Hielscherite, ideally Ca 3 Si(OH) 6 (SO 4 )(SO 3 )·11H 2 O, (IMA 2011-037) is the first ettringite-group mineral with essential sulfite. We have identified a continuous natural solid-solution series from endmember thaumasite, Ca 3 Si(OH) 6 (SO 4 )(CO 3 )·12H 2 O, to a composition with at least 77 mol.% endmember hielscherite. In this series, the SO 3 :CO 3 ratio is variable, whereas the SO 4 content remains constant. Compositions with more than 50 mol.% endmember hielscherite have only been found at Graulay quarry near Hillesheim in the western Eifel Mountains, Rhineland-Palatinate, where they occur with phillipsite-K, chabazite-Ca and gypsum in cavities in alkaline basalt. Sulfite-rich thaumasite has been found in hydrothermal assemblages in young alkaline basalts in two volcanic regions of Germany: it is widespread at Graulay quarry and occurs at Rother Kopf, Schellkopf and Bellerberg quarries in Eifel district; it has also been found at Zeilberg quarry, Franconia, Bavaria. Hielscherite forms matted fibrous aggregates up to 1 cm across and groups of acicular to prismatic hexagonal crystals up to 0.360.361.5 mm. Individual crystals are colourless and transparent with a vitreous lustre and crystal aggregates are white with a silky lustre. The Mohs hardness is 2À2Ý. Measured and calculated densities are D meas = 1.82(3) and D calc = 1.79 g cm À3 . Hielscherite is optically uniaxial (À), o = 1.494(2), e = 1.476(2). The mean chemical composition of holotype material (determined by electron microprobe for Ca, Al, Si, and S and gas chromatography for C, H and N, with the S 4+ :S 6+ ratio from the crystal-structure data) is CaO 27.15, Al 2 O 3 2.33, SiO 2 7.04, CO 2 2.71, SO 2 6.40, SO 3 12.91, N 2 O 5 0.42, H 2 O 39.22, total 98.18 wt.%. The empirical formula on the basis of 3 Ca atoms per formula unit is Ca 3 (Si 0.73 Al 0.28 ) S1.01 (OH) 5.71 (SO 4 ) 1.00 (SO 3 ) 0.62 (CO 3 ) 0.38 (NO 3 ) 0.05 ·10.63H 2 O. The presence of sulfite was confirmed by crystal-structure analysis and infrared and X-ray absorption near * edge structure spectra. The crystal structure of sulfite-rich thaumasite from Zeilberg quarry was solved by direct methods based on single-crystal X-ray diffraction data (R 1 = 0.064). The structure of hielscherite was refined using the Rietveld method (R wp = 0.0317). Hielscherite is hexagonal, P6 3 , a = 11.1178(2), c = 10.5381(2) Å , V = 1128.06(4) Å 3 and Z = 2. The strongest reflections in the X-ray powder pattern [(d,Å (I)(hkl)] are: 9.), 2.180(35)(042,402;223). In both hielscherite and sulfite-rich thaumasite, pyramidal sulfite groups occupy the same site as trigonal carbonate groups, with analogous O sites, whereas tetrahedral sulfate groups occupy separate positions. Hielscherite is named in honour of the German mineral collector Klaus Hielscher (b. 1957).