopic resetting/recrystallization of many rocks.•Exhumation path correlates well with Caribbean tectonic history.