Chemical control of 3T stacking order in a Li-poor biotite mica

The microstructural features of a biotite (Mg-rich annite) crystal from dacite rocks of Dzep, Serbia, were studied by X-ray diffraction topography (XRDT) and high-resolution and analytical transmission electron microscopy (HRTEM and ATEM, respectively). The average chemical composition, obtained by electron microprobe analysis (EMPA) and secondary-ion mass spectrometry (SIMS) data, is (K(0.87)Na(0.05)Ca(0.01))(Sigma=0.93)(Fe(1.36)(2+)Mg(1.25)Ti(0.22)Al(0.14)Mn(0.03)Li(0.01))(Sigma=3.01)(Si(2.84)Al(1.16))(Sigma=4.00)O(10)[(OH)(1.53)O(0.35)F(0.10)Cl(0.02)](Sigma=2.00). Inhomogeneous regions from either different polytypes or twins were mapped by XRDT, and these images were used to guide sampling for TEM analysis. Three stacking arrangements, each belonging to subfamily-A of mica polytypes, were identified by selected area electron diffraction (SAED) patterns and HRTEM images: (1) dominant semi-random 1M(r)-n(120 degrees), including an occasional repetition of long-period inhomogeneous stacking sequences belonging to the 3T structural series; (2) highly faulted 2M(1), sometimes with short-range-ordered long-period inhomogeneous sequences based on the 2M(1) structural series; and (3) perfectly ordered 3T stacking repeating over long distances (several micrometers). ATEM data revealed that the microchemical composition of 3T differs from that of the host matrix. The 3 T is enriched in interlayer cations (K and Na), and depleted in Si and octahedral cations. No evidence of Li was detected. Compositional control on the stability of 3T stacking is suggested.