P – T –fluid evolution in the Mahalapye Complex, Limpopo high‐grade terrane, eastern Botswana

Metapelites, migmatites and granites from the c . 2 Ga Mahalapye Complex have been studied for determining the P – T –fluid influence on mineral assemblages and local equilibrium compositions in the rocks from the extreme southwestern part of the Central Zone of the Limpopo high‐grade terrane in Botswana. It was found that fluid infiltration played a leading role in the formation of the rocks. This conclusion is based on both well‐developed textures inferred to record metasomatic reactions, such as Bt ⇒ And + Qtz + (K 2 O) and Bt ± Qtz ⇒ Sil + Kfs + Ms ± Pl, and zonation of Ms | Bt + Qtz | And + Qtz and Grt | Crd | Pl | Kfs + Qtz reflecting a perfect mobility (Korzhinskii terminology) of some chemical components. The conclusion is also supported by the results of a fluid inclusion study. CO 2 and H 2 O ( = 0.6) are the major components of the fluid. The fluid has been trapped synchronously along the retrograde P – T path. The P – T path was derived using mineral thermobarometry and a combination of mineral thermometry and fluid inclusion density data. The Mahalapye Complex experienced low‐pressure granulite facies metamorphism with a retrograde evolution from 770 °C and 5.5 kbar to 560 °C and 2 kbar, presumably at c . 2 Ga.