Mckelveyite group minerals – Part 1: Nomenclature and new data on donnayite-(Y)

. The mckelveyite group consisting of seven carbonate minerals – mckelveyite-(Y), ewaldite, welo-ganite, donnayite-(Y), alicewilsonite-(YCe), alicewilsonite-(YLa), and bainbridgeite-(YCe) – is formally established. The general formula of the minerals is A 3 B 3 (CO 3 ) 6 · 3H 2 O, where A = Na, Ca, Y, and Zr and B = Sr, Ba, Ce, and La. Different order–disorder modiﬁcations are known resulting in triclinic, monoclinic, hexagonal, and trigonal minerals with essentially the same structure. Re-examination of donnayite-(Y) type specimens shows that the original description contains data collected on two different species: donnayite-(Y) and alicewilsonite-(YCe). Donnayite-(Y), NaCaSr 3 Y(CO 3 ) 6 · 3H 2 O, was found in only one specimen out of seven – CMNMC 39396 – housed at the Canadian Museum of Nature, Ottawa. This specimen becomes the holotype of donnayite-(Y). The crystal structure of donnayite-(Y) was solved and reﬁned to R 1 = 0.055 for 3366 reﬂec-tions with I> 2 σ(I) . Donnayite-(Y) is shown to have a weloganite-type structure conﬁrming its place in the mckelveyite group.

P 6 3 mc) was proposed by Voloshin et al. (1992), who studied material from the Vouriyarvi Massif, Russia.It was suggested that mckelveyite-(Y) and ewaldite may be polymorphs.Both studies provided only limited structural characterisation due to the challenging nature of the material.Weloganite was the first triclinic group member with a determined structure (Chen and Chao, 1975;Grice and Perrault, 1975).The proposed formula was Na 2 Sr 3 Zr(CO 3 ) 6 • 3H 2 O (Z = 1).
Three years later donnayite-(Y), NaCaSr 3 Y(CO 3 ) 6 • 3H 2 O, was described from Mont Saint-Hilaire, Quebec, Canada (Chao et al., 1978).The authors concluded that it is the Ca-Y analogue of weloganite and the Sr analogue of mckelveyite-(Y) and proposed the mckelveyite-(Y) end-member formula: NaCaBa 3 Y(CO 3 ) 6 • 3H 2 O. Chao et al. (1978) did not provide structural data on donnayite-(Y).Thi et al. (1984Thi et al. ( , 1992) ) reported crystal structures of two "donnayite-(Y)" polymorphs -triclinic P 1 and trigonal R3m on material from the Khibiny Massif, Kola Peninsula, Russia.Both phases were characterised by (1) the lack of Ca and (2) the Na : REE ratio close to 1 : 1, indicating that the crystals were a different species.We are unaware of any published structural work on actual donnayite-(Y).Demartin et al. (2008) proposed the first model of the crystal structure of mckelveyite-(Y) confirming the NaCaBa 3 Y(CO 3 ) 6 • 3H 2 O (Z = 4) formula.It is the only known structural study of a monoclinic Cc polymorph with the weloganite-type structure.

New data on donnayite-(Y)
Donnayite-(Y), NaCaSr 3 Y(CO 3 ) 6 • 3H 2 O, was described by Chao et al. (1978) in several specimens from Mont Saint-Hilaire, Quebec, Canada.According to the original publication there were four cotype specimens deposited at the National Museum of Natural Sciences (now -Canadian Museum of Nature), Ottawa (CMN;specimens CMNMC 39394,CMNMC 39395,and CMNMC 39396), and the Royal Ontario Museum, Toronto (ROM; specimen M35222).Three other specimens not mentioned in the article were catalogued as cotypes: two at the Smithsonian National Museum of Natural History, Washington, DC (NMNH; speci- mens 144 522 and 147 191), and one more specimen at the ROM (M35544).
Re-examination of donnayite-(Y) type specimens showed that the original description contains data collected on two different phases with simplified formulae NaCaSr 3 Y(CO 3 ) 6 • 3H 2 O and Na 2 Sr 2 YCe(CO 3 ) 6 • 3H 2 O (Table 1).The latter corresponds to the recently approved species alicewilsonite-(YCe) (Lykova et al., 2023).As the original formula of donnayite-(Y) was given as NaCaSr 3 Y(CO 3 ) 6 • 3H 2 O, and the mineral with that chemical composition has been consistently labelled as such from various localities around the world, we proposed to keep the name donnayite-(Y) for that phase.
Donnayite-(Y) was found in only one specimen out of seven -CMNMC 39396 -housed at the Canadian Museum of Nature, Ottawa.This specimen becomes the holotype of donnayite-(Y).Results of its investigation are given below.
Chemical data are given in Table 2.The contents of U, Tm, Lu, Hf, and Th are below the detection limit.The empirical formula calculated on the basis of six cations, excluding H + , is Na 1.13 Ca 1.14 Sr 2.46 Ba 0.28 Y 0.76 La 0.03 Ce 0.06 Nd 0.02 Gd 0.01 Dy 0.05 Ho 0.01 Er 0.04 Yb 0.01 (CO 3 ) 5.93 (H 2 O) 3.00 .The simplified formula is NaCaSr 3 Y(CO 3 ) 6 • 3H 2 O. Chao et al. (1978) analysed a number of specimens, but all except one were deemed unsuitable "owing to the presence of intimate syntactic intergrowths with other minerals", which is how analyses corresponding to alicewilsonite-(YCe) were likely interpreted.Therefore, EMPAs were collected on one unspecified crystal only.Donnayite-(Y) from the original description is characterised by a higher content of Sr and lower Ba and Ca, which shows that the analysis was obtained on a different specimen that was not designated as a cotype.Summarising the history behind donnayite-(Y) discovery, Horvath et al. (2019) indicated that due to the nature of the material and its paucity, the species description required the use of several specimens collected, mostly before 1973, by different collectors including Peter Tarassoff, Elsa Pfenninger-Horvath, Laszlo Horvath, Marcelle Weber, William Henderson, and Quintin Wight.This corroborates our data and indicates that original EMPAs were likely collected on a specimen that is no longer identifiable.

Optical properties
According to Chao et al. (1978) donnayite-(Y) is biaxial negative; however, we measured optical properties of several mckelveyite group minerals, and they all are biaxial positive, including alicewilsonite-(YCe) and donnayite-(Y).Comparative data given in Table 3 show that the original data were likely obtained on alicewilsonite-(YCe).

Powder X-ray diffraction data
Powder X-ray diffraction (PXRD) data on the holotype were collected at the Canadian Museum of Nature, Canada, using a Bruker D8 Discover microdiffractometer equipped with a DECTRIS EIGER2 R 500K detector and I µS microfocus Xray source (λ CuKα1 = 1.54060Å) with the Kα 2 contribution removed using the "Strip Kα2" tool in Bruker Diffrac.EVA V4.3.The instrument was calibrated using a statistical calibration method (Rowe, 2009).A powder ball 200 µm in diameter, mounted on a fibre pin mount, was analysed with continuous Phi rotation and 10 • rocking motion along the Psi axis of the centric Eulerian cradle stage.
Parameters of the triclinic unit cell refined from the PXRD data are as follows: a = 8.9826( 5 Comparative data for donnayite-(Y) and alicewilsonite-(YCe) are given in Table 4.The patterns are very similar.The unit cell parameter c of the alicewilsonite-(YCe) unit cell is somewhat smaller than that of donnayite-(Y), and the difference is notable in the basal reflections; however, both minerals are characterised by significant isomorphic substitutions at all cation sites, and thus varying unit cell parameters.The chemistry of the crystal used to collect PXRD data for the original study is unknown, so we cannot confidently tell if it was donnayite-(Y) or alicewilsonite-(YCe).
Multiple domains, strong splitting and complex twinning were observed in every data set we collected.Therefore, we were only able to refine the structure to R 1 = 0.139 using the SHELXL 2018/3 program package (Sheldrick, 2015), and thus could not obtain a model of a reasonable quality.
We tested several crystals from different donnayite-(Y) specimens from Mont Saint-Hilaire, and specimen CMNMC 90405 from the Canadian Museum of Nature collection was deemed suitable for a single-crystal X-ray study.The studied donnayite-(Y) occurs as translucent green hemihttps://doi.org/10.5194/ejm-35-133-2023The SXRD data on specimen CMNMC 90405 were collected using a Bruker Kappa APEX II diffractometer equipped with a CCD detector and with an Incoatec Microfocus Source I µS (30 W, multilayer mirror, λ MoKα ) at the Institute of Mineralogy and Crystallography, University of Vienna, Austria.
A crystallographic information file (CIF) for donnayite-(Y) is available as a Supplement file.It was also deposited in the Inorganic Crystal Structure Database (ICSD; no.CSD 2223388).
Donnayite-(Y) is strongly pseudotrigonal.There are six independent large cation sites in the structure (Fig. 3) forming two alternating layers parallel to the ab plane (Fig. 4).Na, Ca, Sr, Ba, Y, and Dy were distributed among these sites based on the EMPA, refined site-scattering factors, and charge balance taking into account bond valence sums (BVSs) and interatomic distances (Tables 6-7).Ln (lanthanoids: La-Lu) were formally refined as Dy atoms.One of the layers is formed by the Sr1, Sr2, and Sr3 sites that have 10-fold coordination.The refinement showed that Sr and Ba are distributed between all three sites with the occupancies fixed as Sr 0.70 Ba 0.30 .Na4 and Ca5 sites have octahedral coordination, their occupancies were fixed as Na 0.65 Ca 0.30 Dy 0.05    Na 2 Sr 3 Zr(CO 3 ) 6 • 3H 2 O (Grice and Perrault, 1975).In the latter there are three other, non-coplanar CO 2− 3 groups centred by carbon atoms C4, C5, and C6.In donnayite-(Y) these three sites are split into two alternating sites each marked by letters a and b, e.g.C4a and C4b, forming alternating CO 2− 3 groups with a shared vertex (Fig. 3).The occupancy of the alternating carbon and oxygen sites was fixed at 50 %.Similar splitting was observed in the recently approved alicewilsonite-(YLa) (IMA 2021-047).
Only one group of alternating C and O atoms marked by either "a" or "b" is occupied at the same time.Due to the quality of the collected data these atoms were not very reliably localised and were refined with isotropic atomic displacement parameters only.2009) "a mineral group consists of two or more minerals with the same or essentially the same structure and composed of chemically similar elements".Seven minerals -alicewilsonite-(YCe), alicewilsonite-(YLa), bainbridgeite-(YCe), donnayite-(Y), ewaldite, mckelveyite-(Y), and weloganite -meet the requirements for formation of a mineral group (Table 8).
Mckelveyite group minerals are carbonates with the general formula A 3 B 3 (CO 3 ) 6 • 3H 2 O, where A = Na, Ca, Y, Zr, and B = Sr, Ba, Ce, and La.Their structure is based on two alternating layers with larger cations B forming one layer and smaller cations A another.One half of the carbonate groups are coplanar to {001}, whereas another half is non-  Sabina et al. (1968), Grice and Perrault (1975) a The trigonal R3m polymorph of "donnayite-(Y)" reported by Thi et al. (1992) was very likely triclinic alicewilsonite-(YCe) (Lykova et al., 2023).b The studied structures were highly disordered; re-investigation is required to confirm the space group.
coplanar.Different order-disorder modifications occur resulting in triclinic, monoclinic trigonal, and hexagonal minerals with essentially the same structure (Donnay and Preston, 1971;Chen and Chao, 1975;Grice and Perrault, 1975;Thi et al., 1984Thi et al., , 1992;;Voloshin et al., 1992;Demartin et al., 2008, our data).There are six independent cation sites in the structure of triclinic and monoclinic members and two sites in the trigonal and hexagonal members.
Although it is suggested "that the group name be that of the first mineral to have been adequately characterised" (Mills et al., 2009), a historical name was proposed for this group after the first mineral discovered in it -mckelveyite-(Y) (Milton et al., 1965).The historical significance should take precedence over the requirement of full structural study for an "adequate" characterisation of a species for this group due to challenges with structural determination because of strong disorder, multiple domains, splitting, and complex twinning.Moreover, although the first structural characterisation of a mckelveyite group mineral should be attributed to ewaldite (Donnay and Preston, 1971), many questions remain about its structure.
Crystal-chemical-driven ordering of lighter and larger Ln at the larger B sites and Y + heavier and smaller Ln at the smaller A sites is observed in the crystal structure of mckelveyite group minerals.In some cases, it leads to two different rare-earth elements being dominant at two different crystal-structure sites (alicewilsonite-(YCe), alicewilsonite-(YLa) and bainbridgeite-(YCe)).In those cases, two chemical symbols are appended to the name in accordance with the nomenclature for rare-earth and Y-mineral species (Levin-son, 1966;Bayliss and Levinson, 1988).For the mckelveyite group minerals the first symbol represents the dominant cations at one of the A sites and the second symbol -at one of the B sites.

Figure 3 .
Figure 3. General view of the crystal structure of donnayite-(Y).Sky-blue spheres are H 2 O molecules.The unit cell is outlined.

Figure 4 .
Figure 4.A view along [010] of the crystal structure of donnayite-(Y).Sr-, Na-, Ca-, and Y-centred polyhedra are shown in green, yellow, orange, and purple, respectively.Carbonate groups are black triangles.The unit cell is outlined.
* Calculated from the stoichiometry.

Table 5 .
Crystal data, data collection information, and structure refinement details for donnayite-(Y).
* Calculated for polyhedra with bonds M-O sites marked with appended "a"/M-O sites marked with appended "b".