ABSTRACT
A regional study of highly metamorphosed supracrustal rocks was
undertaken in the western portions of the Namaqualand Metamorphic Complex. The
study area was essentially restricted to a north - south section some 50
kilometres wide and 220 kilometres long . Eight east-west-trending belts of
supracrustal rocks were examined, together with several smaller paragneiss
remnants , in an area dominated by quartzo - feldspathic gneisses of granitic
composition.
The supracrustal rocks were classified into seven major lithological
groups: quartzitic rocks, metapelitic and metapsammitic rocks , quartzo feldspathic
rocks, metabasites, metacarbonate rocks, magnesium-rich cordierite
rocks and iron formations. Further subdivision, based on variations in mineral
constituents within each group, also occurred, as well as the presence of
lithologies with compositions transitional between certain groups.
The various supracrustal sequences were subdivided into formations
containing minor distinctive members on an informal lithostratigraphic basis.
Correlation between the major supracrustal belts was then undertaken. Four
subgroups were identified across the study area, comprising a quartzo feldspathic
gneiss subgroup and an overlying feldspathic quartzite/garnetcordierite
gneiss subgroup that both predominate in the southern and central
part of the area, a glassy quartzite/mica- sillimanite schist subgroup that
predominates in the northern part , and a cordierite gneiss/metacarbonate
subgroup that is restricted to the Geselskapbank synform. The supracrustal
rocks appear to have been emplaced on a basement of augen gneisses . This
relationship is , however , complicated by the intrusion of granit i c rocks
within the contact zone.
The bulk compositions of the metapelitic rocks were used to examine
potential modifying effects on compositi on caused by granulite - and
amphibolite- facies metamorphism in the light of previous studies that proposed
major amounts of partial melting. Trends displayed by incompatible elements
across the amphibolite/granulite facies boundary indicate significant
depletion in Rb (20%) and lesser K (5%) in the granulite facies. Residual
enrichment in Ba and Sr is also possible . Estimations of potential partial
melt loss were undertaken by least-squares approximation using mean
compositions of amphibolite- and granulite-facies metapelitic rocks and
various minimum melt compositions . Partial melting resulting in the formation
of up to 20% minimum-melt granite and 80% restite was estimated for the
granulite facies, which is compatible with observed in-situ leucosome
formation.
Metapelitic rocks have bulk compositions similar to unmetamorphosed
Proterozoic platform shales. Two distinctive groups of metapelitic rocks were
MOORE, J (2021). A Comparative Study Of Metamorphosed Supracrustal Rocks From The Western Nahaqualand Metamorphic Complex. Afribary. Retrieved from https://afribary.com/works/a-comparative-study-of-metamorphosed-supracrustal-rocks-from-the-western-nahaqualand-metamorphic-complex
MOORE, JOHN "A Comparative Study Of Metamorphosed Supracrustal Rocks From The Western Nahaqualand Metamorphic Complex" Afribary. Afribary, 15 May. 2021, https://afribary.com/works/a-comparative-study-of-metamorphosed-supracrustal-rocks-from-the-western-nahaqualand-metamorphic-complex. Accessed 22 Nov. 2024.
MOORE, JOHN . "A Comparative Study Of Metamorphosed Supracrustal Rocks From The Western Nahaqualand Metamorphic Complex". Afribary, Afribary, 15 May. 2021. Web. 22 Nov. 2024. < https://afribary.com/works/a-comparative-study-of-metamorphosed-supracrustal-rocks-from-the-western-nahaqualand-metamorphic-complex >.
MOORE, JOHN . "A Comparative Study Of Metamorphosed Supracrustal Rocks From The Western Nahaqualand Metamorphic Complex" Afribary (2021). Accessed November 22, 2024. https://afribary.com/works/a-comparative-study-of-metamorphosed-supracrustal-rocks-from-the-western-nahaqualand-metamorphic-complex