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Bulk chemical and mineral analyses were carried out on a progressiveseries of low-pressure metamorphic pelites and psammites ofthe Bavarian Forest. The variation of rock compositions in thelower grade (=sillimanite-K-feldspar) zone with coexisting biotite+sillimanite(+K-feldspar+quartz) is essentially the same as that in thehigher grade (=cordierite-K-feldspar) zone with coexisting biotite+cordierite±sillimanite(+K-feldspar+quartz), so that nearly isochemical conditionscan be assumed for the metamorphic processes. The two metamorphiczones are related to each other through the multivariant reaction: biotite+sillimanite+quartz = cordierite+K-feldspar+H2O, but analyses of coexisting biotites and cordierites indicatethat metamorphism continues to increase even within the cordierite-K-feldsparzone. This increase is signalized through a continuous shiftof the 3-phase AFM field cordierite-biotite-sillimanite fromMg-rich to more Fe-rich compositions according to the abovereaction. At the highest grade detected the coexistence of biotite+sillimanitein the presence of quartz+K-feldspar is discontinued in favourof cordierite+garnet. Comparison with other metamorphic areas exhibiting the sameAFM assemblages leads to the tenative conclusion that the shiftdetected here is mainly due to increasing temperatures of metamorphism,whereas increasing pressures would shift the 3-phase AFM fieldin the opposite direction, that is towards more Mg-rich compositions.Thus the position of the biotite-sillimanite-cordierite fieldwithin the AFM plot can be used as indicator of metamorphicconditions in seemingly similar cordierite-sillimanite-biotite-quartz-K-feldspargneisses of variable provenance. Assuming water pressure toequal total pressure the conditions that lead to the cordierite-potashfeldspar zone studied here are estimated as 2-3 kb, 650-700°C. 相似文献
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