Skip to main content

IMIS

A new integrated search interface will become available in the next phase of marineinfo.org.
For the time being, please use IMIS to search available data

 

[ report an error in this record ]basket (1): add | show Print this page

one publication added to basket [354220]
The Farsund Shear Zone: geochemical evidence for lithological diversity in the wall rock of the Rogaland Anorthosite Province, South Norway
Duchesne, J.-C.; Hertogen, J. (2020). The Farsund Shear Zone: geochemical evidence for lithological diversity in the wall rock of the Rogaland Anorthosite Province, South Norway. Norwegian Journal of Geology 100(4): 202020. https://dx.doi.org/10.17850/njg100-4-3
In: Norwegian Journal of Geology. Geological Society of Norway: Trondheim. ISSN 2387-5844; e-ISSN 2387-5852, more
Peer reviewed article  

Available in  Authors 

Author keywords
    Sirdal magmatic belt; Suldal arc; Sveconorwegian; AMCG; Rogaland Anorthosite Province

Authors  Top 

Abstract
    The Rogaland Anorthosite Province (RAP) – a typical Proterozoic Anorthosite–Mangerite– Charnockite (AMC) plutonic complex exposed in the Sveconorwegian orogen in South Norway – was emplaced diapirically through the crust, along a shear zone, at c. 933–916 Ma. The shear zone, recently defined as the Farsund Shear Zone (FSZ), crops out along the eastern flank of the anorthosite province, and it is made up of strongly foliated, steeply dipping, banded gneisses. The banded gneisses comprise a diversity of lithologies: metabasites, granitoid gneisses, augen gneisses and kinzigitic gneisses. Major and trace element compositions of samples mostly from the banded gneisses and the neighbouring granite gneiss permit us to unravel the nature of the various protoliths. The kinzigitic gneisses result from metamorphism of pelitic sediments, while the augen gneisses belong to the high–K calc-alkaline series similar to the Feda suite (c. 1050 Ma), a major component of the Sirdal magmatic belt (SMB, 1070–1020 Ma). The metabasites comprise jotunites comparable to the intermediate rocks of the AMC suite (933–916 Ma) as well as amphibolites and norites with trace element signatures consistent with an oceanic origin. Charnockitic gneisses could result from anatexis in CO2-rich conditions or from fractionation of felsic magma similar to that of the charnockite-granite Farsund intrusion (931–926 Ma). Some leucogranitic layers have a typical REE distribution of migmatitic leucosome. Other granite layers can be distinguished from the massive granite gneiss that has higher Th, Pb and Rb concentrations and [La/Yb]N ratios, but all granites display high–K calc-alkaline affinities compatible with an island-arc origin. The granite gneiss is comparable to the SMB rocks and the granite layers to the Suldal arc lithologies (c. 1520–1480 Ma). The FSZ hosts thin interleaved layers of rocks corresponding to the major lithologies exposed at regional scale. This includes jotunites and charnockites probably genetically related to intrusion of the c. 930 Ma anorthosite province, and a variety of granitic gneisses, metasedimentary rocks, augen gneisses, and mafic rocks with protolith ages ranging from c. 1020 Ma to c. 1500 Ma.

All data in the Integrated Marine Information System (IMIS) is subject to the VLIZ privacy policy Top | Authors