Isotopic equilibrium/disequilibrium in granites, metasedimentary rocks and migmatites (Damara orogen, Namibia)—a consequence of polymetamorphism and melting |
| |
| Authors: | S Jung |
| |
| Institution: | Max-Planck-Institut für Chemie, Abt. Geochemie, Postfach 3060, 55020 Mainz, Federal Republic of Germany |
| |
| Abstract: | The overwhelming part of the continental crust in the high-grade part of the Damara orogen of Namibia consists of S-type granites, metasedimentary rocks and migmatites. At Oetmoed (central Damara orogen) two different S-type granites occur. Their negative εNd values (? 3.3 to ? 5.9), moderately high initial 87Sr/86Sr ratios (0.714–0.731), moderately high 206Pb/204Pb (18.21–18.70) and 208Pb/204Pb (37.74–37.89) isotope ratios suggest that they originated by melting of mainly mid-Proterozoic metasedimentary material. Metasedimentary country rocks have initial εNd of ? 4.2 to ? 5.6, initial 87Sr/86Sr of 0.718–0.725, 206Pb/204Pb ratios of 18.32–18.69 and 208Pb/204Pb ratios of 37.91–38.45 compatible with their variation in Rb/Sr, U/Pb and Th/Pb ratios. Some migmatites and residual metasedimentary xenoliths tend to have more variable εNd values (initial εNd: ? 4.2 to ? 7.1), initial Sr isotope ratios (87Sr/86Sr: 0.708–0.735) and less radiogenic 206Pb/204Pb (18.22–18.53) and 208Pb/204Pb (37.78–38.10) isotope compositions than the metasedimentary rocks. On a Rb–Sr isochron plot the metasedimentary rocks and various migmatites plot on a straight line that corresponds to an age of c. 550 Ma which is interpreted to indicate major fractionation of the Rb–Sr system at that time. However, initial 87Sr/86Sr ratios of the melanosomes of the stromatic migmatites (calculated for their U–Pb monazite and Sm–Nd garnet ages of c. 510 Ma) are more radiogenic (87Sr/86Sr: 0.725) than those obtained on their corresponding leucosomes (87Sr/86Sr: 0.718) implying disequilibrium conditions during migmatization that have not lead to complete homogenization of the Rb–Sr system. However, the leucosomes have similar Nd isotope characteristics than the inferred residues (melanosomes) indicating the robustness of the Sm–Nd isotope system during high-grade metamorphism and melting. On a Rb–Sr isochron plot residual metasedimentary xenoliths show residual slopes of c. 66 Ma (calculated for an U–Pb monazite age of 470 Ma) again indicating major fractionation of Rb/Sr at c. 540 Ma. However, at 540 Ma, these xenoliths have unradiogenic Sr isotope compositions of c. 0.7052, indicating depleted metasedimentary sources at depth. Based on the distinct Pb isotope composition of the metasedimentary rocks and S-type granites, metasedimentary rocks similar to the country rocks are unlikely sources for the S-type granites. Moreover, a combination of Sr, Nd, Pb and O isotopes favours a three-component mixing model (metasedimentary rocks, altered volcanogenic material, meta-igneous crust) that may explain the isotopic variabilty of the granites. The mid-crustal origin of the different types of granite emphasises the importance of recycling and reprocessing of pre-existing differentiated material and precludes a direct mantle contribution during the petrogenesis of the orogenic granites in the central Damara orogen of Namibia. |
| |
| Keywords: | S-type granite A-type granite Isotopes Damara orogen |
| 本文献已被 ScienceDirect 等数据库收录! |
|
