Nchwaningite, Mn~+Si03(OH)2' H20, is an orthorhombic chain silicate [space group Pea2 Z = 4, a = 12.672(9), b = 7.217(3), e = 5.341(2) A], occurring as aggregates shaped like pin cushions, together with calcite, bultfonteinite, and chlorite at N'chwaning mine, located in the Kalahari manganese field, northern Cape Province, South Africa. The aggregates consist of light brown, transparent needles, which average 1.0 x 0.1 x 0.05 mm in size. Nchwaningite is named after the mine N'chwaning II, where it was found first. Nchwaningite is biaxially negative with the refractive indices ex= 1.681(2), fJ = 1.688(2), 'Y= 1.690(2), 2 ~ = 54.4(4)°. The optical orientation is X = b, Y = a, Z = c. Nchwaningite has two perfect cleavages parallel to (010) and (100). The calculated density is 3.202 glcm3. The chemical composition, as determined by electron microprobe analyses, indicates minor substitutions of Mg for Mn. The crystal structure, including H positions, was solved and refined from X-ray singlecrystal data to R = 2.14%, Rw = 2.91%. The nchwaningite structure consists of double layers of laterally linked so-called truncated pyroxene-building units formed by a double chain of octahedra, topped with a Zweier single chain of Si tetrahedra. Symmetry-equivalent units are linked laterally but turned upside down. This yields a double-layer structure with H bridges linking the layers. A striking feature of the structure is that one Mn06 comer is formed by a H20 molecule. The tetrahedral chain and octahedral distortion of the new mineral is compared with pyroxenes having MnH in Ml [synthetic MnSi03 (P2/e clinopyroxene) andjohannsenite CaMn(Si03)2]' To test a complete Ca and Mg substitution for Mn in the new nchwaningite structure type, distance least-square refinements were performed. It was found that Ca and Mg analogues would also yield reasonable interatomic distances and polyhedra. OCCURRENCEAND ORIGIN sedimentation of the distinct Fe and Mn formations resulted from the different conditions of solubility and preThe Kalahari manganese field is the largest continental cipitation of Fe and Mn, related to cyclic sea-level changes. Mn deposit on the Earth, located in the northern Cape Furthermore, Beukes and Gutzmer (personal communiProvince, South Africa. Three Mn layers are interbedded cation) assumed a primary precipitation of braunite towith Fe formations of the Hotazel Formation of the gether with calcium manganese carbonates, whereas Bau Transvaal Sequence. These layers cover an area of about (personal communication), using REE-data, postulated a 35 x 15 km, and the ore varies in thickness from 6 to primary MnH precipitate with braunite as a secondary 45 m, with reserves of about 1.3 billion tons (Taljaardt, product. Using trace-element profiles in the Ongeluk la1982). vas, Schuette and Cornell (1992) postulated an early alSeveral controversial theories about the primary sedi- teration of fresh andesites caused by heated sea water, mentary origin of the Mn ores exist: Beukes (1983) and leading to the precipitation of Fe and Mn. Nel et al. (1986) postulated a volcanogenic or volcano- The majority of the ore, the so-called Mamatwan type, exhalative source for Fe and Mn, related with submarine is a fine crystalline sedimentary laminated braunite and volcanism in a basin west of the Kapvaal craton. The kutnohorite lutite of relatively low grade, containing a precipitation of Fe and Mn resulted from an upwellingof maximum of -38 wt% Mn. A small portion of the ore 02-undersaturated, Fe- and Mn-rich bottom waters on is developed as coarse crystalline massive Wessels-type the shelf in a photic zone with the first O2 producers. The ore of relatively high grade with Mn contents between 42