Chaetoceros decipiens Cleve 1873, p. 11

Chaetoceros decipiens Cleve 1873, p. 11 View in CoL , Pl. I, fig 5a & 5b, emend. Li, Boonprakob, Moestrup & Lundholm

Figs 1– 3 View Fig 1 View Fig 2 View Fig 3 , 20E and 20F and S View Fig 20 1 View Fig 1 and S 2 View Fig 2 Figs.

Synonym: Chaetoceros grunowii Schütt 1895

Lectotype designated here. A holotype was not chosen by Cleve. We have chosen slide MIC 5366 in P. T. Cleve’s collection, Stockholm, Sweden as the lectotype. The slide is labelled “Atlanten ytan 27/5-71 Lat 60˚25 Long 19˚50 ThM Fries”. Figs 1A, 1B View Fig 1 and 2A View Fig 2 illustrate the lectotype.

Examination of the type material revealed the morphology to be in agreement with Cleve’s description and with our strains identified as C. decipiens . The Cleve material from the North Atlantic and the Davis Strait looked similar. Most prominently some sibling setae were found to fuse for a longer distance; however, in others no fusion was seen. A very delicate striation of the setae was observed, in agreement with Cleve [ 7]. We did not at first observe the striation in our cultured material, but a closer examination showed a similar and extremely delicate striation.

Type locality: North Atlantic 60˚25’N 19˚50’W

Epitype designated here: Glutaraldehyde-fixed material of strain P10E5 isolated from the Norwegian Sea (67,9050N, 4.3238W). The material has been deposited at the Natural History Museum of Denmark, Copenhagen (C-A-92068). Fig 1C and 1D View Fig 1 illustrate the epitype. A sequence of D1-D3 LSU rDNA represents the epitype (Genbank accession number KX065223) GoogleMaps .

Emended description: Chains are usually straight, sometimes slightly arc-shaped curved ( Fig 1A, 1C, 1E and 1F View Fig 1 ). In broad girdle view, the cells are quadrangular or rectangular ( Fig 1A, 1B and 1D–1G View Fig 1 ) sometimes with the apical axis longer than the pervalvar axis ( Fig 1F View Fig 1 ), sometimes the reverse ( Fig 1B, 1D, 1E and 1G View Fig 1 ). Solitary cells also occur ( Fig 3A View Fig 3 ). Several (3– 12) chloroplasts are present in each cell ( Fig 1E and 1F View Fig 1 ). In valve view, valves are broadly elliptical to round-oval; the valve face is saddle-shaped ( Figs 2F View Fig 2 and 3B View Fig 3 ), the central region slightly raised and higher than the valve face margin. A silica rib along the valve face margin is broadly arcshaped ( Figs 2F View Fig 2 and 3B View Fig 3 ). On the valve face, the costae diverge while anastomosing from a central annulus, with solitary poroids scattered between the costae ( Fig 2H View Fig 2 ). The intercalary

valve corners touch those of the adjacent cells ( Fig 1B and 1D–1F View Fig 1 ). The apertures are variable, narrow slit-like oval to hexagonal ( Fig 1B and 1D–1G View Fig 1 ).

Setae are stiff and extend from the corners of the cell ( Fig 1A–1F View Fig 1 ). All setae of a chain are located more or less in the apical plane (Brunel group I) [ 34] ( Fig 1A–1D View Fig 1 ), sometimes diverging very slightly from the apical plane ( Fig 1E View Fig 1 ). Sibling setae cross over just outside the chain border and may fuse for a shorter or longer distance ( Figs 1A–1D View Fig 1 , 3B and 3C View Fig 3 ). The setae lack a basal part ( Figs 1B, 1D View Fig 1 and 3C View Fig 3 ). The extent of fusion varies even within a single chain and between the two sides of adjacent cells ( Fig 1D View Fig 1 , arrowheads, Fig 3B View Fig 3 ). The terminal setae diverge, forming an open U ( Figs 1A, 1C, 1F View Fig 1 and 3A View Fig 3 ). On the intercalary valve, a silica membrane of variable size is present at the margin of the apertures, forming a continuation of the marginal silica rib. The membranes of sibling cells may overlap to form a junction between the cells ( Fig 3B View Fig 3 , arrow, Fig 3C View Fig 3 ). Silica fringes are present on the mantle below the membranes ( Fig 3C View Fig 3 , arrowhead) and are more distinct on the terminal valves, sometimes with long protuberances ( Fig 2F View Fig 2 , arrowheads, Fig 3A View Fig 3 ). Four to six rows of poroids and spines are arranged in longitudinal rows along the setae ( Fig 2C–2E View Fig 2 ). The poroids are round-oval ( Fig 2C–2E View Fig 2 ), 0.3 ±0.1 μm long in size and with a density of 19.0±6.7 poroids in 10 μm (n>50). Sometimes a striation is visible under LM ( Fig 2A View Fig 2 ), sometimes not ( Fig 2B View Fig 2 ), not reflecting poroid density, but more or less similar to the density of the spines ( Table 1 View Table 1 ). All setae have the same structure.

A single rimoportula without an external tube is situated centrally on the terminal valve ( Fig 2I View Fig 2 , arrowhead). No processes were observed on the intercalary valves ( Fig 2H View Fig 2 ). Sometimes, V-shaped non-silicified protrusions can be seen in LM centrally on the terminal valves ( Fig 1G View Fig 1 , arrowhead). In LM, a constriction is visible at the border between the mantle and the girdle bands ( Fig 1B and 1D View Fig 1 , arrows), and the mantle occupies approximately one third of the pervalvar axis. The mantle has narrow parallel rows of costae separated by single rows of poroids ( Fig 3D View Fig 3 ). Silica warts are present on the basal ring of the mantle ( Fig 2G View Fig 2 ).

The girdle bands have parallel costae separated by single rows of scattered poroids ( Fig 2J View Fig 2 ). The apical axis of the valve is 7.8–64.3 μm long, the pervalvar axis 7.8–78.9 μm long, the length of the aperture in the pervalvar axis 3.3–15.1 μm (n>100). No resting spores were found.

Sexual reproduction was observed, and was thus homothallic (S1 and S2 Figs). Auxospores adhered to the girdle of the mother cell (S1 and S2 Figs, arrows). New daughter cells achieved a larger apical axis of the valves (S2 Fig).

Geographical distribution: Davis Strait, North Atlantic [ 7]; Disko Bay, Greenland (April, present study); Denmark Strait; Beaufort Sea; Norwegian Sea; Denmark (April, present study; most of the year with a maximum in spring [ 9]); Narragansett Bay of Rhode Island [ 10]; Gulf of Naples, Italy ([ 35], present study); Peter the Great Bay, Sea of Japan [ 13]; Japanese coast [ 36]; Pacific coast of Mexico [ 12]; southern Gulf of Mexico [ 15]; Daya Bay, south China (December, present study).

Chaetoceros elegans Li, Boonprakob, Moestrup & Lundholm sp. nov. Figs 4–7 View Fig 4 View Fig 5 View Fig 6 View Fig 7

Formal diagnosis: Straight chains or solitary cells. Four to ten chloroplasts typically present in each cell. Apical axis 11.7–39.7 μm. Pervalvar axis 8.9–42.2 μm. Aperture in pervalvar axis 4.4–14.5 μm. Cells quadrangular in girdle view. Saddle-shaped valve face. Central annulus, diverging costae and scattered poroids on valve face, continuing onto mantle. Silica rib on the valve face edge. A rimoportula present on the terminal valve. Furrow above the basal ring of mantle. Large and rounded, quadrangular-rectangular apertures. Setae in the apical plane. Basal part of setae extend in the pervalvar direction. Sibling setae cross over outside chain border without fusing. Terminal setae diverge in direction of chain. Silica ear-like structures present on base of setae. Four to six rows of poroids and spines on the four-six sided setae. Tear-shaped to elongate poroids on setae, ca. 0.5±0.2 μm in size and 17.8±5.4 poroids in 10 μm. Several bands, each band with parallel costae and scattered poroids. Resting spore with smooth surface. The primary valve extends into two elongated elevations with dichotomous branching processes. The secondary valve with one or two bulges. The angle of the outer slope of the elevation is acute. Length of elevation is 1–2 times longer than the branching processes.

Holotype: Glutaraldehyde-fixed material of strain YL7 deposited at the Natural History Museum of Denmark, Copenhagen (C-A-92069). Figs 4A–4D View Fig 4 , 5D–5G View Fig 5 and 6A–6C, H View Fig 6 illustrate the holotype. A sequence of D1-D3 LSU rDNA represents the holotype (Genbank accession number KX065232).

Type locality: Dapeng Bay , Guangdong Province, P. R. China .

Etymology: referring to the characteristic very elegant overall look of the chains and the resting spores.

The chains are straight and stiff ( Fig 4A View Fig 4 ). Cells are quadrangular in broad girdle view ( Fig 4A–4D View Fig 4 ). Solitary cells also occur ( Fig 4B View Fig 4 ). Typically four to ten chloroplasts are present within each cell ( Fig 4C View Fig 4 ). The valves are broadly elliptical to round-oval ( Fig 5A View Fig 5 ) with a saddle-shaped valve face, as the central region is slightly raised ( Fig 5B–5E View Fig 5 ). The valve face edge is broadly arc shaped and marked by an elevated silica rib ( Fig 5B–5E View Fig 5 ). On the valve face, costae diverge from a central annulus, with poroids scattered in between ( Fig 5F View Fig 5 ). A constriction is visible at the border between the mantle and the girdle bands ( Fig 4D View Fig 4 , arrows). The mantle occupies nearly one third of the pervalvar axis, and is ornamented with narrow parallel rows of costae interspersed by single rows of poroids ( Fig 5G View Fig 5 ). A ring-shaped furrow is present above the basal ring of the mantle ( Fig 5B–5E and 5G View Fig 5 arrowhead). Apertures are large and rounded quadrangular-rectangular ( Figs 4C View Fig 4 , 5B and 5C View Fig 5 ).

All setae of a chain are located in the apical plane (Brunel group I) ( Fig 4A View Fig 4 ) [ 34]. The setae protrude from the elongated corners of the cell ( Figs 4C View Fig 4 , 5B and 5C View Fig 5 ). The basal parts of the setae extend initially in approximately the direction of the pervalvar axis, before curving and crossing over ( Fig 5B and 5C View Fig 5 ). Sibling setae diverge at an acute angle to each other, and cross over just outside the chain border without fusing ( Figs 4C View Fig 4 , 5B and 5C View Fig 5 ). Intercalary setae near the ends of the chain are directed slightly more in the direction of the chain ends ( Fig 4A View Fig 4 ). The two terminal setae diverge slightly, continuing more or less in the direction of the chain ( Fig 4A and 4B View Fig 4 ). On the terminal valve, two silicified, ear-like structures project from the base of the setae, one on each side ( Fig 5D View Fig 5 , arrows), forming a continuation of the narrow silica rib on the valve edge. On the intercalary valves, these ‘ears’ of sibling cells overlap and form a junction between the cells, in some cases fusing ( Figs 5B, 5C View Fig 5 , 6A and 6B View Fig 6 , arrows). A small gap is sometimes seen between the crossing bases of sibling setae and the overlapping, ear-like structures ( Fig 6A and 6B View Fig 6 ). The setae are four to six-sided, with four to six longitudinal rows of poroids and spines arranged alternatingly on the setae ( Fig 6D–6G View Fig 6 ). The seta poroids are tear shaped ( Fig 6D–6G View Fig 6 ), 0.5±0.2 μm long with a density of 17.8±5.4 poroids in 10 μm (n>70) ( Table 1 View Table 1 ). The poroids are visible in LM ( Fig 6C View Fig 6 ). Poroids are smaller, oval and less numerous near the base of the setae ( Fig 6A and 6B View Fig 6 ). All setae have the same structure.

A single rimoportula with a short external tube is situated centrally on the terminal valve ( Fig 5A, 5D and 5E View Fig 5 ), while processes are absent on the intercalary valves ( Fig 5B, 5C and 5F View Fig 5 ). In LM, a V-shaped non-silicified protrusion is visible centrally on the terminal valve ( Fig 4D View Fig 4 , arrowhead). Several open girdle bands are present, each band ornamented with parallel costae, which are separated by single rows of scattered poroids ( Fig 6H View Fig 6 ). The apical axis is 11.7–39.7 μm long, the pervalvar axis 8.9–42.2 μm long, the pervalvar axis including basal parts 17.1–31.9 μm long, the length of the aperture in the pervalvar axis 4.4–14.5 μm (n>80).

The resting spores are located centrally in the mother cells, touching the bands and sometimes the valves of the mother cell ( Fig 7A and 7B View Fig 7 ). The surface of the resting spore is mainly smooth ( Fig 7C and 7D View Fig 7 ). The primary valve extends into two elongated elevations with dichotomous branching processes, and one or two bulges are present on the secondary valve face ( Fig 7A–7D View Fig 7 ). The elevations are 32.5–48.0 μm long, the branching processes 5.5–14.2 μm long, and the apical axis 32.5–48.0 μm. The angle of the outer slope of the elevation is acute

( Fig 7C and 7D View Fig 7 ). Length of elevation is 1–2 times longer than the branching processes

( Table 2 View Table 2 ). Sometimes, several silica bulges are located at the bases of the two processes ( Fig 7C and 7D View Fig 7 ). Each process branches into a tree-like structure with the distal tips pointed and possessing one or several hooks ( Fig 7F View Fig 7 ). A single ring of puncta is located near the margin of the secondary valve mantle ( Fig 7E View Fig 7 ).

Geographical distribution: Japanese coast (as C. decipiens in [ 36]); Gulf of California (as C. lorenzianus in [ 12]); New Brunswick Canada (present study); Concepción, Chile (October, present study); Dapeng Bay, south China (August, present study); Mannai Island, Thailand (June, present study).

Chaetoceros laevisporus Li, Boonprakob, Moestrup & Lundholm sp. nov. Figs 8–10 View Fig 8 View Fig 9 View Fig 10

Formal diagnosis: Straight chains. Several chloroplasts in each cell. Apical axis 22.4–

46.3 μm. Pervalvar axis 13.2–42.5 μm. Aperture in pervalvar axis 6.3–12.0 μm. Cells rectangular in girdle view. Saddle-shaped valve face. Costae diverge from a central annulus on the valve face, continuing on to the mantle. Silica rib on the valve edge. A rimoportula present on the terminal valve. A furrow located above the basal ring of the mantle. Oval-peanut shaped apertures. Setae in the apical plane. Valve corners on sibling valves touch each other. Sibling setae cross over just outside the chain border. Terminal setae diverge in the direction of the chain. Silica ear-like structures and fringes present on the base of setae. Four to six rows of poroids and spines on the setae. Round-oval setae poroids, 0.6±0.1 μm in size, with 13.8±1.9 poroids in 10 μm. Several bands with parallel costae and separated poroids. Smooth resting spores with two conical elevations on the primary valve and one or two on the secondary valve.

Holotype: Glutaraldehyde-fixed material of strain N7 deposited at the Natural History Museum of Denmark, Copenhagen (C-A-92070). Figs 8A, 8D–8F View Fig 8 and 9A–9G View Fig 9 illustrate the holotype. A sequence of D1-D3 LSU rDNA represents the holotype (Genbank accession number KX065240).

Type locality: Mannai Island, Rayong Province, Thailand.

Etymology: laevis (Lat.): smooth, the resting spores are smooth without extensions.

The chains are straight and stiff ( Fig 8A, 8B and 8D View Fig 8 ). In broad girdle view, cells are rectangular, the apical axis usually longer than the pervalvar axis ( Fig 8A and 8B View Fig 8 ). Several chloroplasts (more than ten) are present within each cell ( Fig 8A View Fig 8 ). The valves are broadly elliptical to round-oval ( Fig 8F View Fig 8 ). The valve face is saddle shaped, as the central region is slightly raised ( Fig 8D View Fig 8 ). The valve face edge is broadly arc shaped and marked by an elevated silica rib ( Fig 8D View Fig 8 ). On the valve face, costae diverge from a central annulus, without poroids between the costae ( Figs 8F View Fig 8 and 9C View Fig 9 ). In LM, a constriction is visible at the border between the mantle and the girdle bands, and the mantle occupies approximately one third of the pervalvar axis ( Fig 8A View Fig 8 , arrows). The mantle is ornamented with narrow, parallel rows of costae ( Fig 9C View Fig 9 ). A circular furrow is present above a basal ring of the mantle ( Fig 9C View Fig 9 , arrowhead). Valve corners on intercalary valves are elevated and almost touch those of adjacent cells ( Fig 8A and 8D View Fig 8 ). Apertures are oval-peanut shaped ( Fig 8A, 8B and 8D View Fig 8 ).

Setae of a chain are situated more or less in the apical plane (Brunel group I) ( Fig 8B View Fig 8 ), sometimes diverging very slightly from the apical plane ( Fig 8A View Fig 8 ). The intercalary setae are straight or slightly curved, those near the ends curving more towards the ends ( Fig 8B View Fig 8 ). The setae vary greatly in length ( Fig 8B View Fig 8 ). They protrude from the corners of the cell, and sibling setae cross over just outside the chain border, without any fusion ( Fig 8A and 8D View Fig 8 ). An ear-like structure is present at the seta base of intercalary valves near the marginal border of the aperture ( Fig 9A View Fig 9 , arrows). The ‘ears’ sometimes form a junction between sibling cells ( Fig 9B View Fig 9 , arrow). The two terminal setae diverge slightly, continuing more or less in the direction of the chain ( Fig 8A and 8B View Fig 8 ). The setae are four to six-sided, and four to six longitudinal rows of poroids and spines are arranged alternatingly on the setae ( Fig 9G View Fig 9 ). The seta poroids are round-oval ( Fig 9G View Fig 9 ), 0.6 ±0.1 μm μm long, with 13.8±1.9 poroids in 10 μm (n>25), visible in LM ( Fig 8C View Fig 8 )( Table 1 View Table 1 ). Poroids near the seta bases are smaller and more scattered ( Fig 9B View Fig 9 ). All setae have the same structure.

A single rimoportula, which lacks an external tube, is situated centrally on the terminal valve ( Fig 8E View Fig 8 , arrowhead, Fig 8F View Fig 8 , lower valve). In LM, a V-shaped non-silicified protrusion is visible centrally on the terminal valves ( Fig 8A View Fig 8 , arrowhead). Processes are absent on the intercalary valves ( Fig 8F View Fig 8 , upper valve). Siliceous fringes are present near the terminal seta base ( Fig 9C View Fig 9 , arrows). Several open girdle bands are present ( Fig 9D View Fig 9 ), each with parallel costae separated by two, occasionally three, rows of scattered pores, in addition to larger poroids ( Fig 9E and 9F View Fig 9 ). The apical axis is 27.7–34.2 μm long, the pervalvar axis 13.2–42.5 μm long, and the length of the aperture in the pervalvar axis measures 6.3–12.0 μm (n>80).

The resting spores are located centrally in the mother cells, touching both valves and bands of the mother cell ( Fig 10A View Fig 10 ). The spore surface is smooth with two conical elevations on the primary valve and one or two on the secondary valve ( Fig 10A and 10B View Fig 10 ).

Geographical distribution: Daya Bay, south China (December, present study); Mannai Island, Thailand (December, present study), Gulf of Panama (as C. cf. lorenzianus in [ 35]).

Chaetoceros mannaii Boonprakob, Li, Moestrup & Lundholm sp. nov. Figs 11 View Fig 11 and 12 View Fig 12

Formal diagnosis: Short straight chains or solitary cells. Several chloroplasts in each cell. Apical axis 5.7–12.9 μm. Pervalvar axis 8.4–29.6 μm. Aperture in pervalvar axis 4.6–5.6 μm. Cells rectangular in girdle view. Saddle-shaped valve face. Heavily silicified frustule. Robust diverging costae on the valve face, continuing onto the mantle. Silica rib on the valve face edge. A rimoportula, with long external process on the terminal valve. The mantle occupies one fourth of the pervalvar axis. A furrow is present above the basal ring of the mantle. Hexagonal apertures. Setae in or slightly diverging from the apical plane. Short basal part present, sibling setae cross over outside chain border. Terminal setae diverge in the direction of the chain. Silica ear-like structures present on the base of setae. Four to six rows of poroids and spines on the setae. Large oval setae poroids, 0.7±0.2 μm in size, 12.3±1.6 poroids in 10 μm. Several bands with parallel costae and scattered pores.

Holotype: Glutaraldehyde-fixed material of strain N1 deposited at Natural History Museum of Denmark, Copenhagen (C-A-92071). Figs 11 View Fig 11 and 12 View Fig 12 illustrate the holotype. A sequence of D1-D3 LSU rDNA represents the holotype (Genbank accession number KX065246).

Type locality: Mannai Island, Rayong Province, Thailand.

Etymology: from Mannai Island, Thailand.

Short straight chains are typical ( Fig 11A View Fig 11 ), but solitary cells also occur. Several chloroplasts (4–10) are present within each cell ( Fig 11A View Fig 11 ). In broad girdle view, cells are rectangular ( Fig 11A View Fig 11 ). In valve view, valves are broadly elliptical to round-oval ( Fig 11B View Fig 11 ). The valve face is saddle shaped, as the central region of the valve face is slightly raised ( Fig 11C and 11D View Fig 11 ). The valve face edge is broadly arc shaped and marked by an elevated silica rib ( Fig 11C–11E View Fig 11 ). Robust costae diverge from the centre of the valve face, without poroids between the costae ( Figs 11F View Fig 11 and 12C View Fig 12 ), and continue onto the mantle as robust parallel longitudinal ribs ( Fig 12D View Fig 12 ). In LM, a constriction is visible at the border between the mantle and the girdle bands ( Fig 11A View Fig 11 , arrows), and the mantle occupies ca. one fourth of the pervalvar axis. The basal ring of the mantle is heavily silicified, with a distinct furrow above the ring ( Figs 11F View Fig 11 and 12D View Fig 12 , arrowheads). The apertures are hexagonal ( Fig 11A, 11C and 11D View Fig 11 ).

Setae of a chain seem to be located more or less in the apical plane (Brunel group I), or sometimes slightly diverging from the apical plane ( Fig 11B View Fig 11 ). The intercalary setae are straight or slightly curved ( Fig 11B View Fig 11 ). The setae protrude from the elevated corners of the cell ( Fig 11C View Fig 11 ). Sibling setae cross over just outside the chain border, with short basal parts present ( Fig 11C and 11D View Fig 11 ). Terminal setae diverge in an acute to 90 degrees angle ( Fig 11A, 11E and 11F View Fig 11 ). Silicified ear-shaped structures are located at the base of the setae on both the intercalary and terminal valves ( Fig 11D and 11E View Fig 11 , arrowheads). The ‘ears’ form a continuation of the narrow silica rib on the valve face edge ( Fig 11E View Fig 11 ). In the intercalary valves, the ears of sibling setae do not appear to overlap ( Fig 11C and 11D View Fig 11 ). Setae are four-six sided with four to six longitudinal rows of poroids and spines arranged alternatingly on the setae ( Fig 12B View Fig 12 ). The seta poroids are oval ( Fig 12B View Fig 12 ), 0.7±0.2 μm long and with 12.3±1.6 poroids in 10 μm (n = 20), readily visible in LM ( Figs 11A View Fig 11 and 12A View Fig 12 )( Table 1 View Table 1 ). Those near the seta base are slightly smaller and more scattered ( Fig 12B View Fig 12 ). All setae have the same structure.

A single rimoportula with a long external tube is situated centrally on the terminal valve ( Figs 11E, 11F View Fig 11 and 12C View Fig 12 ). Processes are absent on the intercalary valves ( Fig 11C and 11D View Fig 11 ). Several open girdle bands are present ( Fig 12E View Fig 12 ), each with parallel costae separated by one row of scattered pores ( Fig 12F View Fig 12 ). The apical axis is 6.7–12.9 μm long, the pervalvar axis 8.4–29.6 μm long, the length of the aperture in the pervalvar axis 4.6–5.6 μm (n = 20). No resting spores were found.

Geographical distribution: Peter the Great Bay, Sea of Japan (as C. lorenzianus in [ 13]; Gulf of California (as C. lorenzianus in [ 12]; Sinaloa, Mexico (present study); near Mannai Island, Thailand (present study).

Chaetoceros mitra (Bailey) Cleve 1896 p.4 View in CoL , Pl I, fig 6 emend. Li, Boonprakob, Moestrup & Lundholm Figs 13–15 View Fig 13 View Fig 14 View Fig 15 and 20A–20C View Fig 20

Basionym: Dicladia mitra Bailey 1856

Synonym: D. groenlandica Cleve 1873

Lectotype designated here: fig 2, plate II in Cleve [ 18] (shown as Fig 20C View Fig 20 ). A holotype does not exist and a lectotype has therefore been selected.

Epitype designated here: Fixed material of strain P10A1, from TromsØ, Norway. Material has been deposited at the Natural History Museum of Denmark, Copenhagen (C-A-92072). Figs 13–15 View Fig 13 View Fig 14 View Fig 15 illustrate the epitype. Sequences of D1-D3 LSU rDNA (Genbank accession number KX065247) and SSU rDNA ( KX611427 ) represent the epitype .

Type locality: Sea of Kamtschatka

Chains are straight ( Fig 13A View Fig 13 ), or slightly curved (not shown). Several chloroplasts are present in each cell (often 6–14). In broad girdle view, cells are usually rectangular, the pervalvar axis often longer than the apical axis ( Fig 13A and 13B View Fig 13 ). In valve view, the valves are broadly elliptical to round-oval ( Figs 13C View Fig 13 , 14G and 14H View Fig 14 ). The valve face is saddle-shaped, as the central region of the valve face is slightly raised ( Figs 13C View Fig 13 and 14G View Fig 14 ). The valve face edges are broadly arc shaped and marked by an elevated silica rib ( Figs 13C View Fig 13 and 14G View Fig 14 ). On the valve surface, costae diverge from a central annulus ( Fig 14H View Fig 14 ), without distinct poroids between the costae. A constriction is located at the border between the mantle and the girdle bands ( Fig 13B View Fig 13 , arrows). The mantle occupies one third to one fifth of the pervalvar axis, but sometimes less–as little as one tenth during resting spore formation ( Fig 15A and 15C View Fig 15 ). The mantle is ornamented with narrow parallel rows of costae ( Fig 14G View Fig 14 ). A furrow is situated above the basal ring of the mantle ( Fig 14F and 14G View Fig 14 , arrows). Apertures are narrow oval to hexagonal, sometimes slightly indented in the middle ( Fig 13A and 13B View Fig 13 ).

The setae of a chain are diverge from the apical plane (Brunel group II) ( Fig 13A View Fig 13 ). Setae are soft and more or less curved and protrude from the corners of the cell ( Fig 13A and 13B View Fig 13 ). The terminal setae have almost the same orientation as the intercalary setae ( Fig 13A–13C View Fig 13 ) or they are slightly V-shaped in broad girdle view. Sibling setae cross over at the chain border, with no basal parts ( Figs 13A, 13B View Fig 13 and 14F View Fig 14 ). Silicified wing-like structures are present near the seta base and form a bridge between sibling cells ( Fig 14F View Fig 14 , arrowhead). They also form a continuation of the silica rib along the valve face edge on the intercalary valves. On the terminal valve they are replaced by fringes ( Fig 14G View Fig 14 , curved arrow). The setae are four-six sided with four to six rows of poroids and spines arranged alternatingly on the setae ( Fig 14B–14E View Fig 14 ). Poroids of the setae are round-oval ( Fig 14B–14E View Fig 14 ), 0.2±0.1 μm in size, 39.8±7.4 poroids in 10 μm (n>20), the density varying within a single seta. The poroids are barely visible in LM ( Fig 14A View Fig 14 )

( Table 1 View Table 1 ). Poroids near the seta bases are slightly smaller and more scattered ( Fig 14F View Fig 14 ).

A single slit-like rimoportula without any external tube is situated slightly excentrically on the terminal valve ( Fig 14G View Fig 14 , arrowhead). Processes on intercalary valves are absent ( Fig 14H View Fig 14 ). Several open bands are present, each with parallel costae ( Fig 14I and 14J View Fig 14 ). The apical axis is 16.5–23.8 μm, the pervalvar axis 28.1–48.2 μm, the length of the aperture in the pervalvar axis 2.9–10.0 μm (n>20).

Resting spores are most often situated close to one valve of the mother cell ( Fig 15A and 15C View Fig 15 ), sometimes in the middle of the cell ( Fig 15B View Fig 15 ). The surface of the resting spore is mainly smooth ( Fig 15E–15G View Fig 15 ). The primary valve extends into two elongated elevations with dichotomous branching processes distally ( Fig 15B–15G View Fig 15 ). One or two bulges are present on the secondary valve face ( Fig 15E and 15G View Fig 15 ). The elevations are 21.8–36.2 μm long, the branching processes 5.7–11.4 μm long, the apical axis 14.6–21.4 μm ( Table 2 View Table 2 ). The outer slope of the elevation is almost straight ( Fig 15F and 15G View Fig 15 ). Length of elevation is 2–5 times longer than the branching processes ( Table 2 View Table 2 ). A single circular row of small silica warts is visible along the secondary valve edge ( Fig 15E View Fig 15 , arrowheads). The mantle touches the bands of the mother cell ( Fig 15A–15C View Fig 15 ). A ring of puncta is present at the margin of secondary valve mantle ( Fig 15G View Fig 15 , arrowheads).

Geographical distribution: Greenland (April, present study); Sea of Kamtschatka [ 17]; Cape Wankarema, east coast of Greenland, Baffin Bay [ 18]; Narragansett Bay of Rhode Island [ 10], Gulf of St. Lawrence; Canada (as C. lorenzianus in [ 11]).

C. lorenzianus Grunow 1863 p. 157 View in CoL , Pl 14, fig 13 Figs 16 View Fig 16 and 20D View Fig 20

Lectotype designated here: A slide in a capsule (Acqu 1901/3674) with a coverslip of mica found in Grunow’s accession book under number 501 (Grunow 501). The capsule is glued onto a small paper sheet, and next to the capsule is a sketch of C. lorenzianus View in CoL made by Grunow similar to fig 13 in Grunow [ 8] (here illustrated in Fig 20D View Fig 20 ). Fig 16A and 16B View Fig 16 illustrate the lectotype. A holotype was not selected by Grunow.

Type locality: Adriatic Sea

Original description: Rectangular or quadrangular cells in girdle view, setae bend out, setae long, delicate with punctuation. Apical axis 20–43 μm.

Examination of the lectotype material: only a few frustules were found on the slide. (The mica was observed using a 40X objective without oil to avoid destroying it): The aperture was quadrangular-hexagonal ( Fig 16A View Fig 16 ). The setae protruded from the elevated corners of the cell and were located more or less in the apical plane. Sibling setae crossed over just outside the chain border, with some fusion of the basal parts of the setae and with short basal parts present ( Fig 16A and 16B View Fig 16 ). Seta poroids were large and visible in LM as punctuations ( Fig 16B View Fig 16 ), with a density of 7.2±1.7 poroids in 10 μm.